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JP2557780B2 - Method and apparatus for injecting treatment liquid into wood and porous inorganic material, and method for breaking radial soft cell wall and closed wall pores of wood - Google Patents
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JP2557780B2 - Method and apparatus for injecting treatment liquid into wood and porous inorganic material, and method for breaking radial soft cell wall and closed wall pores of wood - Google Patents

Method and apparatus for injecting treatment liquid into wood and porous inorganic material, and method for breaking radial soft cell wall and closed wall pores of wood

Info

Publication number
JP2557780B2
JP2557780B2 JP5023752A JP2375293A JP2557780B2 JP 2557780 B2 JP2557780 B2 JP 2557780B2 JP 5023752 A JP5023752 A JP 5023752A JP 2375293 A JP2375293 A JP 2375293A JP 2557780 B2 JP2557780 B2 JP 2557780B2
Authority
JP
Japan
Prior art keywords
pressure
treatment liquid
treated
pressurizing
wood
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Fee Related
Application number
JP5023752A
Other languages
Japanese (ja)
Other versions
JPH06210606A (en
Inventor
真輝 莅戸
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
MAKINON KK
Original Assignee
MAKINON KK
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by MAKINON KK filed Critical MAKINON KK
Priority to JP5023752A priority Critical patent/JP2557780B2/en
Priority to AU52359/93A priority patent/AU670142B2/en
Priority to MYPI93002737A priority patent/MY110907A/en
Priority to EP00109861A priority patent/EP1053841A1/en
Priority to DE69329902T priority patent/DE69329902T2/en
Priority to DK93121160T priority patent/DK0607625T3/en
Priority to EP93121160A priority patent/EP0607625B1/en
Priority to AT93121160T priority patent/ATE199001T1/en
Priority to CA002113661A priority patent/CA2113661C/en
Priority to FI940249A priority patent/FI940249A7/en
Priority to BR9400128A priority patent/BR9400128A/en
Priority to RU94001571A priority patent/RU2128112C1/en
Priority to CN94101099.6A priority patent/CN1035545C/en
Priority to NZ250695A priority patent/NZ250695A/en
Publication of JPH06210606A publication Critical patent/JPH06210606A/en
Application granted granted Critical
Publication of JP2557780B2 publication Critical patent/JP2557780B2/en
Anticipated expiration legal-status Critical
Expired - Fee Related legal-status Critical Current

Links

Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B27WORKING OR PRESERVING WOOD OR SIMILAR MATERIAL; NAILING OR STAPLING MACHINES IN GENERAL
    • B27KPROCESSES, APPARATUS OR SELECTION OF SUBSTANCES FOR IMPREGNATING, STAINING, DYEING, BLEACHING OF WOOD OR SIMILAR MATERIALS, OR TREATING OF WOOD OR SIMILAR MATERIALS WITH PERMEANT LIQUIDS, NOT OTHERWISE PROVIDED FOR; CHEMICAL OR PHYSICAL TREATMENT OF CORK, CANE, REED, STRAW OR SIMILAR MATERIALS
    • B27K3/00Impregnating wood, e.g. impregnation pretreatment, for example puncturing; Wood impregnation aids not directly involved in the impregnation process
    • B27K3/02Processes; Apparatus
    • B27K3/08Impregnating by pressure, e.g. vacuum impregnation
    • B27K3/10Apparatus
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B27WORKING OR PRESERVING WOOD OR SIMILAR MATERIAL; NAILING OR STAPLING MACHINES IN GENERAL
    • B27KPROCESSES, APPARATUS OR SELECTION OF SUBSTANCES FOR IMPREGNATING, STAINING, DYEING, BLEACHING OF WOOD OR SIMILAR MATERIALS, OR TREATING OF WOOD OR SIMILAR MATERIALS WITH PERMEANT LIQUIDS, NOT OTHERWISE PROVIDED FOR; CHEMICAL OR PHYSICAL TREATMENT OF CORK, CANE, REED, STRAW OR SIMILAR MATERIALS
    • B27K3/00Impregnating wood, e.g. impregnation pretreatment, for example puncturing; Wood impregnation aids not directly involved in the impregnation process
    • B27K3/02Processes; Apparatus
    • B27K3/0207Pretreatment of wood before impregnation
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B27WORKING OR PRESERVING WOOD OR SIMILAR MATERIAL; NAILING OR STAPLING MACHINES IN GENERAL
    • B27KPROCESSES, APPARATUS OR SELECTION OF SUBSTANCES FOR IMPREGNATING, STAINING, DYEING, BLEACHING OF WOOD OR SIMILAR MATERIALS, OR TREATING OF WOOD OR SIMILAR MATERIALS WITH PERMEANT LIQUIDS, NOT OTHERWISE PROVIDED FOR; CHEMICAL OR PHYSICAL TREATMENT OF CORK, CANE, REED, STRAW OR SIMILAR MATERIALS
    • B27K3/00Impregnating wood, e.g. impregnation pretreatment, for example puncturing; Wood impregnation aids not directly involved in the impregnation process
    • B27K3/02Processes; Apparatus
    • B27K3/08Impregnating by pressure, e.g. vacuum impregnation
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B27WORKING OR PRESERVING WOOD OR SIMILAR MATERIAL; NAILING OR STAPLING MACHINES IN GENERAL
    • B27KPROCESSES, APPARATUS OR SELECTION OF SUBSTANCES FOR IMPREGNATING, STAINING, DYEING, BLEACHING OF WOOD OR SIMILAR MATERIALS, OR TREATING OF WOOD OR SIMILAR MATERIALS WITH PERMEANT LIQUIDS, NOT OTHERWISE PROVIDED FOR; CHEMICAL OR PHYSICAL TREATMENT OF CORK, CANE, REED, STRAW OR SIMILAR MATERIALS
    • B27K5/00Treating of wood not provided for in groups B27K1/00, B27K3/00
    • B27K5/007Treating of wood not provided for in groups B27K1/00, B27K3/00 using pressure
    • B27K5/0075Vacuum

Landscapes

  • Life Sciences & Earth Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Wood Science & Technology (AREA)
  • Forests & Forestry (AREA)
  • Chemical And Physical Treatments For Wood And The Like (AREA)

Abstract

An apparatus for injecting a treating liquid into wood material comprises: a pressure vessel (12) for storing and sealing said material (11) to be treated therein; a pressure reducing pump (13) for reducing the pressure of said pressure vessel (12) after storing and sealing said material (11) in said pressure vessel (12); a liquid pressure applying device (15) for introducing the treating liquid from a tank (16) for said treating liquid into said pressure vessel (12) to fill up the vessel (12) with the liquid and apply pressure to inject the liquid into said material (11); a pressure removing tank (18) connected to said pressure vessel (12), whose pressure is previously equalized by gas from a gas pressure applying compressor (14) with the pressure of the pressure vessel (12); and a pressure removing valve (19) which opens to gradually reduce the pressure of said pressure vessel (12) through said pressure removing tank (18); wherein the material (11) is stored and sealed in the pressure vessel (12); the pressure of the pressure vessel (12) is reduced by the pressure reducing pump (13), the treating liquid is introduced from the tank (16) to the pressure vessel (12) to fill up the vessel (12) with the liquid and apply pressure to inject the liquid into the material in the pressure vessel (12); the gas is applied from the gas applying compressor (14) to the pressure removing tank (18) to previously equalize the pressure of the tank (18) with that of the pressure vessel (12); and the pressure removing valve (19) is opened to gradually reduce the pressure of the pressure vessel (12) through the pressure removing tank (18) to obtain a liquid injected material product. <IMAGE>

Description

【発明の詳細な説明】Detailed Description of the Invention

【0001】[0001]

【産業上の利用分野】本発明は、木質材の防腐、防虫、
防蟻、防カビ、難燃化や寸法安定、強度向上を図るた
め、及び石質材の耐酸性雨性の向上を図るために木質材
や石質材等に樹脂等の処理液を注入する方法及びその装
置に関する。また、併せて木質材の放射柔細胞壁や閉塞
壁孔対を破壊する方法に関する。
BACKGROUND OF THE INVENTION The present invention relates to a wood material for preserving and insect repellent.
Method and apparatus for injecting a treatment liquid such as resin into wood or stone material for the purpose of preventing ants, mildew, flame retardancy, dimensional stability and strength, and improving acid rain resistance of stone materials Regarding In addition, it also relates to a method of destroying the radial parenchyma cell wall and the pair of closed wall pores of the wood.

【0002】[0002]

【従来の技術】従来より木質材の難燃化、寸法安定、強
度向上のため、及び防腐・防虫性を高めることを目的と
して各種の処理液を木質材に注入することが行われてい
る。この木質材への処理液の注入は、一般に木質材を短
時間のうちに一気に一定圧力に加圧し、その圧力を長時
間保持しつつ処理液を注入することによって行われる。
この場合、木質材の材質にもよるが通常15kg/cm2
上の圧力を加えると木質材にそりや曲げ等の変形を生じ
たり、ヤセたりすることから、処理液の注入はそれ以下
の圧力によって行われていた。一方、石質材においては
処理液を表面に塗布することや、石室材そのものの性質
を利用すること、例えば大理石が持つ表面に触れた酸性
水を中和する性質などを利用して酸性雨に対する保護を
図っていた。
2. Description of the Related Art Conventionally, various treatment liquids have been injected into wood materials for the purpose of making wood materials flame-retardant, having dimensional stability, improving strength, and improving antiseptic / insect repellent properties. The treatment liquid is generally injected into the wood material by rapidly pressurizing the wood material to a constant pressure in a short time, and then injecting the treatment liquid while maintaining the pressure for a long time.
In this case, depending on the material of the wood material, if pressure of 15 kg / cm 2 or more is applied, the wood material may be deformed such as warping or bending, or it may become irritated. Was done by On the other hand, in the case of stone materials, the treatment liquid is applied to the surface, the property of the stone chamber itself is used, and for example, the property of neutralizing the acidic water touching the surface of the marble is used to protect against acid rain. I was trying.

【0003】[0003]

【発明が解決しようとする課題】ここで、木質材は一般
に図8のように多数の細胞の集合から成り立っており、
各細胞間には図9のような構造の壁孔対1が点在し壁孔
2が形成されている。この壁孔2の中央にはトルース3
という肥厚部があり、そのまわりは薄い網目状(マル
ゴ)になっている。このような構造を有する木質材は、
心材化の過程などにおいて壁孔壁が一方の孔口に引き寄
せられトルース3が孔口を塞ぐ。このような状態となっ
たものを閉塞壁孔対と呼び、トルース3が壁孔2を塞い
だような形となっており、心材部のみならず辺材部にも
存在する。従って、木材全体に亘って処理液を浸透させ
るためには、この閉塞壁孔対の孔口を塞いでいるトルー
ス3を破壊したり細胞壁そのものを破壊して隣接する細
胞内にも処理液が行き渡るようにする必要がある。
Here, the wood material is generally made up of a large number of cells as shown in FIG.
Wall holes 2 having a structure as shown in FIG. 9 are scattered between the cells to form wall holes 2. At the center of this wall hole 2 is a truth 3
There is a thickened part, and the area around it is a thin mesh (margot). The wood material having such a structure is
In the process of converting into a core material, the wall hole wall is pulled toward one hole opening and the truth 3 closes the hole opening. A state in such a state is called a closed wall hole pair, and the shape is such that the truth 3 blocks the wall hole 2, and it exists not only in the core material but also in the sap material. Therefore, in order to allow the treatment liquid to permeate the entire wood, the treatment liquid permeates adjacent cells by destroying the truth 3 that blocks the pores of the pair of closed wall pores or the cell wall itself. Need to do so.

【0004】しかしながら、このトルース3を材中心部
まで破壊するためには、従来の処理液注入方法では30
kg/cm2 の圧力が必要であるが、先述のように15kg/
cm2以上の圧力では材そのものが変形してしまう。そこ
で、その変形を避けるべく注入圧を低圧にせざるを得
ず、その結果圧力不足となりトルース3を十分に破壊し
て木材内部まで十分に処理液を注入することができなか
った。一方、特に広葉樹においては、一気に所定圧力ま
で加圧を行うため、チロース等の不純物により導管に詰
まりが発生し、処理液を材中心部まで注入することが非
常に難しかった。また、石質材においては処理液の表面
塗布や石質材の性質によりその保護を図っていることか
ら、その効果は表面に限られ、長期間に亘り酸性雨にさ
らされるとその耐酸性雨性も衰え、酸性雨に対して十分
な効果が得られなくなる。その結果、酸性雨が内部に浸
透してしまい内部がパウダー状になる等石質材内部から
蝕まれることを防ぎ得なかった。
However, in order to destroy the truth 3 up to the center of the material, the conventional method of injecting the processing liquid is 30
A pressure of kg / cm 2 is required, but as previously mentioned, 15 kg /
If the pressure is more than cm 2 , the material itself will be deformed. Therefore, in order to avoid the deformation, the injection pressure had to be low, and as a result, the pressure became insufficient, and the truth 3 could not be sufficiently destroyed to sufficiently inject the treatment liquid into the wood. On the other hand, particularly in a hardwood, since the pressure is applied to a predetermined pressure all at once, the conduit is clogged with impurities such as tylose, and it is very difficult to inject the treatment liquid to the center of the material. In addition, in stone materials, since the protection is aimed at by the surface coating of the treatment liquid and the nature of the stone material, its effect is limited to the surface, and its acid rain resistance declines when exposed to acid rain for a long time, Not enough effect against acid rain. As a result, it was not possible to prevent the acid rain from penetrating into the inside of the stone material and being eroded from inside the stone material such as powder inside.

【0005】本発明は上記課題を解決すべくなされたも
のであり、木質材や石質材等の被処理材に変形を生じさ
せることなく、その内部まで十分に処理液を注入浸透さ
せることができる木質材及び多孔質無機材の処理液注入
方法及び装置を提供することを目的とする。また、併せ
て木質材の放射柔細胞壁や閉塞壁孔対を破壊する方法を
提供することを目的とする。
The present invention has been made to solve the above-mentioned problems, and it is possible to sufficiently inject and infiltrate a treatment liquid into the inside of a material such as wood or stone without causing deformation. It is an object of the present invention to provide a method and an apparatus for injecting a treatment liquid for a material and a porous inorganic material. Moreover, it aims at providing the method of destroying the radial parenchyma cell wall of a wood material, and a pair of obstruction wall hole together.

【0006】[0006]

【課題を解決するための手段】上記目的を達成するため
請求項1記載の本発明は、樹脂等の処理液を木質材及び
多孔質無機質材に注入する方法であって、被処理材を減
圧して該被処理材内の気体を取除く減圧ステップと、被
処理材を該被処理材が変形を生じない所定圧力に加圧
し、所定時間該圧力を保持する初期加圧ステップと、上
記圧力保持時間経過後、最終加圧圧力まで段階的に昇圧
し、かつ各加圧段階において所定時間当該圧力を保持し
つつ被処理材を加圧する予備加圧ステップと、所定の処
理液注入圧力において当該被処理材に処理液を注入する
処理液注人ステップとからなることを特徴として構成さ
れている。さらに請求項2記載の本発明は、樹脂等の処
理液を針葉樹材に注入する方法であって、被処理材を減
圧して該被処理材内の気体を取除く減圧ステップと、被
処理材を該被処理材が変形を生じない低圧力に加圧し、
所定時間該圧力を保持する初期加圧ステップと、上記圧
力保持時間経過後、最終加圧圧力まで段階的に昇圧し、
かつ各加圧段階において所定時間当該圧力を保持しつつ
被処理材を加圧する予備加圧ステップと、所定の処理液
注入圧力において当該被処理材に処理液を注入する処理
液注入ステップとからなることを特徴として構成されて
いる。さらにまた請求項3記載の本発明は、樹脂等の処
理液を広葉樹材に注入する方法であって、針葉樹材の場
合よりも長時間被処理材を減圧して該被処理材内の気体
を取除く減圧ステップと、被処理材を該被処理材が変形
を生じない低圧力で加圧し、針葉樹材の場合よりも長時
間該圧力を保持する初期加圧ステップと、上記圧力保持
時間経過後、最終加圧圧力まで段階的に昇圧し、かつ各
加圧段階において所定時間当該圧力を保持しつつ被処理
材を加圧する予備加圧ステップと、所定の処理液注入圧
力において当該被処理材に処理液を注入する処理液注入
ステップとからなることを特徴として構成されている。
しかも請求項4記載の本発明は、樹脂等の処理液を石質
材に注入する方法であって、木質材の場合よりも長時間
被処理材を減圧して該被処理材内の気体を取除く減圧ス
テップと、被処理材を該被処理材が変形を生じない低圧
力で加圧し、木質材の場合よりも長時間該圧力を保持す
る初期加圧ステップと、上記圧力保持時間経過後、当該
被処理材を最終加圧圧力に加圧する予備加圧ステップ
と、所定の処理液注入圧力において当該被処理材に処理
液を注入する処理液注入ステップとからなることを特徴
として構成されている。しかもまた請求項5記載の本発
明は、被処理材を密閉格納する圧力容器と、該圧力容器
減圧用の減圧装置と、上記圧力容器加圧用の加圧装置
と、処理液を上記圧力容器に加圧注入するための液体加
圧装置と、上記圧力容器に接続され予め上記圧力容器内
と同一圧力に加圧されるものであって処理液の注入完了
後に上記圧力容器の加圧状態を解圧するための解圧タン
クと、該解圧タンクに接続されるものであって処理液の
注入完了後に開閉され上記解圧タンクを介して上記圧力
容器内の圧力を徐々に解圧する解圧バルブとを備えたこ
とを特徴として構成されている。また請求項6記載の本
発明は、木質材の放射柔細胞壁及び閉塞壁孔対破壊方法
であって、被処理材を減圧して該被処理材内の気体を取
除く減圧ステップと、被処理材を該被処理材が変形を生
じない所定圧力に加圧し、所定時間該圧力を保持する初
期加圧ステップと、上記圧力保持時間経過後、最終加圧
圧力まで段階的に昇圧し、かつ各加圧段階において所定
時間当該圧力を保持しつつ、当該被処理材を加圧する予
備加圧ステップとからなることを特徴として構成されて
いる。
In order to achieve the above object, the present invention according to claim 1 is a method of injecting a treatment liquid such as a resin into a wood material and a porous inorganic material, wherein the material to be treated is decompressed. And a depressurizing step of removing gas in the material to be processed, an initial pressurizing step of pressurizing the material to be processed to a predetermined pressure that does not cause deformation of the material to be processed, and maintaining the pressure for a predetermined time, After the holding time has elapsed, the pressure is stepwise increased to the final pressurization pressure, and in each pressurizing step, a preliminary pressurization step of pressurizing the material to be processed while maintaining the pressure for a predetermined time, and a predetermined process liquid injection pressure are applied. And a treatment liquid pouring step of injecting the treatment liquid into the material to be treated. Further, the present invention according to claim 2 is a method of injecting a treatment liquid such as a resin into a softwood material, the decompression step of decompressing the material to be treated to remove gas in the material, and the material to be treated. Is pressurized to a low pressure at which the material to be treated does not deform,
An initial pressurizing step of maintaining the pressure for a predetermined time, and after the pressure maintaining time has elapsed, the pressure is stepwise increased to the final pressurizing pressure,
In each pressurizing step, a pre-pressurizing step of pressurizing the material to be processed while maintaining the pressure for a predetermined time and a processing liquid injection step of injecting the processing liquid into the material to be processed at a predetermined processing liquid injection pressure It is characterized by that. Furthermore, the present invention according to claim 3 is a method of injecting a treatment liquid such as a resin into a hardwood material, wherein the material to be processed is decompressed for a longer period of time than in the case of a softwood material and the gas in the material is treated. A depressurizing step of removing, an initial pressurizing step of pressurizing the treated material at a low pressure that does not cause deformation of the treated material, and holding the pressure for a longer time than in the case of softwood, and after the pressure holding time has elapsed A pre-pressurization step of stepwise increasing the pressure to the final pressurization pressure and pressurizing the material to be processed while maintaining the pressure for a predetermined time in each pressurizing step; And a treatment liquid injection step of injecting a treatment liquid.
Moreover, the present invention according to claim 4 is a method of injecting a treatment liquid such as a resin into a stone material, and decompressing the material to be treated for a longer time than in the case of a wood material to remove gas in the material to be treated. A depressurizing step, an initial pressurizing step of pressurizing the material to be processed at a low pressure that does not cause the material to be deformed, and holding the pressure for a longer time than in the case of a wood material; It is characterized in that it comprises a pre-pressurizing step of pressurizing the material to be treated to a final pressurizing pressure and a treatment liquid injecting step of injecting the treatment liquid into the material to be treated at a predetermined treatment liquid injecting pressure. Moreover, the present invention according to claim 5 provides a pressure vessel for hermetically storing a material to be treated, a decompression device for decompressing the pressure vessel, a pressure device for pressurizing the pressure vessel, and a treatment liquid in the pressure vessel. A liquid pressurizing device for pressurizing and injecting, which is connected to the pressure vessel and is pre-pressurized to the same pressure as in the pressure vessel, and the pressurization state of the pressure vessel is released after the injection of the processing liquid is completed. A decompression tank for pressurizing, and a decompression valve which is connected to the decompression tank and which is opened and closed after completion of injection of the treatment liquid to gradually decompress the pressure in the pressure vessel via the pressure decompression tank. It is characterized by having. Further, the present invention according to claim 6 is a method for destroying a radial soft cell wall and a closed wall hole of a wood material, which comprises a decompression step of decompressing the material to be treated so as to remove gas in the material to be treated. An initial pressurizing step of pressurizing the material to a predetermined pressure at which the material to be treated is not deformed and maintaining the pressure for a predetermined time, and stepwise increasing the pressure to the final pressurizing pressure after the pressure holding time has passed, and In the pressurizing step, a preliminary pressurizing step of pressurizing the material to be processed while maintaining the pressure for a predetermined time is configured.

【0007】[0007]

【実施例】次に本発明に係る処理液注入方法の実施例に
ついて、図面を参照しつつ説明する。図1は本発明に係
る第1の実施例における減圧・加圧処理の様子を示す説
明図であり、針葉樹に対し処理液を注入する場合の方法
である。また、図4、図5は針葉樹の構造を示す説明
図、図6は本発明を用いた場合と従来の注入方法により
処理液注入した場合との注入処理後の状態を比較する説
明図、図7は本方法を実施するための装置の構成ブロッ
ク図である。
Embodiments of the method of injecting a processing liquid according to the present invention will be described below with reference to the drawings. FIG. 1 is an explanatory view showing a state of decompression / pressurization treatment in the first embodiment according to the present invention, which is a method for injecting a treatment liquid into a conifer. 4 and 5 are explanatory views showing the structure of coniferous trees, and FIG. 6 is an explanatory view and a diagram for comparing the state after the injection processing with the case of using the present invention and the case of injecting the processing liquid by the conventional injection method. 7 is a block diagram showing the configuration of an apparatus for carrying out this method.

【0008】ここで、針葉樹は、一般的には図4、図5
のような構造となっており中心部まで処理液を注入する
ためには放射柔細胞壁や閉塞壁孔対を破壊しなければな
らない。本方法は、被処理木材に加える圧力を低圧から
段階的に増して行くことにより、木材の内部と外部との
圧力差を、トルース3を破壊するには十分であるが木材
を変形させない程度に保ち、トルース3を次第に材中心
部まで破壊し、その後に処理液を注入して処理液を木材
内部まで十分に浸透させる方法である。即ち、まず最も
外側の放射柔細胞壁や閉塞壁孔対を破壊し外圧と仮導管
21a内の圧力を等しくする。そして、仮導管21b、
21cというように順次破壊を繰返して心材部まで外圧
と等しくなるように加圧を行う。この場合、圧力伝播は
非常に細かい切れ目や小さな孔を介して行われることか
ら、その効率化のため圧力を上げる必要があるが急激な
上昇は材のヤセや変形を招くため、これを防止すべく本
発明ではその圧力上昇は順次段階的に行われる。
Here, the coniferous trees are generally shown in FIGS.
In order to inject the treatment solution to the central part, it is necessary to destroy the radial parenchymal cell wall and the obstruction wall hole pair. This method gradually increases the pressure applied to the wood to be treated from a low pressure so that the pressure difference between the inside and the outside of the wood is sufficient to destroy the truth 3 but does not deform the wood. This is a method of maintaining and gradually destroying the truth 3 to the center of the material, and then injecting the treatment liquid to sufficiently permeate the treatment liquid into the wood. That is, first, the outermost radial parenchymal cell wall and the pair of closed wall holes are destroyed to equalize the external pressure with the pressure in the temporary conduit 21a. And the temporary conduit 21b,
21c, the fracture is repeated in sequence, and pressure is applied to the core material portion so as to be equal to the external pressure. In this case, the pressure is propagated through very fine cuts and small holes, so it is necessary to raise the pressure for efficiency, but a rapid rise causes material erosion and deformation. Therefore, in the present invention, the pressure increase is carried out step by step.

【0009】本発明においては、まず減圧ステップとし
て、図7に示す装置の圧力容器12内に被処理木材11
を密閉収納する。そして、減圧用バキュームポンプ13
により、図1に示すように、一旦−760mmHgまで減圧
して20分程度保持し、材に含まれる空気を出来るだけ
取り除く。その後加圧工程に移り、初期加圧ステップと
して被処理木材を気体加圧用コンプレッサー14により
2kg/cm2 に加圧する。この場合、圧力容器12内の材
はパスカルの原理により各部が等しい圧力を受ける。そ
して、この状態を20分間程度保持する。2kg/cm2
加圧はトルース3等を個々に破壊するには足る圧力であ
り、この保持により放射柔細胞壁や閉塞壁孔対のすべて
は破壊されないものの、その一部破壊により圧力はこの
保持時間中に中心部まで伝播する。なお、この状態では
2kg/cm2 と、比較的低圧の加圧のため木材自体には変
形は生じない。
In the present invention, first, as a depressurizing step, the treated wood 11 is placed in the pressure vessel 12 of the apparatus shown in FIG.
To be stored tightly. And the vacuum pump 13 for decompression
Thus, as shown in FIG. 1, the pressure is once reduced to −760 mmHg and kept for about 20 minutes to remove the air contained in the material as much as possible. After that, the process proceeds to a pressurizing step, and the wood to be treated is pressurized to 2 kg / cm 2 by the gas pressurizing compressor 14 as an initial pressurizing step. In this case, the material in the pressure vessel 12 receives the same pressure in each part according to the principle of Pascal. Then, this state is maintained for about 20 minutes. Pressurization of 2 kg / cm 2 is sufficient pressure to destroy the Truth 3 etc. individually, and this retention does not destroy all of the radial parenchymal cell wall and the pair of obstruction wall pores, but the pressure is retained by this partial destruction. Propagate to the center in time. In this state, the wood itself is not deformed due to the relatively low pressure of 2 kg / cm 2 .

【0010】次に、予備加圧ステップへと移る。ここで
は、図1に示されるように初期加圧ステップの2kg/cm
2 から出発して段階的に最終加圧圧力まで圧力を増加す
る。本実施例においては、8kg/cm2 、15kg/cm2
25kg/cm2 と増加させるものとする。まず圧力を8kg
/cm2 に上昇させる。このとき、初期加圧ステップにお
いて2kg/cm2 の圧力が加えられていることから、8kg
/cm2 加圧当初においては木材の内部と外部には相対的
に6kg/cm2 の圧力差が生じることとなる。一般にトル
ース3は、木材の種類にもよるが2〜5kg/cm2 の圧力
をそこに加えることにより破壊される。従って、この予
備加圧ステップの第1段階によって木材の外側に近い部
分を中心にさらに多くの閉塞壁孔対が破壊される。そし
て、この8kg/cm2 の圧力において再び10分間程保持
する。これにより、前述同様その圧力が破壊された放射
柔細胞壁や閉塞壁孔対等を介して伝播し、木材は内部ま
で8kg/cm2 の圧力で加圧されている状態となる。
Next, the pre-pressurizing step is started. Here, as shown in Fig. 1, the initial pressurization step is 2 kg / cm.
Starting from 2, the pressure is increased stepwise to the final pressurization pressure. In this embodiment, 8 kg / cm 2 , 15 kg / cm 2 ,
It shall be increased to 25 kg / cm 2 . First, the pressure is 8 kg
/ Cm 2 to increase. At this time, since the pressure of 2 kg / cm 2 was applied in the initial pressure step, 8 kg
In / cm 2 pressurized圧当first so that the pressure difference relative 6 kg / cm 2 occurs in the inside and outside of the timber. Truth 3 is generally destroyed by applying a pressure of 2 to 5 kg / cm 2 depending on the type of wood. Therefore, by the first stage of this pre-pressurization step, more pairs of closed wall holes are destroyed around the portion of the wood near the outside. Then, the pressure of 8 kg / cm 2 is maintained again for about 10 minutes. As a result, similarly to the above, the pressure is propagated through the broken radial parenchymal cell wall, the pair of closed wall holes and the like, and the wood is pressurized to the inside with a pressure of 8 kg / cm 2 .

【0011】このように予備加圧ステップでは、同様に
してさらに適宜圧力を増加して各段階において一定時間
その圧力を保持する。即ち、本ステップではさらに15
kg/cm2 で10分、25kg/cm2 で20分というように
最終加圧圧力まで木材を加圧して行く。そして、この各
段階当初において生ずる木材内部と外部との相対的な圧
力差によって放射柔細胞壁や閉塞壁孔対等が木材内部ま
で次々に破壊されて行くことになる。
As described above, in the preliminary pressurizing step, the pressure is similarly further appropriately increased and the pressure is maintained for a certain time in each stage. That is, in this step,
10 minutes kg / cm 2, pressurized timber with 25 kg / cm 2 to a final pressurizing pressure and so 20 minutes. Then, due to the relative pressure difference between the inside and outside of the wood that occurs at the beginning of each stage, the radial parenchyma wall, the pair of closed wall holes, and the like are successively destroyed to the inside of the wood.

【0012】ここで、先述のように木材は一般に15kg
/cm2 の圧力を加えると変形を生ずる。しかしながら、
これは無加圧状態から急激に15kg/cm2 以上の加圧を
行う場合における衝撃的な圧力差による木材の変形を意
味する。従って、本発明のように段階的に木材への圧力
を増して行くような場合には、たとえ木材に加えられた
最終的な圧力が15kg/cm2 を超えても木材の変形は生
じにくい。また、加えて本発明においては、各段階で所
定時間保持して木材内部まで各段階における圧力となる
ように処理される。従って、例えば25kg/cm2 を加え
た場合であっても、その加圧時における圧力上昇は内外
の相対的圧力差、即ち、それ以前の加圧状態の15kg/
cm2 と25kg/cm2 の差たる10kg/cm2 に過ぎず、木
材の変形は生じない。
Here, as described above, the weight of wood is generally 15 kg.
Deformation occurs when a pressure of / cm 2 is applied. However,
This means the deformation of the wood due to a shocking pressure difference when a pressure of 15 kg / cm 2 or more is rapidly applied from the unpressurized state. Therefore, in the case where the pressure on the wood is gradually increased as in the present invention, the deformation of the wood is unlikely to occur even if the final pressure applied to the wood exceeds 15 kg / cm 2 . In addition, in the present invention, each stage is treated for a predetermined period of time so that the pressure is applied to the inside of the wood. Therefore, even if, for example, 25 kg / cm 2 is applied, the pressure rise during pressurization is the relative pressure difference between the inside and outside, that is, 15 kg /
only cm 2 and the difference serving as 10kg / cm 2 of 25kg / cm 2, it does not occur deformation of the timber.

【0013】このように、本発明による方法によれば段
階的な予備加圧ステップを経ることによって木材自体が
変形することなく木材内部まで閉塞壁孔対等を破壊する
ことができることになる。なお、各圧力段階において保
持する時間ははじめの15kg/cm2 程度までは比較的長
く10分間以上とることが望ましいが、それ以後におい
てはそれよりも短くしても差し支えない。また、初期加
圧ステップでの圧力や各段の圧力差、保持時間は木材の
材質や寸法によって種々異なる値を設定することは勿論
であり、トルース3の破壊圧力が大きいものは圧力差を
大きくし、木材内部まで等圧となるのに時間を要するも
のは保持時間を長くする必要がある。
As described above, according to the method of the present invention, the closed wall hole pair and the like can be destroyed to the inside of the wood without the wood itself being deformed through the stepwise pre-pressurization step. It is desirable that the holding time in each pressure stage is relatively long up to about 15 kg / cm 2 for 10 minutes or more, but after that, it may be shorter than that. In addition, the pressure in the initial pressurizing step, the pressure difference in each stage, and the holding time may of course be set to various values depending on the material and size of the wood. However, it is necessary to lengthen the holding time for a material that requires time to reach an equal pressure inside the wood.

【0014】次に、このように予備加圧ステップを経た
後処理液注入ステップへと進む。この処理液注入ステッ
プでは被処理木材に液体加圧ポンプ15により処理液を
一定圧力下で注入、浸透させる。この場合、材の仮導管
21内に残っている気体はヘンリーの法則により加圧注
入された処理液内に取り込まれる。なお、この処理圧力
は予備加圧ステップに続いて最終加圧圧力と同圧力で行
っても良いし、別途に異なる圧力によって行っても良
い。本方法においては予備加圧ステップによって、既に
放射柔細胞壁や閉塞壁孔対は木材内部まで破壊されてい
るため容易に処理液は木材内部まで浸透する。従って、
従来の処理液注入圧力よりも低圧によって処理すること
もまた可能である。
Next, after the preliminary pressurizing step, the process proceeds to the post-treatment liquid injecting step. In this treatment liquid injecting step, the treatment liquid is injected and penetrated into the wood to be treated by the liquid pressure pump 15 under a constant pressure. In this case, the gas remaining in the temporary conduit 21 of the material is taken into the pressurized processing solution according to Henry's law. The processing pressure may be the same as the final pressurizing pressure subsequent to the preliminary pressurizing step, or may be a different pressure separately. In this method, the preparatory pressurization step has already destroyed the radial parenchymal cell wall and the pair of closed pores to the inside of the wood, so that the treatment liquid easily penetrates to the inside of the wood. Therefore,
It is also possible to process at a pressure lower than the conventional processing liquid injection pressure.

【0015】一方、このように処理液を加圧注入した後
にはその加圧状態を解圧する必要がある。この場合、急
な解圧を行うとヘンリーの法則により処理液中に取り込
まれた気体が急激に膨張し、それにより材自体を破壊す
る可能性がある。このため本実施例においては特に処理
装置内に解圧タンク18を設け、これを事前に気体によ
り加圧して圧力容器12内との圧力差をなくしておく。
そして、この解圧タンク18から解圧バルブ19を介し
て徐々に圧を抜いていくことで処理液中に溶け込んでい
た気体から先に逃がす。この場合、処理液中に溶け込ん
でいた気体は分子量が小さいために処理液よりも先に材
から流出し、その結果処理液は材内部に留まることにな
る。
On the other hand, after injecting the treatment liquid under pressure, it is necessary to depressurize the pressurized state. In this case, if the pressure is suddenly released, the gas taken into the treatment liquid may expand rapidly due to Henry's law, which may destroy the material itself. For this reason, in this embodiment, the decompression tank 18 is provided especially in the processing apparatus, and this is preliminarily pressurized with gas to eliminate the pressure difference from the pressure vessel 12.
Then, by gradually releasing the pressure from the decompression tank 18 via the decompression valve 19, the gas dissolved in the processing liquid is released first. In this case, since the gas dissolved in the treatment liquid has a small molecular weight, it flows out of the material before the treatment liquid, and as a result, the treatment liquid remains inside the material.

【0016】本実施例により処理液を注入した木材の様
子を従来の方法により注入したものと比較したものを図
6に示す。これは水溶性染料を本方法及び従来の方法に
より注入し、注入済木材を切断して比較したものである
(杉、ラジアークパイン心材、含水率55%、20×2
0×100cm使用)。図6からわかるように、従来の方
法によるものは木口面から処理液が少し入るだけにとど
まり、その他の面からはほとんど注入されない。これに
対し、本方法によれば板目、柾目を問わず、どの方向か
らも処理液が注入されている。即ち、本方法によれば材
の放射柔細胞や閉塞壁孔対を破壊して処理液を注入する
ことから、たとえ被処理材が心材部を用いたものであっ
ても、材表面部のみならず中心部まで処理液が確実に注
入される。
FIG. 6 shows a state of the wood injected with the treatment liquid according to this embodiment in comparison with the wood injected by the conventional method. This is a comparison of water-soluble dyes injected by this method and the conventional method, and the injected wood is cut and compared (cedar, radial arc pine core material, moisture content 55%, 20 × 2).
0 x 100 cm used). As can be seen from FIG. 6, in the case of the conventional method, the treatment liquid only entered a little from the surface of the wood and was hardly injected from the other surface. On the other hand, according to the present method, the treatment liquid is injected from any direction regardless of whether it is a grain or a grain. That is, according to this method, since the treatment solution is injected by destroying the radial parenchyma cells and the pair of closed wall pores of the material, even if the material to be treated is the one using the core material, The treatment liquid is surely injected to the center.

【0017】なお、本実施例においては処理液注入に先
立って気体による予備加圧ステップを設け、まず閉塞壁
孔対等を破壊する構成としたが、処理液を直接段階的に
加圧注入する構成としても良い。この場合処理液の注入
は、被処理木材11を圧力容器12に収納して該容器内
を処理液で満たし、その後、加圧することによって行
う。注入量は圧力によって調整され、その確認は液体タ
ンク16内に設けた液圧用レベルゲージ17によって行
う。
In this embodiment, a preliminary pressurization step by gas is provided prior to the injection of the processing liquid, and the closed wall hole pair and the like are first destroyed, but the processing liquid is directly and stepwise injected. Also good. In this case, the treatment liquid is injected by housing the treated wood 11 in the pressure vessel 12, filling the inside of the vessel with the treatment liquid, and then applying pressure. The injection amount is adjusted by the pressure, and the confirmation is performed by the hydraulic level gauge 17 provided in the liquid tank 16.

【0018】また、注入液には、植物油、鉱物油をカチ
オン系界面活性材により乳化して水溶性とし、これに防
腐、防虫、防蟻剤及び防カビ剤を配合したものを用い
る。この注入液はカチオン系のものであるため、アニオ
ンである木材組織とイオン結合して木材内から流脱する
ことがなく処理液としては適当である。この点水溶性の
グリコール類の処理液を用いた場合に比して流脱、長期
に亘る寸法安定性等に関して有利である。さらに、本方
法では木材中心部まで処理液を注入できることから、難
燃剤の注入により、従来より高い難燃性をもつ処理材の
提供が可能である。
The injectable solution is prepared by emulsifying vegetable oil or mineral oil with a cationic surfactant to make it water-soluble, and adding a preservative, insect repellent, termite repellent or fungicide thereto. Since this injection liquid is of a cation type, it is suitable as a treatment liquid without being ionically bonded to the wood tissue which is an anion and flowing out from the wood. In this respect, it is advantageous in terms of flushing out, dimensional stability over a long period of time, and the like, as compared with the case of using a treatment solution of water-soluble glycols. Furthermore, in this method, since the treatment liquid can be injected to the center of the wood, it is possible to provide a treatment material having higher flame retardancy than before by injecting the flame retardant.

【0019】次に本発明に係る処理液注入方法の第2の
実施例について説明する。この第2の実施例は広葉樹に
対し処理液を注入する方法である。図2はその場合にお
ける減圧・加圧処理の様子を示す説明図である。広葉樹
は、一般に先の針葉樹と異なり水の通導を行っている導
管が存在する。従って、それを通して容易に処理液を注
入できるように思われるが、実際にはこの導管にはチロ
ース等の不純物が多く含まれ、一気に加圧を行うとその
不純物が導管内に詰まり、処理液の注入を阻害する。そ
こで本実施例は、導管内の詰まりを防止すべく、詰まり
を生じない程度の比較的低い圧力により加圧を長時間行
い、これにより材中心部まで等しく圧を伝播し処理液を
中心部まで注入しようとするものである。
Next, a second embodiment of the method for injecting a processing liquid according to the present invention will be described. The second embodiment is a method of injecting a treatment liquid into hardwood. FIG. 2 is an explanatory diagram showing a state of pressure reduction / pressurization processing in that case. Unlike hardwood trees, hardwood trees generally have conduits that conduct water. Therefore, it seems that the processing solution can be easily injected through it, but in reality, this conduit contains a large amount of impurities such as tylose. Block injection. Therefore, in this embodiment, in order to prevent clogging in the conduit, pressurization is performed for a long time with a relatively low pressure that does not cause clogging, whereby the pressure is evenly propagated to the center of the material and the treatment liquid reaches the center. It is about to be injected.

【0020】本方法では、広葉樹は針葉樹に比べて導管
要素が多いことから、出来るだけ導管内の気体を取り除
き加圧工程での導管内の詰まりを抑える必要があること
から、図2に示すように減圧時間を60分と針葉樹の場
合よりも長く取る。そして、次の加圧工程においても導
管内に詰まりを生じない1. 5kg/cm2 程度の比較的低
い圧力にて加圧し、さらにその加圧時間も30分と針葉
樹の場合よりも長く取る(図2)。これにより導管内の
圧力を導管内の詰まりに妨げられることなく一定の状態
とすることができる。このように長時間の低圧加圧を行
った後は7kg/cm2 にて10分、30kg/cm2 にて30
分というように段階的に加圧する。この場合、導管要素
が多いことから針葉樹ほど多段階とすることなく昇圧す
ることができる。そして、処理液注入後、先述同様解圧
バルブ19により徐々に圧を抜く。なお、この場合にも
針葉樹と同様に結果が得られた(ナラ、ブナ心材、含水
率60%、20×20×100cm使用)。
In this method, since hardwood has more conduit elements than softwood, it is necessary to remove gas in the conduit as much as possible to suppress clogging in the conduit during the pressurizing process. The decompression time is 60 minutes, which is longer than that of coniferous trees. Then, even in the next pressurizing step, pressurization is performed at a relatively low pressure of about 1.5 kg / cm 2 that does not cause clogging in the conduit, and the pressurizing time is 30 minutes, which is longer than that of softwood ( (Fig. 2). As a result, the pressure in the conduit can be kept constant without being obstructed by the clogging in the conduit. After applying low pressure for a long time like this, 10 minutes at 7 kg / cm 2 and 30 minutes at 30 kg / cm 2 .
Pressurize step by step like minutes. In this case, since the number of conduit elements is large, it is possible to increase the pressure without making the number of stages to be higher than that of coniferous trees. Then, after the treatment liquid is injected, the pressure is gradually released by the decompression valve 19 as described above. In this case as well, the same results as in the case of coniferous trees were obtained (oak, beech heartwood, water content 60%, 20 × 20 × 100 cm used).

【0021】一方、図3は本発明に係る処理液注入方法
の第3の実施例における減圧・加圧処理の様子を示す説
明図である。本実施例は石材等の多孔質無機質材に対し
処理液を注入する方法である。本方法は、減圧時間と低
圧による加圧時間を長時間とし、その後一気に高圧にす
ることにより石材内部まで処理液を注入するものであ
る。
On the other hand, FIG. 3 is an explanatory view showing the manner of depressurizing / pressurizing treatment in the third embodiment of the treatment liquid injecting method according to the present invention. The present embodiment is a method of injecting a treatment liquid into a porous inorganic material such as stone material. In this method, the depressurizing time and the pressurizing time by the low pressure are set to be long, and then the processing liquid is injected into the interior of the stone material by rapidly increasing the pressure.

【0022】多孔質無機質材、例えば大理石では材の構
造上多量の気体がその内部に含まれている。従って、本
方法においてはまず、内部の気体を十分に抜くために減
圧時間を十分に取る。この場合、この減圧時間は先の広
葉樹の場合よりも長く120分程度取ることが望まし
い。次に石材の場合もその内部には多くの細かい不純物
や微粉が含まれていることから、これらによる詰まりを
防止すべく5kg/cm2 程度の比較的低い圧力によって木
質材よりも長時間、例えば60分程度加圧する。これに
より先の広葉樹の場合と同様に材内部の圧力を一定の状
態とすることができる。そして、長時間の低圧加圧を行
った後、本実施例においては、石室材は加圧による変形
等が生じにくいことから、木材の場合と異なり一気に3
0kg/cm2 の高圧を付加する。そして、その後処理液を
加圧注入する。なお、この加圧についてはコンプレッサ
ーを用いた気体による予備加圧の後に処理液を圧注入す
る方法のみならず、液体ポンプを用いて処理液により直
接加圧する方法も可能である。一方、高圧により処理液
を注入した後は先述と同様に解圧バルブ19により徐々
に圧を抜く。
In the case of a porous inorganic material such as marble, a large amount of gas is contained therein due to the structure of the material. Therefore, in this method, first, sufficient decompression time is taken to sufficiently remove the internal gas. In this case, it is desirable that this depressurization time be longer than that of the above-mentioned broad-leaved tree and take about 120 minutes. Next, in the case of stone materials as well, since many fine impurities and fine powders are contained in the interior, relatively low pressure of about 5 kg / cm 2 is used for a longer time than wood materials, for example, to prevent clogging due to these. Pressurize for about 60 minutes. As a result, the pressure inside the material can be kept constant as in the case of the hardwood. After the low-pressure pressure is applied for a long time, in this embodiment, the stone chamber material is unlikely to be deformed by the pressure.
A high pressure of 0 kg / cm 2 is applied. Then, after that, the treatment liquid is injected under pressure. Regarding this pressurization, not only a method of pre-pressurizing with a gas using a compressor but then a pressure injection of a processing liquid, but a method of directly pressurizing with a processing liquid using a liquid pump is also possible. On the other hand, after injecting the treatment liquid at high pressure, the pressure is gradually released by the decompression valve 19 as described above.

【0023】このように本発明による方法によれば、材
の中心部まで処理液が注入され、このことは大理石(イ
タリア産、2×40×80cm)の石材を使用して水溶性
染料を注入し、その後材を切断して確認したところ材中
心部まで均一に着色されていたことからも確かめられ
た。なお、本方法においては、シランモノマーを主成分
とする例えば東亜化学製アロンウォーターシャット(商
品名)を用いることにより、このシランモノマーが基材
中のシラノールと化学的に結合して内部まで強力な吸水
防止層を形成して酸性雨等の被害から石材を保護する。
また加えて、石材、特に大理石の毛網孔を埋めることも
ないことから、大理石の持つ呼吸作用を損なうことなく
大理石の特徴を生かした処理を行うことができる。
As described above, according to the method of the present invention, the treatment liquid is injected into the center of the material, which means that the water-soluble dye is injected using the stone material of marble (made in Italy, 2 × 40 × 80 cm). After that, when the material was cut and confirmed, it was confirmed that it was uniformly colored up to the center of the material. In this method, by using, for example, Aaron Water Shut (trade name) manufactured by Toa Kagaku Co., which has a silane monomer as a main component, this silane monomer chemically bonds with silanol in the base material and is strong inside. Form a water absorption prevention layer to protect stone materials from damage such as acid rain.
In addition, since it does not fill the hair net pores of the stone material, especially marble, it is possible to perform the treatment that makes the best use of the characteristics of the marble without impairing the breathing action of the marble.

【0024】[0024]

【発明の効果】以上説明したように、本発明に係る処理
液注入方法によれば、被処理材の種類に応じて、その内
部の構成等を考慮して減圧・加圧時間や加圧状態を適宜
変化させることとしたことにより、心材など従来処理液
の注入が非常に難しかった木質系の素材や、処理液の注
入処理そのものが行われていなかった石質材に対しても
中心部まで十分な処理液注入を行うことができるという
効果がある。従って、木質材においては、その耐防腐、
防虫、防蟻、防カビ性が飛躍的に向上し、その耐用年数
を引き上げることができる。また、併せて流脱のおそれ
のない処理液を用い、それを中心部まで注入することに
より、長期間に亘りヒビ割れを防止し、高い寸法安定効
果を得ることができる。さらに、中心部まで十分に処理
液が注入されることから本方法による木質材は高い難燃
性を有し、高い寸法安定性と相俟って木材の使用の幅を
広げることが可能となる。加えて、木材の耐用年数の引
き上げは、近年問題となっている熱帯雨林の無計画な伐
採に歯止めをかける一助ともなり、森林保護の観点から
もその有用性は大きい。
As described above, according to the method for injecting a processing liquid according to the present invention, the depressurizing / pressurizing time and the pressurizing state are taken into consideration according to the type of the material to be processed, taking into consideration the internal structure thereof. By appropriately changing the value, it is possible to achieve a sufficient amount up to the center even for wood-based materials such as heartwood where it was extremely difficult to inject the processing liquid in the past, and stone materials where the processing liquid was not injected. There is an effect that the processing liquid can be injected. Therefore, in wood materials, its antiseptic,
Insect-proof, ant-proof and mold-proof properties are dramatically improved, and their useful life can be extended. In addition, by using a treatment liquid that does not cause the possibility of flow-out and injecting it into the central portion, cracking can be prevented for a long period of time, and a high dimensional stability effect can be obtained. Furthermore, since the treatment liquid is sufficiently injected into the central portion, the wood material according to the present method has high flame retardance, and in combination with high dimensional stability, it is possible to broaden the range of use of wood. . In addition, increasing the useful life of timber helps to stop the unplanned logging of tropical rain forests, which has become a problem in recent years, and is of great utility from the perspective of forest protection.

【0025】一方、石質材においては、石質材そのもの
の持つ性質や風合を失うことなく、酸性雨などによる被
害を防ぐことができる。特に、ヨーロッパなど石質材を
用いた建造物の多い地域において大きな社会問題ともな
っている酸性雨による建物外壁の崩壊などを防止するこ
とができる。即ち、本発明によれば、建物外壁に対する
大理石等の石質材の使用禁止といった事態を回避するこ
とができ、単に石質材の損傷を防止するにとどまらず、
その国の文化や環境保全にも広く役立ち得る。また本発
明の木質材及び多孔質無機質材への処理液注入装置は、
圧力容器と、減圧装置と、加圧装置と、液体加圧装置
と、上記圧力容器に接続され予め上記圧力容器内と同一
圧力に加圧されるものであって処理液の注入完了後に上
記圧力容器の加圧状態を解圧するための解圧タンクと、
該解圧タンクに接続されるものであって処理液の注入完
了後に開閉され上記解圧タンクを介して上記圧力容器内
の圧力を徐々に解圧する解圧バルブとを備えたことによ
り、高圧下で被処理木材に処理液を注入した後、解圧バ
ルブと解圧タンクとを介して被処理木材を徐々に解圧で
きるので、被処理木材を破壊することがない。
On the other hand, in stone materials, damage due to acid rain or the like can be prevented without losing the properties and texture of the stone materials themselves. In particular, it is possible to prevent the collapse of the outer wall of the building due to acid rain, which is a major social problem in areas with many buildings using stone materials such as Europe. That is, according to the present invention, it is possible to avoid the situation of prohibiting the use of stone materials such as marble for the outer wall of the building, and not only preventing damage to the stone materials,
It can also be widely useful in protecting the country's culture and environment. Further, the treatment liquid injection device for the wood material and the porous inorganic material of the present invention,
A pressure vessel, a decompression device, a pressurizing device, a liquid pressurizing device, and a pressure vessel that is connected to the pressure vessel and is pressurized to the same pressure as the pressure vessel in advance. A decompression tank for decompressing the pressurized state of the container,
A pressure reducing valve that is connected to the pressure reducing tank and is opened and closed after completion of the injection of the treatment liquid to gradually release the pressure in the pressure vessel via the pressure releasing tank, Since the treated wood can be gradually decompressed through the decompression valve and the decompression tank after the treatment liquid is injected into the treated wood, the treated wood is not destroyed.

【図面の簡単な説明】[Brief description of drawings]

【図1】本発明による処理液注入方法を針葉樹に適用し
た場合における減圧・加圧の様子を示す説明図である。
FIG. 1 is an explanatory diagram showing how decompression / pressurization is performed when a treatment liquid injection method according to the present invention is applied to softwood.

【図2】本発明による処理液注入方法を広葉樹に適用し
た場合における減圧・加圧の様子を示す説明図である。
FIG. 2 is an explanatory diagram showing how decompression / pressurization is applied when the treatment liquid injection method according to the present invention is applied to a hardwood.

【図3】本発明による処理液注入方法を石質材に適用し
た場合における減圧・加圧の様子を示す説明図である。
FIG. 3 is an explanatory diagram showing a state of decompression / pressurization when the treatment liquid injection method according to the present invention is applied to a stone material.

【図4】針葉樹の内部の組織構造を示す説明図である。FIG. 4 is an explanatory view showing the internal tissue structure of a conifer.

【図5】針葉樹の内部の組織構造を示す説明図である。FIG. 5 is an explanatory view showing the internal tissue structure of a conifer.

【図6】本発明に係る方法によって処理液を注入した木
材と、従来の方法によって処理液を注入した木材の処理
後の様子を示す木材の断面図である。
FIG. 6 is a cross-sectional view of the wood in which the treatment liquid is injected by the method according to the present invention and the wood after the treatment liquid is injected by the conventional method after the treatment.

【図7】本発明に係る方法を実施する場合の処理装置の
構成を示すブロック図である。
FIG. 7 is a block diagram showing a configuration of a processing device when performing the method according to the present invention.

【図8】木材の組織の様子を示す拡大断面斜視図であ
る。
FIG. 8 is an enlarged cross-sectional perspective view showing the appearance of the structure of wood.

【図9】木材組織間の壁孔の様子を示す断面図である。FIG. 9 is a cross-sectional view showing a state of a wall hole between wood tissues.

【符号の説明】[Explanation of symbols]

1 壁孔対 2 壁孔 3 トルース 11 被処理木材 12 圧力容器 13 減圧用バキュームポンプ 14 気体加圧用コンプレッサー 15 液体加圧ポンプ 16 液体タンク 17 液圧用レベルゲージ 18 解圧タンク 19 解圧バルブ 21 仮導管 1 Wall Hole to 2 Wall Hole 3 Truth 11 Treated Wood 12 Pressure Vessel 13 Decompression Vacuum Pump 14 Gas Pressurizing Compressor 15 Liquid Pressurizing Pump 16 Liquid Tank 17 Liquid Pressure Level Gauge 18 Pressure Releasing Tank 19 Pressure Releasing Valve 21 Temporary Conduit

Claims (6)

(57)【特許請求の範囲】(57) [Claims] 【請求項1】 樹脂等の処理液を木質材及び多孔質無機
質材に注入する方法であって下記のステップからなるも
の。 a)被処理材を減圧して該被処理材内の気体を取除く減
圧ステップ。 b)被処理材を該被処理材が変形を生じない所定圧力に
加圧し、所定時間該圧力を保持する初期加圧ステップ。 c)上記圧力保持時間経過後、最終加圧圧力まで段階的
に昇圧し、かつ各加圧段階において所定時間当該圧力を
保持しつつ被処理材を加圧する予備加圧ステップ。 d)所定の処理液注入圧力において当該被処理材に処理
液を注入する処理液注入ステップ。
1. A method of injecting a treatment liquid such as a resin into a wood material and a porous inorganic material, which comprises the following steps. a) A decompression step of depressurizing the material to be treated to remove gas in the material. b) An initial pressurizing step in which the material to be processed is pressurized to a predetermined pressure at which the material to be processed is not deformed and the pressure is maintained for a predetermined time. c) Preliminary pressurization step of stepwise increasing the pressure to the final pressurization pressure after the pressure holding time, and pressurizing the material to be treated while maintaining the pressure for a predetermined time in each pressurizing step. d) A treatment liquid injection step of injecting the treatment liquid into the material to be treated at a predetermined treatment liquid injection pressure.
【請求項2】 樹脂等の処理液を針葉樹材に注入する方
法であって下記のステップからなるもの。 a)被処理材を減圧して該被処理材内の気体を取除く減
圧ステップ。 b)被処理材を該被処理材が変形を生じない低圧力に加
圧し、所定時間該圧力を保持する初期加圧ステップ。 c)上記圧力保持時間経過後、最終加圧圧力まで段階的
に昇圧し、かつ各加圧段階において所定時間当該圧力を
保持しつつ被処理材を加圧する予備加圧ステップ。 d)所定の処理液注入圧力において当該被処理材に処理
液を注入する処理液注入ステップ。
2. A method of injecting a treatment liquid such as a resin into a softwood material, which comprises the following steps. a) A decompression step of depressurizing the material to be treated to remove gas in the material. b) An initial pressurizing step in which the material to be treated is pressurized to a low pressure at which the material to be treated is not deformed and the pressure is maintained for a predetermined time. c) Preliminary pressurization step of stepwise increasing the pressure to the final pressurization pressure after the pressure holding time, and pressurizing the material to be treated while maintaining the pressure for a predetermined time in each pressurizing step. d) A treatment liquid injection step of injecting the treatment liquid into the material to be treated at a predetermined treatment liquid injection pressure.
【請求項3】 樹脂等の処理液を広葉樹材に注入する方
法であって下記のステップからなるもの。 a)針葉樹材の場合よりも長時間被処理材を減圧して該
被処理材内の気体を取除く減圧ステップ。 b)被処理材を該被処理材が変形を生じない低圧力で加
圧し、針葉樹材の場合よりも長時間該圧力を保持する初
期加圧ステップ。 c)上記圧力保持時間経過後、最終加圧圧力まで段階的
に昇圧し、かつ各加圧段階において所定時間当該圧力を
保持しつつ被処理材を加圧する予備加圧ステップ。 d)所定の処理液注入圧力において当該被処理材に処理
液を注入する処理液注入ステップ。
3. A method of injecting a treatment liquid such as a resin into hardwood, which comprises the following steps. a) A depressurization step of removing the gas in the material to be treated by depressurizing the material to be treated for a longer time than in the case of softwood material. b) An initial pressurizing step in which the material to be treated is pressurized at a low pressure that does not cause deformation of the material to be treated and the pressure is maintained for a longer time than in the case of softwood material. c) Preliminary pressurization step of stepwise increasing the pressure to the final pressurization pressure after the pressure holding time, and pressurizing the material to be treated while maintaining the pressure for a predetermined time in each pressurizing step. d) A treatment liquid injection step of injecting the treatment liquid into the material to be treated at a predetermined treatment liquid injection pressure.
【請求項4】 樹脂等の処理液を石質材に注入する方法
であって下記のステップからなるもの。 a)木質材の場合よりも長時間被処理材を減圧して該被
処理材内の気体を取除く減圧ステップ。 b)被処理材を該被処理材が変形を生じない低圧力で加
圧し、木質材の場合よりも長時間該圧力を保持する初期
加圧ステップ。 c)上記圧力保持時間経過後、当該被処理材を最終加圧
圧力に加圧する予備加圧ステップ。 d)所定の処理液注入圧力において当該被処理材に処理
液を注入する処理液注入ステップ。
4. A method of injecting a treatment liquid such as resin into a stone material, which comprises the following steps. a) A depressurization step of depressurizing the material to be treated for a longer time than in the case of the wood material to remove gas in the material to be treated. b) An initial pressing step in which the material to be treated is pressed at a low pressure that does not cause deformation of the material to be treated and the pressure is maintained for a longer time than in the case of wood. c) A pre-pressurization step of pressurizing the material to be treated to the final pressurization pressure after the pressure holding time has elapsed. d) A treatment liquid injection step of injecting the treatment liquid into the material to be treated at a predetermined treatment liquid injection pressure.
【請求項5】 被処理材を密閉格納する圧力容器と、該
圧力容器減圧用の減圧装置と、上記圧力容器加圧用の加
圧装置と、処理液を上記圧力容器に加圧注入するための
液体加圧装置と、上記圧力容器に接続され予め上記圧力
容器内と同一圧力に加圧されるものであって処理液の注
入完了後に上記圧力容器の加圧状態を解圧するための解
圧タンクと、該解圧タンクに接続されるものであって
理液の注入完了後に開閉され上記解圧タンクを介して上
記圧力容器内の圧力を徐々に解圧する解圧バルブとを備
えたことを特徴とする木質材及び多孔質無機質材への処
理液注入装置。
5. A pressure vessel for hermetically storing a material to be treated, a decompression device for decompressing the pressure vessel, a pressure device for pressurizing the pressure vessel, and a pressure vessel for injecting a treatment liquid into the pressure vessel. a liquid pressurizing device, the a treatment liquid is shall pressurized to advance the pressure vessel and the same pressure is connected to the pressure vessel Note
And solution pressure tank for applying solutions to pressurization of the pressure vessel after entry completion, processing be those that are connected to該解pressure tank
A treatment liquid injection into a wood material and a porous inorganic material, which is provided with a decompression valve that is opened and closed after the completion of the injection of the physical fluid and gradually decompresses the pressure in the pressure vessel through the decompression tank. apparatus.
【請求項6】 木質材の放射柔細胞壁及び閉塞壁孔対破
壊方法であって下記のステップからなるもの。 a)被処理材を減圧して該被処理材内の気体を取除く減
圧ステップ。 b)被処理材を該被処理材が変形を生じない所定圧力に
加圧し、所定時間該圧力を保持する初期加圧ステップ。 c)上記圧力保持時間経過後、最終加圧圧力まで段階的
に昇圧し、かつ各加圧段階において所定時間当該圧力を
保持しつつ、当該被処理材を加圧する予備加圧ステッ
プ。
6. A method for destroying radial parenchymal cell walls and obstruction wall pores of a wood material, which comprises the following steps. a) A decompression step of depressurizing the material to be treated to remove gas in the material. b) An initial pressurizing step in which the material to be processed is pressurized to a predetermined pressure at which the material to be processed is not deformed and the pressure is maintained for a predetermined time. c) Preliminary pressurizing step of pressurizing the material to be treated while stepwise increasing the pressure to the final pressurizing pressure after the pressure holding time and maintaining the pressure for a predetermined time in each pressurizing step.
JP5023752A 1993-01-19 1993-01-19 Method and apparatus for injecting treatment liquid into wood and porous inorganic material, and method for breaking radial soft cell wall and closed wall pores of wood Expired - Fee Related JP2557780B2 (en)

Priority Applications (14)

Application Number Priority Date Filing Date Title
JP5023752A JP2557780B2 (en) 1993-01-19 1993-01-19 Method and apparatus for injecting treatment liquid into wood and porous inorganic material, and method for breaking radial soft cell wall and closed wall pores of wood
AU52359/93A AU670142B2 (en) 1993-01-19 1993-12-14 Method of and apparatus for treating wood material and porous inorganic material
MYPI93002737A MY110907A (en) 1993-01-19 1993-12-17 Method and apparatus for treating wood material and porous inorganic material
DE69329902T DE69329902T2 (en) 1993-01-19 1993-12-31 Method and device for injecting treatment liquid into wood and porous inorganic materials
DK93121160T DK0607625T3 (en) 1993-01-19 1993-12-31 Method and apparatus for injecting treatment fluid into wood and porous inorganic material
EP93121160A EP0607625B1 (en) 1993-01-19 1993-12-31 Method of and apparatus for injecting treating liquid into wood and porous inorganic material
AT93121160T ATE199001T1 (en) 1993-01-19 1993-12-31 METHOD AND DEVICE FOR INJECTING TREATMENT LIQUID INTO WOOD AND POROUS INORGANIC MATERIALS
EP00109861A EP1053841A1 (en) 1993-01-19 1993-12-31 Apparatus for injecting a treating liquid into wood material
CA002113661A CA2113661C (en) 1993-01-19 1994-01-18 Method of and apparatus for injecting treating liquid into wood material and porous inorganic material, and method for destroying ray parenchyma cell walls and aspirated pit pair
FI940249A FI940249A7 (en) 1993-01-19 1994-01-18 Method and device for injecting an active liquid into wood material and porous inorganic material, and method for destroying the walls and pairs of pits of the basal tissue of a nuclear ray cell
BR9400128A BR9400128A (en) 1993-01-19 1994-01-18 Process for injecting treatment liquids, apparatus for injecting treatment liquids into wood material and porous inorganic material and process to destroy parenchymal ray cell walls
RU94001571A RU2128112C1 (en) 1993-01-19 1994-01-18 Method of injection of processing fluids such as resin into wood material and inorganic porous material and device for its realization
CN94101099.6A CN1035545C (en) 1993-01-19 1994-01-18 Method and apparatus for injecting treatment liquid into wood
NZ250695A NZ250695A (en) 1993-01-19 1994-01-18 Method of and apparatus for injecting liquids into wood or porous inorganic material

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP5023752A JP2557780B2 (en) 1993-01-19 1993-01-19 Method and apparatus for injecting treatment liquid into wood and porous inorganic material, and method for breaking radial soft cell wall and closed wall pores of wood

Publications (2)

Publication Number Publication Date
JPH06210606A JPH06210606A (en) 1994-08-02
JP2557780B2 true JP2557780B2 (en) 1996-11-27

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Country Link
EP (2) EP0607625B1 (en)
JP (1) JP2557780B2 (en)
CN (1) CN1035545C (en)
AT (1) ATE199001T1 (en)
AU (1) AU670142B2 (en)
BR (1) BR9400128A (en)
CA (1) CA2113661C (en)
DE (1) DE69329902T2 (en)
DK (1) DK0607625T3 (en)
FI (1) FI940249A7 (en)
MY (1) MY110907A (en)
NZ (1) NZ250695A (en)
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EP0607625A1 (en) 1994-07-27
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ATE199001T1 (en) 2001-02-15
CN1035545C (en) 1997-08-06
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CA2113661C (en) 1999-07-20
FI940249L (en) 1994-07-20
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NZ250695A (en) 1996-02-27
RU2128112C1 (en) 1999-03-27
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DE69329902D1 (en) 2001-03-08
FI940249A7 (en) 1994-07-20

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