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
JP4475253B2 - 樋 Bracket - Google Patents
[go: Go Back, main page]

JP4475253B2 - 樋 Bracket - Google Patents

樋 Bracket Download PDF

Info

Publication number
JP4475253B2
JP4475253B2 JP2006133956A JP2006133956A JP4475253B2 JP 4475253 B2 JP4475253 B2 JP 4475253B2 JP 2006133956 A JP2006133956 A JP 2006133956A JP 2006133956 A JP2006133956 A JP 2006133956A JP 4475253 B2 JP4475253 B2 JP 4475253B2
Authority
JP
Japan
Prior art keywords
gutter
rainwater
rain
hole
cover
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.)
Active
Application number
JP2006133956A
Other languages
Japanese (ja)
Other versions
JP2007303207A (en
Inventor
英治 竹内
Original Assignee
有限会社竹内快速鋸
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 有限会社竹内快速鋸 filed Critical 有限会社竹内快速鋸
Priority to JP2006133956A priority Critical patent/JP4475253B2/en
Publication of JP2007303207A publication Critical patent/JP2007303207A/en
Application granted granted Critical
Publication of JP4475253B2 publication Critical patent/JP4475253B2/en
Anticipated expiration legal-status Critical
Active legal-status Critical Current

Links

Images

Landscapes

  • Building Awnings And Sunshades (AREA)

Description

本発明は、樋受金具の技術分野に関する。   The present invention relates to the technical field of saddle brackets.

従来屋根等に降った雨水は、雨樋カバーの上面部全体に表面張力の作用によって拡散し、出来るだけ雨樋の外側方に飛散することなく、流出する雨水がスムーズに雨樋内に排出されるよう創意工夫がなされてきた。   Conventionally, rainwater that has fallen on the roof, etc. is diffused by the action of surface tension on the entire top surface of the rain gutter cover, and the rain water that flows out is smoothly drained into the gutter without scattering to the outside of the gutter as much as possible. Ingenuity has been made.

さらに、従来の雨樋カバーは、屋根から流出する雨水を前記雨樋カバーから、確実に雨水を雨樋内に排出させるために、雨樋カバーに、透孔と集水溝とを設けていた(特開平11−100953公開特許公報)。   Furthermore, in the conventional rain gutter cover, the rain gutter cover is provided with a through hole and a water collecting groove so that rain water flowing out from the roof is reliably discharged from the gutter cover into the gutter. (Japanese Patent Laid-Open No. 11-100533).

また、前記雨樋を支承する樋受本体は、取付けるための位置決め作業と取付け作業とが、高所のため思うように行かず、多少の誤差の発生は止むを得なかった。   In addition, since the gutter receiving body that supports the gutter has a high position, the positioning work and the mounting work for mounting cannot be performed as expected, and some errors are unavoidable.

そのため前記のように施工された樋受本体の取付け作業が原因で、雨樋の後方開口端縁部と、前記樋受本体の後方端部の後方係止部とが、雨樋に対し面接触ではなく、点接触となることが応々にしてあったので、雨樋が損傷されやすかった。   Therefore, due to the installation work of the gutter body constructed as described above, the rear opening edge of the rain gutter and the rear locking part of the rear end of the gutter body are in surface contact with the gutter. Rather than being in point contact, the rain gutter was easily damaged.

さらに、従来の雨樋は、材質が塩化ビニール製のため、夏季には延び、冬季には縮むという特性があり、そのため前記樋受本体の前方、後方開口部縁部の係止部に当接する雨樋の前方及び後方開口端縁部が、季節によって点接触となったり、面接触となったりして変化し損傷しやすかった。   Furthermore, since conventional rain gutters are made of vinyl chloride, they have the property of extending in the summer and shrinking in the winter, so that they come into contact with the locking portions at the front and rear opening edges of the gutter body. The front and rear opening edges of the rain gutter were subject to point contact or surface contact depending on the season and were easily damaged.

そのため雨樋の製品寿命を短命にしていた。 Therefore, the product life of the rain gutter was shortened.

また、従来の雨樋は、屋根に上がってペンキ塗り作業等をするため梯子を掛けると、梯子の重みによって撓むおそれがあった。
特開平11−100953号公開特許公報
Further, when a conventional rain gutter is hung on a roof to be painted and painted, there is a risk of bending due to the weight of the ladder.
Japanese Patent Laid-Open No. 11-100533

前記開示の特開平11−100953号特許公開公報に記載された樋装置の雨樋カバー28には、複数の透孔30と底部分に透孔30を有する3条の集水溝32が形成されているが、このような構造の雨樋カバーでは、屋根に大量の降雨があって、雨樋カバーの上面上に相当のスピードで雨水が流出すると、前記3条の集水溝32に流れ落ちる雨水は、一部の流水のみで、殆んどの流水は雨樋カバーの前方端部方向に流出し、そのまま雨樋の外側方に飛散するおそれが十分に存していた。   The rain gutter cover 28 of the gutter device described in Japanese Patent Application Laid-Open No. 11-100533 disclosed above has a plurality of through holes 30 and three water collecting grooves 32 having the through holes 30 in the bottom portion. However, in the rain gutter cover having such a structure, if there is a large amount of rain on the roof and rain water flows out on the top surface of the gutter cover at a considerable speed, the rain water that flows into the three water collecting grooves 32 is dropped. However, there was a possibility that most of the water flowed out toward the front end of the rain gutter cover and scattered to the outside of the gutter as it was.

さらに前記開示の特開平11−100953号特許公開公報の雨樋カバー28に形成の集水溝30は、集水溝30を構成する頂部と、透孔30が形成されている他の部位とは、面一となっている。   Further, the water collecting groove 30 formed in the rain gutter cover 28 of Japanese Patent Laid-Open No. 11-100533 disclosed above is a top part constituting the water collecting groove 30 and other parts where the through holes 30 are formed. , Has become the same.

そのため、前記雨樋カバー28の集水溝30の構造は、屋根に降った大量の雨水が相当のスピードで流出してきたときに、大量の雨水の流速を雨樋カバーの上面部にて弱減せしめたり、さらに流出してきた雨水を雨樋外側方に飛散することを未然に防止することができない構造である。   For this reason, the structure of the water collecting groove 30 of the rain gutter cover 28 reduces the flow rate of a large amount of rain water at the top surface of the gutter cover when a large amount of rain water falling on the roof flows out at a considerable speed. It is a structure that cannot prevent the rainwater that has been squeezed out or spilled out to the outside of the gutter.

しかるに本発明は、屋根に大量の雨水が降って、雨樋カバーの上面部に雨水が相当のスピードで流出してきても、雨水の流速を妨害し雨水を跳ね上げ反転せしめて流速を弱減せしめると共に、弱減状態となって流速が弱まった雨水の一部を雨樋カバーに設けた小孔より雨樋内に排出し、さらに他の雨水を前記雨樋カバーの前方部より表面張力作用によって雨樋内に排水せしめ、雨水を雨樋の外側方に飛散させないようにした。   However, according to the present invention, even if a large amount of rainwater falls on the roof and rainwater flows out to the upper surface of the rain gutter cover at a considerable speed, the flow velocity is weakened by disturbing the flow rate of the rainwater and splashing and reversing the rainwater. At the same time, a part of the rainwater that has been weakened and whose flow velocity has weakened is discharged into the rain gutter through a small hole provided in the gutter cover, and further rain water is caused by surface tension from the front part of the gutter cover. The rainwater was drained into the rain gutter so that it would not splash outside the gutter.

さらに、本発明の樋受金具を構成する雨樋を支承する樋受本体は、単体にて軒先に取着して使用するものでなく、別設する振子式金具を予め軒先に取着し、取着せしめた振子式金具と前記樋受本体とを、前記樋受本体が振子状に揺動するように締付金具を若干緩めにして接続し、雨樋を構成する後方開口縁部と後方端部の後方係止部とが雨樋に対し点接触とならないようにした。そのため、四季の気温によって左右される材質(例えば塩化ビニール製)の雨樋であっても、樋受本体が振子状に揺動しているので、常時面接触をしており、損傷のおそれもなく、且雨樋の製品寿命を延長できる。   Furthermore, the gutter body that supports the gutter that constitutes the gutter metal fitting of the present invention is not used by attaching to the eaves as a single unit, but separately attached pendulum type metal fittings to the eaves in advance, The attached pendulum bracket and the hook body are connected by loosening the fastening brackets slightly so that the hook body swings like a pendulum. The rear locking part of the end part was made not to make point contact with the rain gutter. Therefore, even if it is a rain gutter made of a material that depends on the temperature of the seasons (for example, made of vinyl chloride), since the gutter body swings like a pendulum, it is always in surface contact and may be damaged. And the product life of rain gutters can be extended.

また本発明は、上方受け金具と、雨樋カバーと、樋受本体と、雨水落下誘導部と、厚さ調整ナットと、連結金具とをもって組立てたので、前記雨樋カバー上に積雪があって荷重がかかったりしても、さらに梯子等を立て掛けても、雨樋は強固に固定されているので、積雪にも十分耐えて損傷することなく、さらに梯子等を立て掛けても撓んだりしない。そのため安心して屋根に上ったりすることが可能である。   Further, the present invention is assembled with the upper receiving bracket, the rain gutter cover, the gutter receiving body, the rain water drop guiding portion, the thickness adjusting nut, and the coupling metal fitting, so that there is snow on the rain gutter cover. Even if a load is applied, even if a ladder or the like is leaned up, the gutter is firmly fixed, so it will not be damaged enough to withstand snow and will not be bent even if the ladder is leaned up. Therefore, it is possible to climb the roof with peace of mind.

上記課題を解決する手段として、請求項1記載の樋受金具は、傾斜状支持部21の後方端部に所定角度で折曲する軒先に取着する小孔28付取着用取付部29と、前方部を所定の角度で傾斜せしめ形成する支承部22と、前記支承部22の先端部を折曲して形成する孔付垂直状取付部とからなる上方受け金具と、前記上方受け金具の上面に載置可能な雨樋カバーと、雨樋を支承する樋受本体と、前記樋受本体cと接続する振子式金具eと、雨水を雨樋内に誘導する雨水落下誘導板部と、厚さ調整ナットと、連結金具とからなる樋受金具において、
前記雨樋カバーが、前記雨樋カバーを構成する前方部に、流出する雨水の流速方向を反転せしめ、雨水の流速を弱減して雨水を雨樋内にスムーズに排出せしめる雨水流速弱減部を設け、
前記樋受本体は雨樋を支承する支承部31と、前方端部を上方に折曲して雨樋の前方開口縁部42を係止する前方係止部33を形成し、前記前方係止部33の下方部に孔34付前方取付部32を形成し、前記孔34に頭部36付ボルト35を貫通螺着せしめ、且前記樋受本体の後方端部を上方に折曲して雨樋の後方開口縁部43を係止する後方係止部37を形成し、前記後方係止部37の下方部に孔39付後方取付部38を形成し、前記孔39に頭部41付ボルト40を貫通し前記後方取付部38に頭部41付ボルト40を溶着すると共に、
前記振子式金具は、中央部に前記樋受本体の後方係止部37と接続する取付部44を設け、且前記取付部44の左端部を所定の長さだけ直角状に折曲した脚部45を形成し、前記脚部45の先端部を直角状に延設して小孔47付左サイド部46を形成し、さらに前記取付部44の右端部を所定の長さだけ直角状に折曲した脚部45を形成し、前記脚部45の先端部を直角状に外側方に延設して小孔48付右サイド部49を形成し、且前記取付部44の裏側部44bには、前記樋受本体の後方取付部38の孔39より貫通する頭部41付ボルト40と螺着するナット50を溶着し、前記取付部44には前記ボルト40を螺入せしめる小孔44aを設け、
前記雨水落下誘導板部は、上方部に小孔52付垂直状取着部51を形成し、且前記小孔52は、所定間隔おきに複数並列状に形成し、且前記垂直状取着部51の下方端部には、内側方に傾斜状に折曲する雨水を雨樋内に誘導せしめる傾斜状部53を形成し、
前記樋受本体を振子式金具に対し振子状に前記ボルト40を介して常時揺動可能にしてナット50の緊締を調整しながら接続し、
前記上方受け金具と、雨樋カバーと、樋受本体と、雨水落下誘導板部と、厚さ調整ナットと、連結金具とを一体に接続せしめることを特徴とする樋受金具である。
As a means for solving the above-described problem, the saddle bracket according to claim 1 is provided with a mounting attachment portion 29 with a small hole 28 that is attached to an eave edge that is bent at a predetermined angle at a rear end portion of the inclined support portion 21 . An upper bracket b comprising a support portion 22 formed by inclining the front portion at a predetermined angle; a vertical mounting portion with a hole formed by bending the tip of the support portion 22 ; and the upper bracket b A rain gutter cover a that can be placed on the top surface of the gutter, a gutter body c that supports the gutter, a pendulum bracket e that is connected to the gutter body c, and a rain water fall guidance that induces rain water into the gutter d In the saddle bracket comprising the plate portion f , the thickness adjusting nut g, and the connecting bracket i ,
The rain gutter cover a reverses the flow direction of the flowing out rain water at the front part of the gutter cover a , reduces the flow speed of the rain water, and smoothly discharges the rain water into the gutter d . We provide a weakening part s ,
The gutter receiving body c is formed with a support portion 31 that supports the gutter d , and a front locking portion 33 that bends the front end portion upward to lock the front opening edge 42 of the gutter d. A front mounting portion 32 with a hole 34 is formed in a lower portion of the front locking portion 33, a bolt 35 with a head 36 is threaded through the hole 34 , and the rear end portion of the flange body e is folded upward. and music forming the rear catch part 37 for locking the rear opening edge 43 of the gutter d, to form a rear attachment portion 38 with the hole 39 in the lower portion of the rear catch part 37, into the hole 39 with welding the attached head 41 bolt 40 to the rear mounting portion 38 through the bolts 40 with heads 41,
The pendulum-type metal fitting e is provided with a mounting portion 44 connected to the rear locking portion 37 of the hook body c at the center, and the left end portion of the mounting portion 44 is bent at a right angle by a predetermined length. A leg portion 45 is formed, the tip end portion of the leg portion 45 is extended at a right angle to form a left side portion 46 with a small hole 47 , and the right end portion of the attachment portion 44 is a right angle by a predetermined length. A leg portion 45 bent to the right side, a right side portion 49 with a small hole 48 is formed by extending the tip end portion of the leg portion 45 outward at a right angle, and a back side portion 44b of the mounting portion 44. to, the gutter bearing main body c rear attachment portion 38 nut 50 screwed with the bolt 40 with a head 41 which penetrates from the hole 39 of the welded, small holes allowed to screwing the bolt 40 to the mounting portion 44 44a ,
The rainwater drop guide plate portion f is formed with vertical attachment portions 51 with small holes 52 in the upper portion, and a plurality of the small holes 52 are formed in parallel at predetermined intervals, and the vertical attachment portions are formed. In the lower end portion of the portion 51 , an inclined portion 53 is formed for guiding rain water bent inwardly into the rain gutter d ,
The hook body c is connected to the pendulum bracket e in a pendulum-like manner through the bolt 40 so as to be able to swing at all times while adjusting the tightening of the nut 50 ,
The upper receiving metal fitting b , the rain gutter cover a , the gutter receiving body c , the rain water drop guiding plate part f , the thickness adjusting nut g, and the connecting metal fitting i are integrally connected. It is a metal fitting.

請求項2記載の樋受金具は、前記雨樋カバーを構成する雨水流速弱減部が、前記雨樋カバーを構成する前方部に、流出してきた雨水の流速方向を反転せしめ、雨水の流速を弱減せしめる前記雨樋カバーの表面部よりも若干高く、且雨水の流速を弱減して雨水を雨樋内にスムーズに排出せしめる所定の高さを有し、且若干突出形状にして有底部を有する反転部を形成し、前記反転部の頂部を外側方に延設して孔17付接続部16を形成せしめることを特徴とする請求項1記載の樋受金具である。 Gutter receiving brackets according to claim 2, the gutter rainwater flow rate weakly reducing unit s constituting the cover a is, the front portion 2 constituting the rain gutter cover a, allowed reversing the direction of the flow velocity of the rainwater that has flowed out, the flow rate of rainwater slightly higher than the surface portion 1 of the gutter cover a which allowed to decrease slightly, having a predetermined height to discharge the rainwater Hesi weak flow rate of且雨water smoothly into the gutter d,且2. The reversing part 4 having a slightly protruding shape and having a bottomed part 5 is formed, and the top part of the reversing part 4 is extended outward to form a connecting part 16 with a hole 17 . It is a saddle bracket.

請求項3記載の樋受金具は、前記雨樋カバーを構成する雨水流速弱減部の反転部15を構成する頂部6aもしくは突出形状の上面部が、前記雨樋カバーの表面よりも若干高めに形成せしめることを特徴とする請求項1又は請求項2に記載の樋受金具である。 According to a third aspect of the present invention, the top 6a constituting the reversing portion 15 of the rainwater flow velocity weakening portion s constituting the rain gutter cover a or the protruding upper surface portion is more than the surface of the gutter cover a. The saddle bracket according to claim 1 or 2, characterized in that it is formed slightly higher.

請求項1記載の樋受金具は、雨樋を支承する幅広の樋受本体を、予め軒先の所定個所に取着せしめる振子式金具に対し、振子状に揺動可能な関係を確保させながら緊締具を介して接続せしめたので、支承された雨樋が前記樋受本体との間で、点接触ではなく、面接触状態で支承される。そのため前記樋受本体が、雨樋に対し常時面接触をしているので、雨樋の端縁部が損傷しにくく、雨樋の製品寿命を延ばすことができる。 The saddle bracket according to claim 1 is tightened while securing a relation that can swing in a pendulum manner with respect to a pendulum bracket that attaches a wide collar body that supports a rain gutter in advance to a predetermined portion of the eaves. Since the connection is made via the tool, the supported gutter is supported not in a point contact but in a surface contact state with the gutter body. For this reason, since the gutter body is always in surface contact with the gutter, the edge of the gutter is less likely to be damaged, and the product life of the gutter can be extended.

さらに本発明は、支承されている雨樋が塩化ビニール資材製の場合、四季折々の気温に左右されて、伸縮等がなされても、支承する樋受本体が振子式金具に対し、即応し揺動するので、雨樋と樋受本体との間に、面接触状態が確保され、雨樋の損傷を未然に防止できる。 Furthermore, the present invention is such that, when the rain gutter being supported is made of vinyl chloride material, even if the rain gutter is stretched or contracted depending on the temperature of the seasons, the supported gutter body responds quickly to the pendulum bracket. Since it moves, a surface contact state is ensured between the rain gutter and the gutter body, and damage to the gutter can be prevented.

また本発明は、前記雨樋を支承する振子式金具と接触する樋受本体と、雨樋カバーを載置し、且接触せしめる上方受け金具と、雨水落下誘導板部と、厚さ調整ナットとを、別設の連結金具によって組立てたので、雨樋は堅固に固着される。また前記雨樋カバー上に相当量の積雪があっても、十分耐えることができるので雨樋カバー等が、損傷するおそれは存しない利点を有している。 The present invention also provides a gutter body that contacts the pendulum bracket that supports the gutter, an upper gauze on which the gutter cover is placed and brought into contact, a rainwater drop guide plate portion, a thickness adjustment nut, Is assembled with a separate connecting bracket, so that the gutter is firmly fixed. Moreover, even if there is a considerable amount of snow on the gutter cover, it can withstand sufficiently, so that the gutter cover has an advantage that there is no risk of damage.

つぎに、請求項2及び同3に記載の樋受金具は、雨水の流速弱減部を、所定の高さを有し、且有底部を有する反転部を形成し、前記反転部の頂部を外側方に延設して孔付接続部を形成したので、大量の雨が屋根に降って、雨樋カバーに流出してきても、雨水が前記した反転部に衝突し、雨水を跳ね上げ反転現象を起して、雨水の流速を著減し、跳ね上げられた雨水は、前記反転部の頂部より外側方に延設した孔付接続部の表面部に沿って雨樋内に排水させることができる。そのため大量の雨水でも雨樋の外側方に飛散させない利点を有している。 Next, the saddle bracket according to claim 2 and claim 3 has a rainwater flow velocity weakening portion, a reversing portion having a predetermined height and having a bottomed portion, and a top portion of the reversing portion being formed. Since it has a connecting part with holes that extend outward, even if a large amount of rain falls on the roof and flows out to the gutter cover, the rainwater collides with the reversal part described above, and the rainwater splashes up and reverses. The rainwater flow rate is drastically reduced, and the splashed rainwater can be drained into the rain gutter along the surface portion of the holed connecting portion extending outward from the top of the reversing portion. it can. Therefore, there is an advantage that even a large amount of rainwater is not scattered outside the rain gutter.

さらに本発明は、雨樋カバーに、所定高さを有し、且若干突出する突出形状の雨水反転部を形成せしめて、屋根に降った大量の雨水を反転部によって跳ね上げ反転現象を起して、雨水の流速方向を逆方向に反転させて、雨水の流速を著減し、流速が著減した雨水は、前記反転部の表面部に沿って雨樋内に排水する。そのため屋根上に大量の降水があっても、流出してきた雨水が雨樋カバーの外側方には飛散したりしない。 Furthermore, the present invention forms a rainwater reversing portion having a predetermined height and a slightly protruding shape on the rain gutter cover, so that a large amount of rainwater falling on the roof is flipped up by the reversing portion to cause a reversal phenomenon. Thus, the direction of the flow rate of the rainwater is reversed in the reverse direction, the flow rate of the rainwater is remarkably reduced, and the rainwater whose flow rate is remarkably reduced is drained into the rain gutter along the surface portion of the reversal part. Therefore, even if there is a large amount of rainfall on the roof, the rainwater that has flowed out does not splash outside the gutter cover.

さらに本発明は、請求項1記載の発明と同じ効果を有している。 Furthermore, the present invention has the same effects as the invention of the first aspect.

本発明の請求項1〜3記載の発明の実施の形態は、共通しているので図面にもとづき以下のとおり一括して説明する。 Since the embodiments of the invention described in claims 1 to 3 of the present invention are common, they will be collectively described as follows based on the drawings.

aは本発明の樋受金具を構成する雨樋カバーである。 a is a rain gutter cover which comprises the gutter receiving metal fitting of this invention.

bは前記雨樋カバーaを下方より支持し、且固定する上方受け金具である。   Reference numeral b denotes an upper metal fitting for supporting and fixing the rain gutter cover a from below.

cは雨樋dを支承する樋受本体である。   c is a gutter receiving body for supporting the gutter d.

eは前記樋受本体cと接続する振子式金具である。   “e” is a pendulum type metal fitting connected to the above-described hook body c.

fは雨水を雨樋d内に誘導する雨水落下誘導板部である。 f is a rainwater drop guide plate for guiding rainwater into the gutter d.

gは厚さ調整ナットである。   g is a thickness adjusting nut.

hは連結金具である。   h is a connecting metal fitting.

前記密閉式雨樋カバーaの実施につき説明する。   The implementation of the sealed rain gutter cover a will be described.

前記カバーaは、前記上方受け金具bの上面に後述するボルト及びナットを介して接続する。   The cover a is connected to the upper surface of the upper receiving bracket b via bolts and nuts described later.

さらに前記カバーaは、前方部2に、屋根3から降って流出する雨水の流速を著減して雨水を確実に雨樋内に排水せしめる雨水流速弱減部sを設ける。1は前記カバーaの表面部である。   Further, the cover a is provided with a rainwater flow velocity weakening portion s at the front portion 2 that significantly reduces the flow rate of rainwater flowing down from the roof 3 and surely drains rainwater into the rain gutter. Reference numeral 1 denotes a surface portion of the cover a.

前記雨水流速弱減部sの実施の一例としての形態を説明すると以下のとおりである。   An embodiment as an example of the implementation of the rainwater flow velocity weakening portion s will be described as follows.

前記雨水流速弱減部sは、雨水流速を弱減せしめる形態として種々のものが創作されるが、前記雨樋カバーaを構成する前方部2に、屋根3から流出してきた雨水の流速方向を反転せしめ、雨水の流速を弱減せしめる前記雨水カバーaの表面部1よりも若干高く、且有底部5を有する反転部4を設ける。   The rainwater flow velocity weakening portion s may be created in various forms to reduce the rainwater flow velocity, but the flow velocity direction of the rainwater flowing out from the roof 3 is formed in the front portion 2 constituting the rain gutter cover a. An inversion portion 4 having a bottom portion 5 is provided which is slightly higher than the surface portion 1 of the rainwater cover a, which reverses and weakens the flow rate of rainwater.

そして前記反転部4は、図1〜3のように若干傾斜する傾斜状部5aを形成し、前記の有底部5と接続する。従って前記反転部4と、傾斜状部5aと、有底部5とをもって貯水部4aが形成される。   And the said inversion part 4 forms the inclined part 5a which inclines slightly like FIGS. 1-3, and is connected with the said bottomed part 5. FIG. Therefore, the water storage part 4a is formed with the inversion part 4, the inclined part 5a, and the bottomed part 5.

前記形状の弱減部sは、雨水が屋根3から雨樋カバーaの表面部1に流出して傾斜状部5aから反転部4に衝突して流速は反転する。反転した雨水は、貯水部4aに貯水され、前記有底部5aに小孔9が形成されているときは、小孔9より雨樋dへ排水され、さらに排水されなかった他の雨水は、頂部6を越えて表面張力の作用によって雨樋aへと排水される。従って雨水は雨樋aの外側方に飛散しない。   In the weakened portion s of the shape, rainwater flows out from the roof 3 to the surface portion 1 of the gutter cover a and collides with the reversing portion 4 from the inclined portion 5a, so that the flow velocity is reversed. The inverted rainwater is stored in the water storage part 4a, and when the small hole 9 is formed in the bottomed part 5a, the other rainwater that is drained from the small hole 9 to the gutter d, It is drained to the gutter a by the action of surface tension exceeding 6. Accordingly, rainwater does not scatter outside the gutter a.

さらに本発明は、前記反転部4の頂部6を外側方に稍膨出せしめ、且垂下状に延設して孔8付き接続部7を形成する。   Further, according to the present invention, the top portion 6 of the reversing portion 4 is bulged outwardly and extends in a hanging shape to form a connection portion 7 with a hole 8.

前記有底部5には、雨水を雨樋d内に排水せしめる小孔9を所定の間隔おきに複数形成しなくともよい。   A plurality of small holes 9 for draining rainwater into the gutter d may not be formed in the bottomed portion 5 at predetermined intervals.

また前記雨樋カバーaには、前記上方受け金具bと接続せしめる頭部11付ボルト10を貫通する貫通孔12を所定間隔おきに複数形成する。13は前記頭部11付ボルト10に螺着するナットである。   The rain gutter cover a is formed with a plurality of through-holes 12 penetrating the bolts 10 with the heads 11 to be connected to the upper bracket b. A nut 13 is screwed onto the bolt 10 with the head 11.

14は前記雨樋カバーaの表面部1に突設せしめた雨水の流速を弱める所定間隔おきに突設せしめた突起部である。   Reference numeral 14 denotes protrusions protruding at predetermined intervals that weaken the flow rate of rainwater protruding from the surface portion 1 of the rain gutter cover a.

さらに前記雨水流速弱減部sの実施の第2例を示すと以下のとおりである。   Further, a second example of implementation of the rainwater flow velocity weakening portion s is as follows.

第2実施例の雨水流速弱減部sは、前記雨樋カバーaを構成する前方部2に、屋根3より流出してきた雨水の流速方向を反転せしめて雨水の流速を弱減して雨水を雨樋d内にスムーズに排水せしめる所定の高さを有し、且前記雨樋カバーaの表面部1より若干突出形状もしくは湾曲状に膨出せしめる反転部15を形成してもよい。前記反転部15は、雨樋カバーaの表面部1より若干突出するか、もしくは膨出した形状でもよい。前記反転部15の作用は、雨水の流速方向を減じ、且減じられると同時に流速方向が反転するものである。9は前記反転部15の基部に形成された小孔、6aは、前記反転部15の頂部である。   The rainwater flow velocity weakening portion s of the second embodiment is configured to reverse the flow rate direction of rainwater flowing out from the roof 3 to the front portion 2 constituting the rain gutter cover a so as to weaken the rainwater flow velocity and to supply rainwater. A reversing portion 15 having a predetermined height that allows drainage to smoothly drain into the rain gutter d and bulging out slightly from the surface portion 1 of the rain gutter cover a may be formed. The inversion part 15 may protrude slightly from the surface part 1 of the gutter cover a or may have a bulging shape. The function of the reversing unit 15 is to reduce the flow direction of rainwater and to reverse the flow direction at the same time as it is reduced. Reference numeral 9 denotes a small hole formed in the base of the reversing unit 15, and 6 a denotes the top of the reversing unit 15.

そして前記反転部15の頂部6aを外側方に湾曲状に延設せしめて、孔17付き接続部16を形成する。   Then, the top portion 6a of the reversing portion 15 is extended outwardly in a curved shape to form the connecting portion 16 with a hole 17.

さらに前記第2実施例の雨樋カバーaにも、前記上方受け金具bと接続せしめる頭部11付ボルト10を貫通する貫通孔12を所定間隔おきに複数形成する。13は前記頭部11付ボルト10に螺着するナットである。   Furthermore, a plurality of through-holes 12 are formed in the rain gutter cover a of the second embodiment at predetermined intervals so as to penetrate the bolts 10 with the heads 11 connected to the upper receiving metal fitting b. A nut 13 is screwed onto the bolt 10 with the head 11.

19は前記雨樋カバーaの表面部1に雨水の流速を弱めるために所定間隔おきに突設せしめた突起部である。   Reference numeral 19 denotes protrusions that protrude from the surface portion 1 of the gutter cover a at predetermined intervals in order to weaken the flow rate of rainwater.

以上が雨樋カバーaの第1、第2実施例の形態である。   The above is the form of the first and second embodiments of the gutter cover a.

さらに前記雨樋カバーaを支持する上方受け金具bの実施の形態を説明すると以下のとおりである。   Further, an embodiment of the upper receiving metal fitting b that supports the gutter cover a will be described as follows.

この受け金具bは、前記雨樋カバーaを下方より支持し、固定するものであり、前記雨樋カバーaを支承する傾斜状支持部21を形成する。   The catch b supports and fixes the gutter cover a from below, and forms an inclined support portion 21 that supports the gutter cover a.

そして前記支持部21の前方部を折曲して折曲支承部22を形成する。   And the front part of the said support part 21 is bent, and the bending support part 22 is formed.

さらに前記支承部22の先端部を折曲して下方垂直状支承部23を形成する。前記下方垂直状支承部23には、頭部25を有するボルト26を貫通する小孔24を設ける。27は前記ボルト26と螺着のナットである。   Further, the lower end of the support portion 22 is bent to form a lower vertical support portion 23. The lower vertical support portion 23 is provided with a small hole 24 that passes through a bolt 26 having a head portion 25. Reference numeral 27 denotes a bolt 26 and a screwed nut.

他方前記傾斜状支持部21の後方端部には、前記傾斜状支持部21に対し、所定の傾斜角度をもって下方に折曲する左サイド及び右サイドに小孔28を有する取付部29を形成する。   On the other hand, a mounting portion 29 having small holes 28 on the left side and the right side that are bent downward with a predetermined inclination angle with respect to the inclined support portion 21 is formed at the rear end portion of the inclined support portion 21. .

30は前記取付部29を軒先等に小孔28を介して固定する止め具である。   Reference numeral 30 denotes a stopper for fixing the mounting portion 29 to the eaves or the like via a small hole 28.

さらに前記上方受け金具bの第2実施例は図5、6、7に示すとおりである。   Further, a second embodiment of the upper receiving metal fitting b is as shown in FIGS.

前記第2実施例の上方受け金具bは、雨樋カバーaを支承する傾斜状支持部21の前方部を折曲して所定の角度をもって折曲して下方垂直状支承部23を形成する。そして前記下方垂直状支承部23には、頭部25付ボルト26を貫通する小孔24を設ける。27は前記ボルト26と螺着するナットである。   The upper receiving bracket b of the second embodiment forms a lower vertical support portion 23 by bending the front portion of the inclined support portion 21 that supports the gutter cover a and bending it at a predetermined angle. The lower vertical support portion 23 is provided with a small hole 24 that penetrates the bolt 26 with the head 25. Reference numeral 27 denotes a nut screwed to the bolt 26.

つぎに樋受本体cの実施例につき説明する。   Next, an embodiment of the collar body c will be described.

前記樋受本体cは雨樋dを支承する支承部31と、前方端部を上方に折曲して雨樋dの前方開口縁部42を係止する前方係止部33を形成し、前記前方係止部32の下方部に孔34付前方取付部32を形成する。さらに前記孔34に頭部36付ボルト35を貫通し、前記前方取付部33とボルト35とを熔着する。35aは前記ボルト35に螺着のナットである。   The gutter receiving body c is formed with a support portion 31 that supports the gutter d, and a front locking portion 33 that bends the front end portion upward to lock the front opening edge 42 of the gutter d. A front mounting portion 32 with a hole 34 is formed in a lower portion of the front locking portion 32. Further, a bolt 35 with a head 36 is passed through the hole 34, and the front mounting portion 33 and the bolt 35 are welded. A nut 35a is screwed onto the bolt 35.

さらに前記樋受本体cの後方端部を上方に折曲して雨樋dの後方開口縁部43を係止する後方係止部37を形成し、前記後方係止部37の下方部に孔39付後方取付部38を形成する。そして前記孔39に頭部41付ボルト40を貫通し前記後方取付部38に頭部41付ボルト40を螺着する。   Further, the rear end portion of the gutter receiving body c is bent upward to form a rear locking portion 37 for locking the rear opening edge 43 of the rain gutter d, and a hole is formed in the lower portion of the rear locking portion 37. A rear mounting portion 38 with 39 is formed. Then, the bolt 40 with the head 41 is passed through the hole 39 and the bolt 40 with the head 41 is screwed into the rear mounting portion 38.

eは、前記樋受本体eと接続する振子式金具であり、実施の形態は以下のとおりである。   “e” is a pendulum type metal fitting connected to the above-described hook body “e”, and the embodiment is as follows.

前記振子式金具eは、中央部に前記樋受本体cの後方係止部37と接続する取付部44を設け、且前記取付部44の左端部を所定の長さだけ直角状に折曲した脚部45を形成し、さらに前記脚部45の先端部を直角状に延設して小孔47付左サイド部46を形成し、さらに前記取付部44の右端部を所定の長さだけ直角状に折曲した脚部45を形成し、さらに前記脚部45の先端部を直角状に外側方に延設して小孔48付右サイド部49を形成する。   The pendulum-type metal fitting e is provided with a mounting portion 44 connected to the rear locking portion 37 of the hook body c at the center, and the left end portion of the mounting portion 44 is bent at a right angle by a predetermined length. The leg portion 45 is formed, the tip end portion of the leg portion 45 is extended at a right angle to form the left side portion 46 with a small hole 47, and the right end portion of the mounting portion 44 is perpendicular to the predetermined length. A leg portion 45 bent in a shape is formed, and a distal end portion of the leg portion 45 is extended outward at a right angle to form a right side portion 49 with a small hole 48.

また前記取付部44の裏側部44bには、前記樋受本体cの後方取付部38の孔39より貫通する頭部41付ボルト40と螺着するナット50を溶着する。44aは前記ボルト40を螺入せしめる前記取付部44に設けた小孔である。   Further, a nut 50 that is screwed to the bolt 40 with a head 41 that passes through the hole 39 of the rear mounting portion 38 of the flange main body c is welded to the back side portion 44 b of the mounting portion 44. 44a is a small hole provided in the attachment portion 44 into which the bolt 40 is screwed.

さらに、本発明における振子式金具eは、軒先の傾斜角度に対応した形態として以下の実施例を挙げることができる。   Furthermore, the pendulum type metal fitting e in the present invention can include the following examples as a form corresponding to the inclination angle of the eaves.

即ち、前記振子式金具eを構成する中央部に前記樋受本体cの後方係止部37と接続する取付部cを設ける。そして前記取付部44cの左端部を所定の長さだけ直角状に折曲して脚部45aを形成し、さらに前記脚部45aの先端部が下面部に行くに従って若干傾斜しながら外側方に直角状に延設する小孔47a付左サイド部46aを形成する。   That is, a mounting portion c that is connected to the rear locking portion 37 of the support main body c is provided at a central portion that constitutes the pendulum type metal fitting e. Then, the left end portion of the mounting portion 44c is bent at a right angle by a predetermined length to form a leg portion 45a, and further, the tip end portion of the leg portion 45a is inclined slightly toward the lower surface portion and is perpendicular to the outside. A left side portion 46a with a small hole 47a extending in a shape is formed.

さらに前記取付部44cの右端部を所定の長さだけ直角状に折曲して脚部45aを形成し、前記脚部45aの先端部が下面部に行くに従って若干傾斜しながら外側方に直角状に延設する小孔48a付右サイド部49aを形成する。   Further, the right end portion of the mounting portion 44c is bent at a right angle by a predetermined length to form a leg portion 45a, and the tip end portion of the leg portion 45a is inclined slightly toward the lower surface portion so as to be perpendicular to the outside. A right side portion 49a with a small hole 48a is formed.

また前記取付部44cの裏面部44dには、前記樋受本体eの後方取付部38の孔39より貫通する頭部41付ボルト40と螺着するナット50を溶着する。44eは前記ボルト40を螺入せしめる前記取付部44cに設けた小孔である。   Also, a nut 50 that is screwed with a bolt 40 with a head 41 penetrating from the hole 39 of the rear mounting portion 38 of the flange main body e is welded to the back surface portion 44d of the mounting portion 44c. 44e is a small hole provided in the attachment portion 44c into which the bolt 40 is screwed.

前記小孔47、47a、48、48aには、止め具30を打込み前記振子式金具eを軒先の所定個所に打込んでやる。   A stopper 30 is driven into the small holes 47, 47a, 48, and 48a, and the pendulum bracket e is driven into a predetermined portion of the eaves.

つぎに雨水落下誘導板部fの実施例につき説明する。   Next, an embodiment of the rainwater drop guide plate part f will be described.

この雨水落下誘導板部fは、上方部に小孔52付垂直状取着部51を形成する。前記小孔52は、所定間隔おきに複数並列状に形成する。   The rainwater drop guide plate part f forms a vertical attachment part 51 with a small hole 52 in the upper part. A plurality of the small holes 52 are formed in parallel at predetermined intervals.

さらに前記垂直状取着部51の下方端部には、内側方に傾斜状等に折曲する雨水を雨樋d内に誘導せしめる傾斜状部53を形成する。前記傾斜状部53は、雨樋d内に若干侵入する長さを必要とする。   Further, an inclined portion 53 is formed at the lower end portion of the vertical attachment portion 51 to guide rainwater that is bent inwardly into the rain gutter d. The inclined portion 53 needs a length that slightly enters the rain gutter d.

つぎに厚さ調整ナットgはの実施について説明する。   Next, the implementation of the thickness adjusting nut g will be described.

前記厚さ調整ナットgは、4mmの厚さとし、中央にボルト26が貫通する小孔26aを設ける。   The thickness adjusting nut g has a thickness of 4 mm, and a small hole 26a through which the bolt 26 passes is provided at the center.

前記ナットgは、4mm以上の大きさのごみ、落葉等の侵入を防止するためである。   The nut g is for preventing intrusion of dust, fallen leaves or the like having a size of 4 mm or more.

iは連結金具であり以下の実施形態を有する。   i is a connecting metal fitting and has the following embodiments.

上方部にボルト26が貫通する小孔54を、下方部にボルト35を貫通する長孔55を夫々形成する。   A small hole 54 through which the bolt 26 passes is formed in the upper part, and a long hole 55 that penetrates the bolt 35 is formed in the lower part.

前記ボルト35の先端部は丸味を持たせる。35aはボルト35と螺着するナットである。   The tip of the bolt 35 is rounded. Reference numeral 35 a denotes a nut screwed to the bolt 35.

さらに軒先に所定の間隔にて取付けられた複数の上方受け金具bの傾斜状支持部21に密閉式雨樋カバーaを載せ、雨樋カバーaと上方受け金具bとを、ボルト10を貫通孔12に貫通せしめナット13を螺着して接着する。   Further, the sealed rain gutter cover a is placed on the inclined support portions 21 of the plurality of upper receiving metal fittings b attached to the eaves at predetermined intervals, and the rain gutter cover a and the upper receiving metal fitting b are connected to the bolts 10 through holes. The nut 13 is passed through 12 and screwed to adhere.

さらに複数前記振子式金具eを軒先の所定位置に止め具30を介して固着する。その際軒先の傾斜角度に対応させて、例えば軒先が図1、2、5、6のように垂直状のときは、図8、9、10に図示の振子式金具eを使用する。   Further, a plurality of the pendulum type metal fittings e are fixed to a predetermined position of the eaves via a stopper 30. At that time, if the eaves is vertical as shown in FIGS. 1, 2, 5, and 6 in correspondence with the inclination angle of the eaves, the pendulum type metal fitting e shown in FIGS.

他方の軒先の傾斜角度が、例えば軒先が図3、7のように若干傾斜しているときは、図11、12、13に図示の振子式金具eを使用する。   For example, when the eaves edge is slightly inclined as shown in FIGS. 3 and 7, the pendulum-type metal fitting e illustrated in FIGS. 11, 12, and 13 is used.

前記のようにして止め具30を介して取付けられた振子式金具eの取付部44と、前記樋受本体cの後方取付部38とをボルト40を孔39に貫通しナット50に螺入し若干の緩みを与え、前記樋受本体cが振子状に揺動可能な度合で接続せしめてやる。   The bolt 40 passes through the hole 39 and is screwed into the nut 50 through the mounting portion 44 of the pendulum bracket e attached via the stopper 30 as described above and the rear mounting portion 38 of the hook body c. Slight loosening is applied, and the support body c is connected to such a degree that it can swing like a pendulum.

従って、本発明は、前記振子式金具e、eと前記樋受本体cとの緊締は、前記したとおり左右方向に揺動ができない程度の緊締はしないことを条件としている。   Therefore, according to the present invention, the pendulum brackets e and e and the hook body c are tightened to the extent that they cannot swing in the left-right direction as described above.

さらに前記のようにして取着の樋受本体cの支承部31に、前記雨樋dを嵌挿部せしめると、前記雨樋dを構成する前方開口縁部42が前方係止部32によって係止される。   Further, when the rain gutter d is fitted into the support portion 31 of the attachment gutter receiving body c as described above, the front opening edge 42 constituting the gutter d is engaged by the front locking portion 32. Stopped.

また雨樋dの後方開口端部43も後方係止部37によって係止される。   The rear opening end 43 of the gutter d is also locked by the rear locking portion 37.

さらに上方受け金具bの下方垂直部23と重合している雨樋カバーaの孔8付接続部7の外側方に、前記厚さ調整ナットgを、前記ナットgの外側方に、前記雨水落下誘導板部fをさらに前記誘導板部fの外側方に連結金具iをあてると、孔8と小孔24と小孔26aと小孔52と小孔54とが合致する。前記のように合致せしめた前記孔、小孔に対しボルト26を貫通しナット27をもって螺着する。   Further, the thickness adjusting nut g is placed on the outer side of the connecting portion 7 with the hole 8 of the rain gutter cover a overlapped with the lower vertical portion 23 of the upper receiving bracket b, and the rain water falls on the outer side of the nut g. When the guide plate part f is further applied to the outer side of the guide plate part f with the connecting fitting i, the hole 8, the small hole 24, the small hole 26a, the small hole 52, and the small hole 54 are matched. Bolts 26 are passed through the holes and small holes that have been matched as described above and screwed with nuts 27.

また前記係止部33の孔34と連結金具iの長孔55とを合致させ、これらの孔、長孔にボルト35を貫通せしめナット35aを螺着する。   Further, the hole 34 of the locking portion 33 and the elongated hole 55 of the connecting fitting i are matched, and a bolt 35 is passed through these holes and elongated holes, and a nut 35a is screwed.

前記ボルト35とナット35aとの螺着時において、前記ボルト35を前記長孔55内に若干位置を移動させながら微調整をして所定の位置決めをして螺着せしめる。   When the bolt 35 and the nut 35a are screwed together, the bolt 35 is finely adjusted while being moved slightly in the elongated hole 55 to be screwed in a predetermined position.

上記のようにして、雨樋カバーaと、上方受け金具bと、振子式金具eと、樋受本体cと、雨水誘導部fと、厚さ調整ナットgと、連結金具iと、緊締金具とをもって固着する。   As described above, the gutter cover a, the upper receiving metal fitting b, the pendulum type metal fitting e, the eaves receiving body c, the rain water guiding portion f, the thickness adjusting nut g, the connecting metal fitting i, and the fastening metal fitting It sticks with.

さらに前記のように組立てられた本発明を構成する雨樋カバーaは図1、2、3に図示されているように所定の傾斜角度をもって取付けられている。   Further, the gutter cover a constituting the present invention assembled as described above is attached with a predetermined inclination angle as shown in FIGS.

そして前記のようにして取付けられている雨樋カバーaに、屋根3上に降った大量の雨水が雨量に応じた所定の流速をもって雨樋aの前方部をめがけて流出するが、それら流出雨水は、雨水流速弱減部sの反転部4に衝突し、流速方向が反転する。前記のように反転せしめられた一部の雨水は、一時は貯水部4aに貯水状態となるが、小孔9より雨樋d内に排出される。   Then, a large amount of rainwater that has fallen on the roof 3 flows out toward the front part of the rain gutter a with a predetermined flow rate corresponding to the amount of rain. Collides with the reversing portion 4 of the rainwater flow velocity weakening portion s, and the flow velocity direction is reversed. A part of the rainwater reversed as described above is temporarily stored in the water storage portion 4a, but is discharged into the rain gutter d through the small hole 9.

さらに前記のようにして反転せしめられた雨水の一部は、流速が弱められているので、前記反転部4を越えて、表面張力現象によって接続部7から雨水誘導部fの傾斜状部53から雨樋a内に確実に排水される。   Furthermore, since a part of the rainwater reversed as described above has a reduced flow velocity, it exceeds the reversing part 4 and from the connecting part 7 to the inclined part 53 of the rainwater guiding part f by the surface tension phenomenon. It is surely drained into the gutter a.

また本発明においては、厚さ調整ナットgが介在せしめているので、前記ナットgの厚さ以上のごみ等は侵入が阻止される。従って雨樋d内にごみ等が推積し、雨水の流れを悪化させたりしない。   In the present invention, since the thickness adjusting nut g is interposed, dust and the like exceeding the thickness of the nut g are prevented from entering. Accordingly, dust or the like accumulates in the gutter d and does not deteriorate the flow of rainwater.

そして、本発明を構成する雨樋カバーaが、図5、6、7に図示されているように所定の傾斜角度をもって取付けられていても、屋根3から雨樋カバーaに流出してきた雨水は、雨水流速弱減部sの反転部15によって反転せしめられる。   Even if the rain gutter cover a constituting the present invention is attached with a predetermined inclination angle as shown in FIGS. 5, 6, and 7, the rain water flowing out from the roof 3 to the gutter cover a is The rainwater flow velocity weakening portion s is reversed by the reversing portion 15.

反転せしめられた雨水の一部は、小孔9が形成されているときは、小孔9から雨樋d内に排水されるし、他の雨水は流速が弱減せしめられながら、雨樋カバーaの前方部の表面部から接続部16へと、さらに厚さ調整ナットgによって形成されている間隙部から雨水誘導部fの傾斜状部53から雨樋a内に確実に排水される。   When the small hole 9 is formed, a part of the rainwater that has been reversed is drained into the rain gutter d from the small hole 9, and the rain gutter cover is made while the flow rate of other rain water is reduced. The water is reliably drained from the front surface portion of a to the connection portion 16 and from the inclined portion 53 of the rainwater guiding portion f into the rain gutter a through the gap portion formed by the thickness adjusting nut g.

そして、前記ナットgの厚さ以上の大きさのごみ等は、雨樋d内に入ったりしない。   And dust or the like larger than the thickness of the nut g does not enter the rain gutter d.

さらに本発明を構成する振子式金具eと樋受本体cとの締付け度合を、嵌挿する雨樋dの開口縁部42、43と係止部32、37とが、点接触ではなく、面接触状態を保持させるように、前記樋受本体cが振子状に揺動するよう前記ボルト40とナット50の緊締度合いを微調整をして両部材を接続せしている。   Further, the opening degree portions 42 and 43 of the rain gutter d to be inserted and the locking portions 32 and 37 with respect to the tightening degree of the pendulum-type metal fitting e and the hook main body c constituting the present invention are not point contacts but surfaces. In order to maintain the contact state, the tightening degree of the bolt 40 and the nut 50 is finely adjusted so that the support body c swings like a pendulum.

そのため雨樋dが気温の変化によって伸縮しても、その変化に樋受本体cが対応する。   Therefore, even if the gutter d expands or contracts due to a change in temperature, the gutter body c corresponds to the change.

本発明樋受金具の組立て状態を示す一部切欠斜視図である。It is a partially cutaway perspective view showing the assembled state of the present invention metal fitting.

図1の樋受金具の組立てた状態の一部切欠縦断正面図である。FIG. 2 is a partially cutaway longitudinal front view of the state where the saddle bracket of FIG. 1 is assembled.

樋受金具の第2実施例を示す一部切欠縦断面図である。It is a partial notch longitudinal cross-sectional view which shows 2nd Example of a collar bracket.

図1の樋受金具の一部切左側面図である。FIG. 3 is a partially cut left side view of the saddle bracket of FIG. 1.

本発明樋受金具の第2実施例を示す斜視図である。It is a perspective view which shows 2nd Example of this invention collar bracket.

図5に示した雨樋金具の一部切欠縦断正面図である。FIG. 6 is a partially cut longitudinal front view of the rain gutter fitting shown in FIG. 5.

雨樋金具の第3実施例を示す一部切欠縦断正面図である。It is a partial notch longitudinal front view which shows 3rd Example of a rain gutter metal fitting.

振子式金具の正面図である。It is a front view of a pendulum type metal fitting.

同金具の右側面図である。It is a right view of the metal fitting.

同金具の平面図である。It is a top view of the metal fitting.

同金具の第2実施例の正面図である。It is a front view of 2nd Example of the metal fitting.

図11の金具の右側面図である。It is a right view of the metal fitting of FIG.

図11の金具の平面図である。It is a top view of the metal fitting of FIG.

樋受本体と雨樋との点接触状態を示す一部切欠平面図である。It is a partially notched top view which shows the point contact state of a gutter main body and a rain gutter.

樋受本体と雨樋との点接触状態を示す一部切欠平面図である。It is a partially notched top view which shows the point contact state of a gutter main body and a rain gutter.

樋受本体と雨樋との面接触状態を示す一部切欠平面図である。It is a partially notched top view which shows the surface contact state of a hook main body and a rain gutter.

a 雨樋カバー
b 上方受け金具
c 樋受本体
d 雨樋
e 振子式金具
f 雨水落下誘導板部
g 厚さ調整ナット
i 連結金具
s 雨水流速弱減部
1 表面部
2 前方部
3 屋根
4 反転部
4a 貯水部
5 有底部
5a 傾斜状部
6 頂部
6a 頂部
7 接続部
8 孔
9 小孔
10 ボルト
11 頭部
12 貫通孔
13 ナット
14 突起部
15 反転部
16 接続部
17 孔
19 突起部
21 支持部
22 折曲支承部
23 垂直状支承部
24 小孔
25 頭部
26 ボルト
27 ナット
28 小孔
29 取付部
30 止め具
31 支承部
32 前方係止部
33 前方取付部
34 孔
35 ボルト
35a ナット
36 頭部
37 後方係止部
38 後方取付部
39 孔
40 ボルト
41 頭部
42 前方開口縁部
43 後方開口縁部
44 取付部
45 脚部
46 左サイド部
47 小孔
48 小孔
49 右サイド部
50 ナット
51 垂直状取着部
52 小孔
53 傾斜状部
54 小孔
55 長孔
a rain gutter cover b upper catch metal c gutter body d gutter e pendulum type metal fitting f rain water drop guide plate g thickness adjustment nut i connecting metal fitting s rain water flow velocity reduction part 1 surface part 2 front part 3 roof 4 reversing part 4a Water storage part 5 Bottomed part 5a Inclined part 6 Top part 6a Top part 7 Connection part 8 Hole 9 Small hole 10 Bolt 11 Head 12 Through hole 13 Nut 14 Protrusion part 15 Reverse part 16 Connection part 17 Hole 19 Protrusion part 21 Support part 22 Folding support portion 23 Vertical support portion 24 Small hole 25 Head 26 Bolt 27 Nut 28 Small hole 29 Mounting portion 30 Stopper 31 Supporting portion 32 Front locking portion 33 Front mounting portion 34 Hole 35 Bolt 35a Nut 36 Head 37 Rear locking portion 38 Rear mounting portion 39 Hole 40 Bolt 41 Head portion 42 Front opening edge portion 43 Rear opening edge portion 44 Mounting portion 45 Leg portion 46 Left side portion 47 Small hole 48 Small hole 49 Right side portion 50 Nut 5 1 Vertical attachment part 52 Small hole 53 Inclined part 54 Small hole 55 Long hole

Claims (3)

傾斜状支持部21の後方端部に所定角度で折曲する軒先に取着する小孔28付取着用取付部29と、前方部を所定の角度で傾斜せしめ形成する支承部22と、前記支承部22の先端部を折曲して形成する孔付垂直状取付部とからなる上方受け金具と、前記上方受け金具の上面に載置可能な雨樋カバーと、雨樋を支承する樋受本体と、前記樋受本体cと接続する振子式金具eと、雨水を雨樋内に誘導する雨水落下誘導板部と、厚さ調整ナットと、連結金具とからなる樋受金具において、
前記雨樋カバーが、前記雨樋カバーを構成する前方部に、流出する雨水の流速方向を反転せしめ、雨水の流速を弱減して雨水を雨樋内にスムーズに排出せしめる雨水流速弱減部を設け、
前記樋受本体は雨樋を支承する支承部31と、前方端部を上方に折曲して雨樋の前方開口縁部42を係止する前方係止部33を形成し、前記前方係止部33の下方部に孔34付前方取付部32を形成し、前記孔34に頭部36付ボルト35を貫通螺着せしめ、且前記樋受本体の後方端部を上方に折曲して雨樋の後方開口縁部43を係止する後方係止部37を形成し、前記後方係止部37の下方部に孔39付後方取付部38を形成し、前記孔39に頭部41付ボルト40を貫通し前記後方取付部38に頭部41付ボルト40を溶着すると共に、
前記振子式金具は、中央部に前記樋受本体の後方係止部37と接続する取付部44を設け、且前記取付部44の左端部を所定の長さだけ直角状に折曲した脚部45を形成し、前記脚部45の先端部を直角状に延設して小孔47付左サイド部46を形成し、さらに前記取付部44の右端部を所定の長さだけ直角状に折曲した脚部45を形成し、前記脚部45の先端部を直角状に外側方に延設して小孔48付右サイド部49を形成し、且前記取付部44の裏側部44bには、前記樋受本体の後方取付部38の孔39より貫通する頭部41付ボルト40と螺着するナット50を溶着し、前記取付部44には前記ボルト40を螺入せしめる小孔44aを設け、
前記雨水落下誘導板部は、上方部に小孔52付垂直状取着部51を形成し、且前記小孔52は、所定間隔おきに複数並列状に形成し、且前記垂直状取着部51の下方端部には、内側方に傾斜状に折曲する雨水を雨樋内に誘導せしめる傾斜状部53を形成し、
前記樋受本体を振子式金具に対し振子状に前記ボルト40を介して常時揺動可能にしてナット50の緊締を調整しながら接続し、
前記上方受け金具と、雨樋カバーと、樋受本体と、雨水落下誘導板部と、厚さ調整ナットと、連結金具とを一体に接続せしめることを特徴とする樋受金具。
A mounting attachment portion 29 with a small hole 28 attached to the eaves that bends at a predetermined angle at the rear end portion of the inclined support portion 21 , a support portion 22 that is formed by inclining the front portion at a predetermined angle, and the support An upper receiving bracket b comprising a vertical mounting portion with a hole formed by bending the tip of the portion 22 , a rain gutter cover a that can be placed on the upper surface of the upper receiving bracket b , and a gutter d from the gutter bearing main body c to a pendulum fitting e to be connected to the gutter bearing main body c, and rainwater falling guide plate portion f which induce rainwater into the gutter d, the thickness adjustment nut g, and coupling fittings i In the saddle bracket
The rain gutter cover a reverses the flow direction of the flowing out rain water at the front part of the gutter cover a , reduces the flow speed of the rain water, and smoothly discharges the rain water into the gutter d . We provide a weakening part s ,
The gutter receiving body c is formed with a support portion 31 that supports the gutter d , and a front locking portion 33 that bends the front end portion upward to lock the front opening edge 42 of the gutter d. A front mounting portion 32 with a hole 34 is formed in a lower portion of the front locking portion 33, a bolt 35 with a head 36 is threaded through the hole 34 , and the rear end portion of the flange body e is folded upward. and music forming the rear catch part 37 for locking the rear opening edge 43 of the gutter d, to form a rear attachment portion 38 with the hole 39 in the lower portion of the rear catch part 37, into the hole 39 with welding the attached head 41 bolt 40 to the rear mounting portion 38 through the bolts 40 with heads 41,
The pendulum-type metal fitting e is provided with a mounting portion 44 connected to the rear locking portion 37 of the hook body c at the center, and the left end portion of the mounting portion 44 is bent at a right angle by a predetermined length. A leg portion 45 is formed, the tip end portion of the leg portion 45 is extended at a right angle to form a left side portion 46 with a small hole 47 , and the right end portion of the attachment portion 44 is a right angle by a predetermined length. A leg portion 45 bent to the right side, a right side portion 49 with a small hole 48 is formed by extending the tip end portion of the leg portion 45 outward at a right angle, and a back side portion 44b of the mounting portion 44. to, the gutter bearing main body c rear attachment portion 38 nut 50 screwed with the bolt 40 with a head 41 which penetrates from the hole 39 of the welded, small holes allowed to screwing the bolt 40 to the mounting portion 44 44a ,
The rainwater drop guide plate portion f is formed with vertical attachment portions 51 with small holes 52 in the upper portion, and a plurality of the small holes 52 are formed in parallel at predetermined intervals, and the vertical attachment portions are formed. In the lower end portion of the portion 51 , an inclined portion 53 is formed for guiding rainwater bent inwardly into the rain gutter d ,
The hook body c is connected to the pendulum bracket e in a pendulum manner through the bolt 40 so as to be always swingable while adjusting the tightening of the nut 50 ,
The upper receiving metal fitting b , the rain gutter cover a , the gutter receiving body c , the rain water drop guiding plate part f , the thickness adjusting nut g, and the connecting metal fitting i are integrally connected. Hardware.
前記雨樋カバーを構成する雨水流速弱減部が、前記雨樋カバーを構成する前方部に、流出してきた雨水の流速方向を反転せしめ、雨水の流速を弱減せしめる前記雨樋カバーの表面部よりも若干高く、且雨水の流速を弱減して雨水を雨樋内にスムーズに排出せしめる所定の高さを有し、且若干突出形状にして有底部を有する反転部を形成し、前記反転部の頂部を外側方に延設して孔17付接続部16を形成せしめることを特徴とする請求項1記載の樋受金具。 The gutter cover a rainwater flow rate weakly reducing unit s constituting a is the guttering forward portion 2 constituting the cover a, allowed reversing the direction of the flow velocity of the rainwater that has flowed out, the gutter where allowed to weakly reducing the flow rate of the rainwater It is slightly higher than the surface portion 1 of the cover a , has a predetermined height that allows rainwater to flow smoothly into the gutter d by reducing the flow rate of rainwater, and has a bottomed portion 5 that has a slightly protruding shape. The hook receiving bracket according to claim 1, wherein a reversing part 4 is formed, and a top part of the reversing part 4 is extended outward to form a connection part 16 with a hole 17 . 前記雨樋カバーを構成する雨水流速弱減部の反転部15を構成する頂部6aもしくは突出形状の上面部が、前記雨樋カバーの表面よりも若干高めに形成せしめることを特徴とする請求項1又は請求項2に記載の樋受金具。 The top part 6a constituting the reversing part 15 of the rainwater flow velocity weakening part s constituting the rain gutter cover a or the projecting upper surface part is formed slightly higher than the surface of the gutter cover a. The collar bracket according to claim 1 or 2.
JP2006133956A 2006-05-12 2006-05-12 樋 Bracket Active JP4475253B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP2006133956A JP4475253B2 (en) 2006-05-12 2006-05-12 樋 Bracket

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP2006133956A JP4475253B2 (en) 2006-05-12 2006-05-12 樋 Bracket

Publications (2)

Publication Number Publication Date
JP2007303207A JP2007303207A (en) 2007-11-22
JP4475253B2 true JP4475253B2 (en) 2010-06-09

Family

ID=38837367

Family Applications (1)

Application Number Title Priority Date Filing Date
JP2006133956A Active JP4475253B2 (en) 2006-05-12 2006-05-12 樋 Bracket

Country Status (1)

Country Link
JP (1) JP4475253B2 (en)

Families Citing this family (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP7471630B2 (en) * 2020-03-31 2024-04-22 元旦ビューティ工業株式会社 Eaves structure and its construction method
CN116163457B (en) * 2023-01-12 2025-05-09 中国五冶集团有限公司 Assembled roof and construction method thereof

Also Published As

Publication number Publication date
JP2007303207A (en) 2007-11-22

Similar Documents

Publication Publication Date Title
USRE44212E1 (en) Gutter guard
US8434269B1 (en) Eavestrough cover
US4956948A (en) Clog resistant gutter-downspout connection unit
EP1408174B1 (en) Gutter shield for eaves trough
US20080289263A1 (en) One Piece Gutter with Intergrated Screen
US6826872B2 (en) Rounded eaves trough with a gutter shield
CA2783834C (en) Eavestrough cover
US20040118052A1 (en) Rounded eaves trough with a gutter shield
US20080190039A1 (en) Gutter Guard
US6164020A (en) Roof gutter guard
JP4475253B2 (en) 樋 Bracket
JPH0349214Y2 (en)
JPH11100953A (en) Roof gutter device
US20070044387A1 (en) Collection and drainage system having a fluid directing assembly
JP2001003526A (en) Snow removing and stopping device for roof eaves
US20040083657A1 (en) Gutter and cover system
JP6248164B2 (en) Eaves structure
JP2000213111A (en) Valley tile slipping down prevention device
JP3873233B2 (en) Rain gutter
JPH076273Y2 (en) Ash fall prevention building
JP6859042B2 (en) balcony
JP3029234B2 (en) Rain gutter mounting structure
JPH0762816A (en) Eaves gutter device
JP3013058U (en) Fall leaf prevention rain gutter auxiliary material
JP6248165B2 (en) Eaves structure

Legal Events

Date Code Title Description
A621 Written request for application examination

Free format text: JAPANESE INTERMEDIATE CODE: A621

Effective date: 20090430

A871 Explanation of circumstances concerning accelerated examination

Free format text: JAPANESE INTERMEDIATE CODE: A871

Effective date: 20090611

A975 Report on accelerated examination

Free format text: JAPANESE INTERMEDIATE CODE: A971005

Effective date: 20090630

A131 Notification of reasons for refusal

Free format text: JAPANESE INTERMEDIATE CODE: A131

Effective date: 20090707

A521 Written amendment

Free format text: JAPANESE INTERMEDIATE CODE: A523

Effective date: 20090907

A131 Notification of reasons for refusal

Free format text: JAPANESE INTERMEDIATE CODE: A131

Effective date: 20091027

A521 Written amendment

Free format text: JAPANESE INTERMEDIATE CODE: A523

Effective date: 20091225

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: 20100202

A01 Written decision to grant a patent or to grant a registration (utility model)

Free format text: JAPANESE INTERMEDIATE CODE: A01

A61 First payment of annual fees (during grant procedure)

Free format text: JAPANESE INTERMEDIATE CODE: A61

Effective date: 20100301

R150 Certificate of patent or registration of utility model

Free format text: JAPANESE INTERMEDIATE CODE: R150

FPAY Renewal fee payment (event date is renewal date of database)

Free format text: PAYMENT UNTIL: 20130319

Year of fee payment: 3