Deprecated: The each() function is deprecated. This message will be suppressed on further calls in /home/zhenxiangba/zhenxiangba.com/public_html/phproxy-improved-master/index.php on line 456
JP5322739B2 - Granule supply cartridge - Google Patents
[go: Go Back, main page]

JP5322739B2 - Granule supply cartridge - Google Patents

Granule supply cartridge Download PDF

Info

Publication number
JP5322739B2
JP5322739B2 JP2009088140A JP2009088140A JP5322739B2 JP 5322739 B2 JP5322739 B2 JP 5322739B2 JP 2009088140 A JP2009088140 A JP 2009088140A JP 2009088140 A JP2009088140 A JP 2009088140A JP 5322739 B2 JP5322739 B2 JP 5322739B2
Authority
JP
Japan
Prior art keywords
fan
shaped cross
granule
abrasive
column
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
JP2009088140A
Other languages
Japanese (ja)
Other versions
JP2010234514A (en
Inventor
尚 吉田
史歩 佐藤
正彦 増▲崎▼
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.)
Honda Motor Co Ltd
Original Assignee
Honda Motor Co Ltd
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 Honda Motor Co Ltd filed Critical Honda Motor Co Ltd
Priority to JP2009088140A priority Critical patent/JP5322739B2/en
Publication of JP2010234514A publication Critical patent/JP2010234514A/en
Application granted granted Critical
Publication of JP5322739B2 publication Critical patent/JP5322739B2/en
Expired - Fee Related legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Images

Landscapes

  • Polishing Bodies And Polishing Tools (AREA)

Description

本発明は、粒体移送管へ粒体を補給する粒体補給カートリッジに関する。   The present invention relates to a particle supply cartridge for supplying particles to a particle transfer tube.

粒体の一種に砥石に用いられる砥粒がある。この砥粒を台金に電着させると、電着砥石を製造することができる。しかし、複数の砥粒を台金に電着させるときに砥粒が台金の被電着面の特定部位に集中すると、台金の特定部位に砥粒が偏って電着された砥石が製造されるので、砥粒の偏りを防ぐ技術が必要となる。   One type of grain is an abrasive used for a grindstone. When this abrasive grain is electrodeposited on a base metal, an electrodeposition grindstone can be produced. However, when electrodepositing a plurality of abrasive grains on the base metal, if the abrasive grains are concentrated on a specific part of the electrodeposited surface of the base metal, a grindstone in which the abrasive grains are electrodeposited on the specific part of the base metal is manufactured. Therefore, a technique for preventing the deviation of the abrasive grains is required.

従来、台金に対する砥粒の分散性を考慮した電着砥石の製造方法が知られている(例えば、特許文献1(図1(a)参照。)。   Conventionally, a method for manufacturing an electrodeposition grindstone in consideration of dispersibility of abrasive grains with respect to a base metal is known (for example, see Patent Document 1 (see FIG. 1A)).

特許文献1を次図に基づいて説明する。
図11は従来の技術の基本原理を説明する図であり、(a)に示すように、マスキングシート300は、転写紙301に固化させた熱硬化性樹脂製のインク302をフィルム303で覆ったシートである。また、インク302は、一定のピッチで開口している複数の非マスキング部304を除いて転写紙301に形成されている。
Patent document 1 is demonstrated based on the following figure.
FIG. 11 is a diagram for explaining the basic principle of the prior art. As shown in FIG. 11A, the masking sheet 300 covers the ink 302 made of thermosetting resin solidified on the transfer paper 301 with a film 303. It is a sheet. The ink 302 is formed on the transfer paper 301 except for a plurality of non-masking portions 304 that are opened at a constant pitch.

マスキングシート300を薬品に浸してインク302をフィルム303ごとに剥ぎ取り、(b)に示すように、台金305の被電着面306に貼り付ける。次に、フィルム303のみを剥がして、(c)に示すように、電着槽内の電着液307に台金305を浸す。台金305には、複数の非マスキング部304が形成されているので、非マスキング部304に砥粒を配置させることができる。複数の非マスキング部304は、台金305の被電着面306の全体に設けられているので、砥粒を分散させて配置することができる。   The masking sheet 300 is soaked in chemicals, and the ink 302 is peeled off for each film 303 and is attached to the electrodeposited surface 306 of the base metal 305 as shown in FIG. Next, only the film 303 is peeled off, and the base metal 305 is immersed in the electrodeposition liquid 307 in the electrodeposition tank, as shown in (c). Since a plurality of non-masking portions 304 are formed on the base metal 305, abrasive grains can be arranged on the non-masking portions 304. Since the plurality of non-masking portions 304 are provided on the entire electrodeposited surface 306 of the base metal 305, the abrasive grains can be dispersed and arranged.

ところで、特許文献1の非マスキング部304に砥粒を配置する場合、非マスキング部304の上方に配置した砥粒移送管308のホッパ部309へ白抜き矢印のように複数の砥粒311を投入するので、(d)に示すようにホッパ部309の出口312付近で複数の砥粒311が詰まることがある。ホッパ部309の出口312付近で砥粒311が詰まると、非マスキング部304に砥粒311を供給することができなくなる。これでは、砥粒供給作業の効率悪化を招く。   By the way, when arranging abrasive grains in the non-masking part 304 of Patent Document 1, a plurality of abrasive grains 311 are thrown into the hopper part 309 of the abrasive grain transfer pipe 308 arranged above the non-masking part 304 as indicated by white arrows. Therefore, as shown in (d), the plurality of abrasive grains 311 may be clogged in the vicinity of the outlet 312 of the hopper 309. If the abrasive grains 311 are clogged in the vicinity of the outlet 312 of the hopper 309, the abrasive grains 311 cannot be supplied to the non-masking section 304. This causes a deterioration in the efficiency of the abrasive grain supply operation.

そのため、砥粒(粒体)移送管へ砥粒(粒体)を円滑に供給することができる装置が求められる。   Therefore, an apparatus capable of smoothly supplying abrasive grains (grains) to the abrasive grain (grains) transfer tube is required.

特開平5−285846号公報JP-A-5-285846

本発明は、粒体移送管へ粒体を円滑に供給することができる装置を提供することを課題とする。   This invention makes it a subject to provide the apparatus which can supply a granule smoothly to a granule transfer pipe | tube.

請求項1に係る発明は、粒体の外径に隙間を加えて内径とし前記粒体を直列に1列に並べた形態で移送機構で移送させる粒体移送管を備えている粒体供給装置の前記粒体移送管へ前記粒体を補給する粒体補給カートリッジであって、この粒体補給カートリッジは、前記粒体の外径に隙間を加えた径の穴が長手方向に開けられている柱状部材を、前記穴を通る切断面で切断された2個の扇状断面柱からなり、一方の扇状断面柱は中心角が180°未満である第1の扇状断面柱であって、この第1の扇状断面柱の要の部位に前記穴の一部が形成され、この穴の一部が粒体載せ溝とされ、他方の扇状断面柱は中心角が180°を超える第2の扇状断面柱であって、この第2の扇状断面柱の要の部位に前記穴の残部が形成され、この穴の残部が粒体ガイド溝となり、前記第1の扇状断面柱側の粒体載せ溝に前記粒体を直列に1列に並べた形態で載せ、この第1の扇状断面柱に前記第2の扇状断面柱を合わせて、柱状部材とし、この柱状部材を傾けることで、粒体を直列に1列に並べた形態で、前記粒体移送管へ補給することができることを特徴とする。   The invention according to claim 1 is a granule supply apparatus provided with a granule transfer pipe for transferring a gap by adding a gap to an outer diameter of a granule to form an inner diameter and transferring the granules in a line in series. A granule replenishment cartridge for replenishing the granule to the granule transfer tube, wherein the granule replenishment cartridge has a hole having a diameter in the longitudinal direction with a gap added to the outer diameter of the granule. The columnar member is composed of two fan-shaped cross-sectional columns cut by a cutting plane passing through the hole, and one of the fan-shaped cross-sectional columns is a first fan-shaped cross-sectional column having a central angle of less than 180 °. A part of the hole is formed in a main portion of the fan-shaped cross-section column, a part of the hole is used as a granule mounting groove, and the other sector-shaped cross-section column is a second fan-shaped cross-section column whose central angle exceeds 180 °. The remaining portion of the hole is formed at a main portion of the second fan-shaped cross-sectional column, and the remaining portion of the hole is a granular guide. The first fan-shaped cross-section column is placed on the first fan-shaped cross-section column side, and the particles are placed in a line in series, and the second fan-shaped cross-section column is aligned with the first fan-shaped cross-section column. In addition, a columnar member is formed, and by tilting the columnar member, it is possible to replenish the granular material transfer pipe in a form in which the granular material is arranged in a line in series.

請求項1に係る発明では、粒体補給カートリッジは、第1の扇状断面柱側の粒体載せ溝に粒体を直列に1列に並べた形態で載せ、この第1の扇状断面柱に第2の扇状断面柱を合わせて、柱状部材とし、この柱状部材を傾けることで、粒体を直列に1列に並べた形態で、粒体移送管へ補給することができるように構成したので、粒体移送管へ粒体を円滑に供給することができる。請求項1によれば、粒体移送管へ粒体を円滑に供給することができる粒体補給カートリッジを提供することができる。   In the invention according to claim 1, the granule replenishment cartridge is mounted in a form in which the particles are arranged in a line in series in the granule mounting groove on the first fan-shaped cross-section column side, and the first fan-shaped cross-section column is Since the two fan-shaped cross-sectional columns are combined to form a columnar member, and the columnar member is tilted, the particles are arranged in a line in series, so that the particles can be supplied to the particle transfer pipe. Granules can be smoothly supplied to the granule transfer tube. According to the first aspect, it is possible to provide a granule replenishment cartridge that can smoothly supply the granule to the granule transfer tube.

本発明に係る粒体供給装置の分解斜視図である。It is a disassembled perspective view of the granular material supply apparatus which concerns on this invention. 粒体供給装置の断面図である。It is sectional drawing of a granular material supply apparatus. 本発明に係る粒体補給カートリッジの分解斜視図である。It is a disassembled perspective view of the granular material supply cartridge which concerns on this invention. 図2の4部拡大図である。FIG. 3 is an enlarged view of part 4 of FIG. 2. 本発明に係る粒体を粒体載せ溝に載せるまでの作用を説明する図である。It is a figure explaining an effect | action until it places the granule which concerns on this invention in a granule mounting groove | channel. 粒体補給カートリッジを反転させるまでの作用を説明する図である。It is a figure explaining an effect | action until a granule replenishment cartridge is reversed. 本発明に係るピン移動手段を作動させるまでの作用を説明する図である。It is a figure explaining the effect | action until a pin moving means based on this invention is operated. 粒体を型に載せるまでの作用を説明する図である。It is a figure explaining an effect | action until a granule is mounted on a type | mold. 図1の変更実施例図である。FIG. 2 is a modified embodiment diagram of FIG. 1. 図3の変更実施例図である。FIG. 4 is a modified embodiment diagram of FIG. 3. 従来の技術の基本原理を説明する図である。It is a figure explaining the basic principle of the prior art.

本発明の実施の形態を添付図に基づいて以下に説明する。なお、図面は符号の向きに見るものとする。また、以下では、粒体は砥粒とし、ピン移動手段はレバーとして説明する。   Embodiments of the present invention will be described below with reference to the accompanying drawings. The drawings are viewed in the direction of the reference numerals. In the following description, the grains are assumed to be abrasive grains and the pin moving means is assumed to be a lever.

先ず、本発明の実施例1を図面に基づいて説明する。なお、移送機構は、重力作用を利用したものとして説明する。
図1に示されるように、砥粒供給装置10は、本体11(詳細後述)の装着穴12に、第1の扇状断面柱20(詳細後述)と第2の扇状断面柱30(詳細後述)とからなる砥粒補給カートリッジ40(詳細後述)を挿入し、本体11の上面51にストッパ52を取り付けてなる装置である。53はボルト、54は把手である。
First, Embodiment 1 of the present invention will be described with reference to the drawings. Note that the transfer mechanism will be described as utilizing a gravity action.
As shown in FIG. 1, the abrasive grain supply device 10 has a first fan-shaped cross-sectional column 20 (detailed later) and a second fan-shaped cross-sectional column 30 (detailed later) in a mounting hole 12 of a main body 11 (detailed later). Is a device in which an abrasive replenishing cartridge 40 (described later in detail) is inserted and a stopper 52 is attached to the upper surface 51 of the main body 11. 53 is a bolt and 54 is a handle.

図2に示されるように、砥粒供給装置10は、本体11の装着穴12の下に設けられ第1の扇状断面柱20と第2の扇状断面柱30とで形成された円柱状の穴55に内面56が続くように形成されている砥粒中継管57と、この砥粒中継管57の下端に接続され砥粒中継管57の内面56に続くように形成された内面58を有する砥粒移送管60(詳細後述)と、本体11に上下方向に形成された穴71に移動自在に設けた押出し軸72を有し穴71の底73に設けた圧縮ばね74に載っている砥粒押出し機構80(詳細後述)と、本体11の下端に取り付けられ砥粒移送管60が接続されていると共に砥粒吐出口91を有している砥粒押出し管100(詳細後述)とを備えている。   As shown in FIG. 2, the abrasive grain supply device 10 is provided with a cylindrical hole that is provided below the mounting hole 12 of the main body 11 and is formed by a first fan-shaped cross-sectional column 20 and a second fan-shaped cross-sectional column 30. 55, an abrasive relay pipe 57 formed so that an inner surface 56 continues to 55, and an inner face 58 connected to the lower end of the abrasive relay pipe 57 and formed to continue to the inner face 56 of the abrasive relay pipe 57. Abrasive grains mounted on a compression spring 74 provided on the bottom 73 of the hole 71 having a grain transfer pipe 60 (details will be described later) and an extrusion shaft 72 movably provided in a hole 71 formed in the vertical direction in the main body 11. An extrusion mechanism 80 (details will be described later) and an abrasive grain extrusion pipe 100 (details will be described later) attached to the lower end of the main body 11 and connected to the abrasive grain transfer pipe 60 and having an abrasive outlet 91. Yes.

砥粒押出し機構80は、押出し軸72の下端から下方へ延びている押出しピン110(詳細後述)及びこの押出しピン110を往復移動させるために押出し軸72に取り付けられているレバー120からなる。   The abrasive grain extrusion mechanism 80 includes an extrusion pin 110 (details will be described later) extending downward from the lower end of the extrusion shaft 72 and a lever 120 attached to the extrusion shaft 72 for reciprocating the extrusion pin 110.

砥粒補給カートリッジ40は、砥粒移送管60へ砥粒を補給するカートリッジである。131はばね受け面、132は止めピン、133はスライド用開口、134はストッパボルト、135は溝である。   The abrasive replenishment cartridge 40 is a cartridge for replenishing abrasive grains to the abrasive transfer tube 60. 131 is a spring receiving surface, 132 is a stop pin, 133 is a sliding opening, 134 is a stopper bolt, and 135 is a groove.

レバー120を想像線で示す位置まで押すと、押出し軸72が下降するので、押出しピン110を下降させることができる。このとき、圧縮ばね74は圧縮状態になる。押出しピン110を元の位置に戻すには、レバー120を戻せばよい。   When the lever 120 is pushed to the position indicated by the imaginary line, the pushing shaft 72 is lowered, so that the pushing pin 110 can be lowered. At this time, the compression spring 74 is in a compressed state. To return the push pin 110 to the original position, the lever 120 may be returned.

図3において、(a)に示されるように、砥粒補給カートリッジ40は、砥粒の外径に隙間を加えた径D1の穴55が長手方向に開けられている柱状部材を、穴55を通る切断面で切断された第1の扇状断面柱20と第2の扇状断面柱30とからなる。   In FIG. 3, as shown in FIG. 3A, the abrasive replenishment cartridge 40 includes a columnar member in which a hole 55 having a diameter D1 obtained by adding a gap to the outer diameter of the abrasive grain is formed in the longitudinal direction. It consists of a first fan-shaped cross-section column 20 and a second fan-shaped cross-section column 30 that are cut along a cut surface.

(b)に示されるように、第1の扇状断面柱20は、中心角が180°未満である扇状断面柱である。また、第1の扇状断面柱20の要の部位に穴55の一部が形成され、この穴55の一部が砥粒載せ溝140とされている。   As shown in (b), the first fan-shaped cross-section column 20 is a fan-shaped cross-section column having a central angle of less than 180 °. Further, a part of the hole 55 is formed in a main portion of the first sector-shaped cross-section column 20, and a part of the hole 55 is used as an abrasive grain placing groove 140.

第2の扇状断面柱30は、中心角が180°を超える扇状断面柱である。また、第2の扇状断面柱30の要の部位に穴55の残部が形成され、この穴55の残部が砥粒ガイド溝150となっている。161、162は落下防止部材、163、164は切断面である。   The second fan-shaped cross-section column 30 is a fan-shaped cross-section column whose central angle exceeds 180 °. In addition, a remaining portion of the hole 55 is formed at a main portion of the second fan-shaped cross-section column 30, and the remaining portion of the hole 55 serves as an abrasive guide groove 150. 161 and 162 are fall prevention members, and 163 and 164 are cut surfaces.

図4に示されるように、砥粒供給装置10は、前述の構成に加えて、想像線で示す砥粒170の外径D2に隙間L1を加えて内径D3とし砥粒170を直列に1列に並べた形態(詳細後述)で重力作用で移送させる砥粒移送管60と、この砥粒移送管60の出口181に、管体182の途中が接続されこの管体182内へ砥粒170が供給されると共に管体182の内径D4が砥粒171の外径D5に隙間L2、L3を加えた径である砥粒押出し管100と、この砥粒押出し管100の砥粒移送管60の出口181に対面する部位に凹状に設けられ、砥粒170を1個保持する砥粒保持凹部190と、管体182内に移動自在に収納され砥粒保持凹部190に保持された1個の砥粒を押出す先端面201を有する押出しピン110及びこの押出しピン110を実線と想像線で示すように往復移動させるレバー(図2の符号120)からなる砥粒押出し機構(図2の符号80)と、を備えている。
以上に述べた砥粒供給装置10の作用を次に述べる。
As shown in FIG. 4, in addition to the above-described configuration, the abrasive grain supply device 10 adds a gap L1 to the outer diameter D2 of the abrasive grain 170 indicated by an imaginary line to form an inner diameter D3, and the abrasive grains 170 are arranged in one line in series. In the form arranged in detail (described later in detail), an abrasive grain transfer tube 60 that is transferred by gravity and an outlet 181 of the abrasive grain transfer tube 60 are connected to the middle of the pipe body 182, and the abrasive grains 170 are inserted into the pipe body 182. Abrasive extrusion pipe 100 having a diameter obtained by adding gaps L2 and L3 to outer diameter D5 of abrasive grain 171 and inner diameter D4 of pipe body 182 and the outlet of abrasive grain transfer pipe 60 of this abrasive grain extrusion pipe 100 Abrasive holding recess 190 that is provided in a concave shape at a portion facing 181 and holds one abrasive grain 170, and one abrasive grain that is movably housed in tube 182 and held in abrasive holding recess 190 Extrusion pin 110 having a tip surface 201 for extruding And includes a pin 110 between the solid line and the lever for reciprocating as indicated by an imaginary line (reference numeral 80 in FIG. 2) abrasive pushing mechanism consisting of (numeral 120 in FIG. 2), a.
The operation of the abrasive grain supply device 10 described above will be described next.

図5において、(a)に示されるように、第1の扇状断面柱20の砥粒載せ溝140に、シャベル202上の複数の砥粒170を矢印(1)のように落とす。
(b)に示されるように、砥粒載せ溝140に複数の砥粒170が載っている。
In FIG. 5, as shown in FIG. 5A, a plurality of abrasive grains 170 on the shovel 202 are dropped as indicated by an arrow (1) into the abrasive grain placing groove 140 of the first sector-shaped cross-section column 20.
As shown in (b), a plurality of abrasive grains 170 are placed in the abrasive grain placing groove 140.

図6において、(a)に示されるように、複数の砥粒170が載った第1の扇状断面柱20に、第2の扇状断面柱30を矢印(2)のように合わせる。
(b)に示されるように、柱状部材となった第1の扇状断面柱20及び第2の扇状断面柱30を矢印(3)のように反転させる。
In FIG. 6, as shown in FIG. 6A, the second fan-shaped cross-sectional column 30 is aligned with the first fan-shaped cross-sectional column 20 on which the plurality of abrasive grains 170 are placed as indicated by an arrow (2).
As shown in (b), the first fan-shaped cross-section column 20 and the second fan-shaped cross-section column 30 that are the columnar members are reversed as indicated by an arrow (3).

図7において、(a)に示されるように、反転させた砥粒補給カートリッジ40を、矢印(4)のように本体11の装着穴12に挿入する。次に本体11の上面51にストッパ(図1の符号52)を取り付ける。   In FIG. 7, as shown in (a), the inverted abrasive replenishment cartridge 40 is inserted into the mounting hole 12 of the main body 11 as shown by the arrow (4). Next, a stopper (reference numeral 52 in FIG. 1) is attached to the upper surface 51 of the main body 11.

(b)に示されるように、砥粒供給装置10の先端を電着槽203内の電着液204中に挿入し、電着液204に浸された金型205の表面206に砥粒供給装置10の砥粒吐出口(図4の符号91)を臨ませている。この状態からレバー120を矢印(5)のように押す。   As shown in (b), the tip of the abrasive grain supply device 10 is inserted into the electrodeposition liquid 204 in the electrodeposition tank 203, and the abrasive grains are supplied to the surface 206 of the mold 205 immersed in the electrodeposition liquid 204. The abrasive grain discharge port (reference numeral 91 in FIG. 4) of the apparatus 10 is faced. From this state, the lever 120 is pushed as shown by the arrow (5).

砥粒補給カートリッジ40は、第1の扇状断面柱20側の砥粒載せ溝(図6の符号140)に砥粒(図6の符号170)を直列に1列に並べた形態で載せ、この第1の扇状断面柱20に第2の扇状断面柱30を合わせて、柱状部材とし、この柱状部材を傾けることで、砥粒を直列に1列に並べた形態で、砥粒移送管60へ補給することができるように構成したので、砥粒移送管60へ砥粒を円滑に供給することができる。したがって、砥粒移送管60へ砥粒を円滑に供給することができる砥粒補給カートリッジ40を提供することができる。   The abrasive replenishment cartridge 40 is placed in a form in which abrasive grains (reference numeral 170 in FIG. 6) are arranged in a line in series in an abrasive grain placing groove (reference numeral 140 in FIG. 6) on the first sector-shaped column 20 side. The second fan-shaped cross-sectional column 30 is combined with the first fan-shaped cross-sectional column 20 to form a columnar member, and the columnar member is tilted, whereby the abrasive grains are arranged in a line in series to the abrasive grain transfer tube 60. Since it comprised so that it could be replenished, an abrasive grain can be smoothly supplied to the abrasive grain transfer pipe | tube 60. FIG. Therefore, it is possible to provide the abrasive replenishment cartridge 40 capable of smoothly supplying abrasive grains to the abrasive grain transfer tube 60.

図8において、(a)は図7(b)の8a部拡大図に相当する。レバー(図7の符号120)を押したので、押出しピン110が矢印(6)のように砥粒保持凹部190に保持された1個の砥粒170に向かって移動する。   In FIG. 8, (a) corresponds to an enlarged view of the portion 8a in FIG. 7 (b). Since the lever (reference numeral 120 in FIG. 7) is pushed, the push pin 110 moves toward one abrasive grain 170 held in the abrasive grain holding recess 190 as indicated by an arrow (6).

(b)に示されるように、押出しピン110の先端面201で押し出された砥粒170が、金型205の表面206に配置されている。また、砥粒移送管60内に直列に1列に並べた形態で重力作用で移送させる砥粒170は、押出しピン110の外周面207に接触しているので、落下することはない。   As shown in (b), the abrasive grains 170 extruded by the tip surface 201 of the extrusion pin 110 are arranged on the surface 206 of the mold 205. In addition, the abrasive grains 170 that are transferred by gravity in a form arranged in a line in series in the abrasive grain transfer pipe 60 are in contact with the outer peripheral surface 207 of the extrusion pin 110 and therefore do not fall.

砥粒供給装置(図7の符号10)は、砥粒移送管60と、砥粒押出し管100と、砥粒保持凹部190と、押出しピン110及びレバー(図7の符号120)からなる砥粒押出し機構(図2の符号80)と、を備えているので、レバーで移動させた押出しピン110によって、砥粒保持凹部190に保持された1個の砥粒170を押し出すだけである。そのため、砥粒供給装置は、電着液(図7の符号204)中でも問題なく使用することができる。したがって、電着液中で使用することができる砥粒供給装置を提供することができる。   The abrasive grain supply device (reference numeral 10 in FIG. 7) includes an abrasive grain transfer pipe 60, an abrasive extrusion pipe 100, an abrasive grain holding recess 190, an extrusion pin 110 and a lever (reference numeral 120 in FIG. 7). Since the extrusion mechanism (reference numeral 80 in FIG. 2) is provided, only one abrasive grain 170 held in the abrasive grain holding recess 190 is pushed out by the extrusion pin 110 moved by the lever. Therefore, the abrasive grain supply device can be used without any problem even in the electrodeposition liquid (reference numeral 204 in FIG. 7). Therefore, the abrasive grain supply apparatus which can be used in an electrodeposition liquid can be provided.

さらに、砥粒移送管60は、重力作用を利用することができるように配置されていることを特徴とする。そのため、砥粒170を移送させるために動力源を必要としない。動力源が不要であるので、動力源が必要な場合に比べて、砥粒供給装置を小型化することができる。   Further, the abrasive grain transfer tube 60 is arranged so as to be able to use the gravity action. Therefore, no power source is required to transfer the abrasive grains 170. Since a power source is unnecessary, the abrasive grain supply device can be reduced in size compared to the case where a power source is required.

加えて、粒体は、砥粒170であるので、砥石の製造工程で用いるのに適した砥粒供給装置を提供することができる。   In addition, since the grains are abrasive grains 170, an abrasive grain supply device suitable for use in the manufacturing process of a grindstone can be provided.

ところで、これまでに説明した砥粒供給装置は、砥粒を重力作用で移送させる形式であったが、より円滑に砥粒を移送させることができる実施例を次に述べる。   By the way, although the abrasive grain supply apparatus demonstrated so far was a form which transfers an abrasive grain by gravity effect, the Example which can transfer an abrasive grain more smoothly is described below.

次に、本発明の実施例2を図面に基づいて説明する。なお、移送機構は、ばね機構として説明する。
図9において、図1と共通の構造については符号を流用して説明を省略する。
Next, a second embodiment of the present invention will be described with reference to the drawings. The transfer mechanism will be described as a spring mechanism.
In FIG. 9, the same reference numerals are used for the same structure as in FIG.

砥粒供給装置10Bは、第1の扇状断面柱20B(詳細後述)と第2の扇状断面柱30B(詳細後述)との間にばね機構210(詳細後述)を設けて砥粒補給カートリッジ40B(詳細後述)を構成し、この砥粒補給カートリッジ40Bを本体11の装着穴12に挿入し、本体11の上面51にストッパ52を取り付けてなる装置である。   The abrasive grain supply device 10B is provided with a spring mechanism 210 (details will be described later) between a first sector cross section column 20B (details will be described later) and a second sector cross section column 30B (details will be described later). This is an apparatus in which the abrasive replenishing cartridge 40B is inserted into the mounting hole 12 of the main body 11 and a stopper 52 is attached to the upper surface 51 of the main body 11.

ばね機構210は、砥粒補給カートリッジ40B内に充填された砥粒を押す押し部材211と、この押し部材211に連結され押し部材211に押出作用を与える圧縮ばね212と、この圧縮ばね212とストッパ52との間に設けられる当て部材213とからなる。   The spring mechanism 210 includes a pushing member 211 that pushes the abrasive grains filled in the abrasive grain replenishing cartridge 40B, a compression spring 212 that is connected to the pushing member 211 and that pushes the pushing member 211, and the compression spring 212 and a stopper. 52 and a contact member 213 provided between the contact member 213 and the contact member 213.

加えて、砥粒移送管60は、入口側である砥粒補給カートリッジ40Bにばね機構210を備え、このばね機構210で砥粒を押出すように構成したことを特徴とする。重力作用を利用する場合に比べて、砥粒を円滑に移送させることができる砥粒供給装置10Bを提供することができる。   In addition, the abrasive grain transfer tube 60 is characterized in that the abrasive grain supply cartridge 40B on the inlet side is provided with a spring mechanism 210, and the abrasive grains are pushed out by the spring mechanism 210. Compared to the case of using the gravitational action, it is possible to provide an abrasive grain supply device 10B that can smoothly transfer abrasive grains.

図10において、図3と共通の構造については符号を流用して説明を省略する。第1の扇状断面柱20Bは、落下防止部材(図3の符号161)を備えていない。また、第2の扇状断面柱30Bも落下防止部材(図3の符号162)を備えていない。   In FIG. 10, the same reference numerals are used for the same structures as those in FIG. The first fan-shaped cross-section column 20B does not include a fall prevention member (reference numeral 161 in FIG. 3). Further, the second fan-shaped cross-section column 30B also does not include the fall prevention member (reference numeral 162 in FIG. 3).

落下防止部材がないので、砥粒がなくなったら、先ず砥粒補給カートリッジ40Bを砥粒供給装置(図9の符号10B)に装着させたまま、ばね機構(図9の符号210)を抜き取る。次に砥粒補給カートリッジ40Bに砥粒を補給する。すなわち、砥粒の補給を円滑に実施することができる。   Since there is no fall prevention member, when there are no abrasive grains, the spring mechanism (reference numeral 210 in FIG. 9) is removed with the abrasive supply cartridge 40B attached to the abrasive supply apparatus (reference numeral 10B in FIG. 9). Next, the abrasive grains are supplied to the abrasive supply cartridge 40B. That is, it is possible to smoothly supply the abrasive grains.

尚、本発明に係る粒体は、実施の形態では砥粒を適用したが、この他に活性炭等を適用することができるので、一般の粒体を適用することは差し支えない。
また、本発明に係るピン移動手段は、実施の形態ではレバーによる手動操作としたが、シリンダ等の駆動装置で押出しピンを押出す構成であってもよい。
In addition, although the abrasive grain was applied to the granule based on this invention in embodiment, since activated carbon etc. can be applied besides this, it does not interfere to apply a general granule.
In the embodiment, the pin moving means according to the present invention is manually operated by a lever. However, the pin moving means may be configured to push out the pushing pin by a driving device such as a cylinder.

加えて、本発明に係る移送機構は、実施の形態では重力作用の利用又はばね機構を適用したが、この他にスポンジ、ゴム、軟質樹脂を用いた機構を適用してもよい。   In addition, as the transfer mechanism according to the present invention, the use of the gravity action or the spring mechanism is applied in the embodiment, but a mechanism using sponge, rubber, or soft resin may be applied.

本発明の粒体供給装置は、電着砥石の製造に好適である。   The granular material supply device of the present invention is suitable for the production of an electrodeposited grindstone.

10、10B…砥粒供給装置、20、20B…第1の扇状断面柱、30、30B…第2の扇状断面柱、40、40B…砥粒補給カートリッジ、55…穴、60…砥粒移送管、80…砥粒押出し機構、100…砥粒押出し管、110…押出しピン、120…レバー(ピン移動手段)、140…砥粒載せ溝、150…砥粒ガイド溝、163、164…切断面、170、171…砥粒、181…出口、182…管体、190…砥粒保持凹部、210…ばね機構(移送機構)。   DESCRIPTION OF SYMBOLS 10, 10B ... Abrasive grain supply apparatus 20, 20B ... 1st fan-shaped cross-section column, 30, 30B ... 2nd fan-shaped cross-section column, 40, 40B ... Abrasive grain supply cartridge, 55 ... Hole, 60 ... Abrasive transfer pipe 80 ... abrasive grain extrusion mechanism, 100 ... abrasive grain extrusion tube, 110 ... extrusion pin, 120 ... lever (pin moving means), 140 ... abrasive grain placing groove, 150 ... abrasive grain guide groove, 163, 164 ... cut surface, 170, 171 ... abrasive grains, 181 ... outlet, 182 ... tubular body, 190 ... abrasive grain holding recess, 210 ... spring mechanism (transfer mechanism).

Claims (1)

粒体の外径に隙間を加えて内径とし前記粒体を直列に1列に並べた形態で移送機構で移送させる粒体移送管を備えている粒体供給装置の前記粒体移送管へ前記粒体を補給する粒体補給カートリッジであって、
この粒体補給カートリッジは、前記粒体の外径に隙間を加えた径の穴が長手方向に開けられている柱状部材を、前記穴を通る切断面で切断された2個の扇状断面柱からなり、
一方の扇状断面柱は中心角が180°未満である第1の扇状断面柱であって、この第1の扇状断面柱の要の部位に前記穴の一部が形成され、この穴の一部が粒体載せ溝とされ、
他方の扇状断面柱は中心角が180°を超える第2の扇状断面柱であって、この第2の扇状断面柱の要の部位に前記穴の残部が形成され、この穴の残部が粒体ガイド溝となり、
前記第1の扇状断面柱側の粒体載せ溝に前記粒体を直列に1列に並べた形態で載せ、この第1の扇状断面柱に前記第2の扇状断面柱を合わせて、柱状部材とし、この柱状部材を傾けることで、粒体を直列に1列に並べた形態で、前記粒体移送管へ補給することができることを特徴とする粒体補給カートリッジ。
To the granule transfer tube of the granule supply apparatus provided with a granule transfer tube that moves the outer diameter of the granule by adding a gap to the inner diameter so that the granule is transferred by a transfer mechanism in a form arranged in a line in series. A particle supply cartridge for supplying particles,
This granule replenishment cartridge has a columnar member in which a hole with a gap added to the outer diameter of the granule is formed in a longitudinal direction, from two fan-shaped cross-sectional columns cut by a cut surface passing through the hole. Become
One fan-shaped cross-section column is a first fan-shaped cross-section column having a central angle of less than 180 °, and a part of the hole is formed at a main portion of the first fan-shaped cross-section column. Is a granule loading groove,
The other fan-shaped cross-sectional column is a second fan-shaped cross-sectional column having a central angle exceeding 180 °, and the remaining portion of the hole is formed in a main portion of the second fan-shaped cross-sectional column. It becomes a guide groove,
A columnar member is formed by placing the particles in a form arranged in a line in series in the particle mounting groove on the first fan-shaped cross-sectional column side, and aligning the second fan-shaped cross-sectional column with the first fan-shaped cross-sectional column. In addition, by tilting the columnar member, the granular material supply cartridge can be supplied to the granular material transfer pipe in a form in which the granular materials are arranged in a line in series.
JP2009088140A 2009-03-31 2009-03-31 Granule supply cartridge Expired - Fee Related JP5322739B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP2009088140A JP5322739B2 (en) 2009-03-31 2009-03-31 Granule supply cartridge

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP2009088140A JP5322739B2 (en) 2009-03-31 2009-03-31 Granule supply cartridge

Publications (2)

Publication Number Publication Date
JP2010234514A JP2010234514A (en) 2010-10-21
JP5322739B2 true JP5322739B2 (en) 2013-10-23

Family

ID=43089353

Family Applications (1)

Application Number Title Priority Date Filing Date
JP2009088140A Expired - Fee Related JP5322739B2 (en) 2009-03-31 2009-03-31 Granule supply cartridge

Country Status (1)

Country Link
JP (1) JP5322739B2 (en)

Family Cites Families (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS5753267Y2 (en) * 1979-05-24 1982-11-18
JPH0549735U (en) * 1991-12-13 1993-06-29 太陽誘電株式会社 Goods supply equipment
JPH07215429A (en) * 1994-02-01 1995-08-15 Nagata Buhin Seizo Kk Chute for automatic article supply device
JP2007313609A (en) * 2006-05-26 2007-12-06 Toyota Motor Corp Manufacturing method of grinding tool

Also Published As

Publication number Publication date
JP2010234514A (en) 2010-10-21

Similar Documents

Publication Publication Date Title
JP6614135B2 (en) Powder material supply device for 3D modeling equipment
JP6589072B2 (en) Fine powder recoater for 3D printer
JP6425222B2 (en) Powder material supply device of three-dimensional modeling device
JP2017533105A (en) Abrasive article and integrated system and method for manufacturing chemical mechanical abrasive articles
CN1077845C (en) Method and apparatus for dispensing viscous material
CN1043715C (en) Printer system for printing circuit patterns or like on base board
JP2021112819A (en) CMP pad construction with composite material properties using an additional manufacturing process
CN105598451B (en) Additive Manufacturing Powder Dropping Device
JP7421408B2 (en) 3D printing equipment
KR102058091B1 (en) Frindle Printer Device
CN1094226C (en) Coin deliverer
JP5322739B2 (en) Granule supply cartridge
WO2019227626A1 (en) Powder spreading apparatus and printer
CN100391629C (en) A rotary spherical powder screening and separation device
JP5322738B2 (en) Granule supply device
KR101293632B1 (en) Seeds separating apparatus applied water immerged method
JP3685053B2 (en) Screen printing device
CN104782551A (en) Feeding machine capable of throwing bait for 360 degrees
CN102316744A (en) Supply the fish conveyer of fish and have above-mentioned fish conveyer and can adjust the device of fish head/tail direction from trend fish processing machine
EP3766605A1 (en) Powder dispensing apparatus
CN109278157B (en) Powder module
DE102007053513B3 (en) filling station
JP5274137B2 (en) Granular object dispensing device
CN104203434B (en) Columnar body distinguishing method and columnar body distinguishing device
JP2005118786A (en) Material feeding device and material feeding method in compression molding machine

Legal Events

Date Code Title Description
A621 Written request for application examination

Free format text: JAPANESE INTERMEDIATE CODE: A621

Effective date: 20111124

A521 Written amendment

Free format text: JAPANESE INTERMEDIATE CODE: A523

Effective date: 20120517

A977 Report on retrieval

Free format text: JAPANESE INTERMEDIATE CODE: A971007

Effective date: 20130328

TRDD Decision of grant or rejection written
A01 Written decision to grant a patent or to grant a registration (utility model)

Free format text: JAPANESE INTERMEDIATE CODE: A01

Effective date: 20130709

A61 First payment of annual fees (during grant procedure)

Free format text: JAPANESE INTERMEDIATE CODE: A61

Effective date: 20130716

R150 Certificate of patent or registration of utility model

Free format text: JAPANESE INTERMEDIATE CODE: R150

LAPS Cancellation because of no payment of annual fees