JP2020169733A - Gas distribution device and gas cooking stove - Google Patents

Abstract

To provide a gas distribution device and a gas cooking stove, which can be miniaturized while integrating components required for distributing gas pressure-regulated by a gas burner.SOLUTION: A mainstream passage 141 into which gas is introduced extends in a longitudinal direction of a base body 130. A groove-like distribution chamber 142 is provided to extend in a vertical direction on a rear face 132 and is connected to the mainstream passage 141. An upstream passage 143 extends in a lateral direction on an upper side of the mainstream passage 141 and a downstream passage 144 extends in a lateral direction on a lower side of the mainstream passage 141. An upper fire supply port 153 and a lower fire supply port 154, to which a gas pipe is connected, are provided at right ends of the upstream passage 143 and the downstream passage 144, respectively, and are opened on a right surface 134. An upper fire adjustment section 155 and a lower fire adjustment section 156, where a needle valve is disposed, are provided at left ends of the upstream passage 143 and the downstream passage 144, respectively, and are opened on a left surface 133. An upper fire opening/closing passage 145 and a lower fire opening/closing passage 146, which are opened/closed by a solenoid valve, extend in a longitudinal direction and connect the upstream passage 143 and the downstream passage 144, with the distribution chamber 142.SELECTED DRAWING: Figure 5

Description

本発明はガス分配装置とガスコンロに関する。 The present invention relates to a gas distributor and a gas stove.

ガスコンロには、被調理物を上下から加熱する上火バーナと下火バーナを備えたグリル庫が設けられる。上火バーナと下火バーナにガスを供給する供給路には、ガスガバナで調圧したガスを分配し、上火バーナと下火バーナのそれぞれに供給するための機構が設けられる。例えば特許文献１に記載される火力調整機構は、ガスガバナから後方向に延びる主ガス流路、第１分岐流路及び第２分岐流路を備え、第１分岐流路及び第２分岐流路にニードル弁が介挿される第１ボディ部材と、第１ボディ部材の後に固定される第２ボディ部材を備える。 The gas stove is provided with a grille equipped with an upper heat burner and a lower heat burner that heat the food to be cooked from above and below. The supply path for supplying gas to the upper heat burner and the lower heat burner is provided with a mechanism for distributing the gas regulated by the gas governor and supplying the gas to each of the upper heat burner and the lower heat burner. For example, the thermal power adjusting mechanism described in Patent Document 1 includes a main gas flow path, a first branch flow path, and a second branch flow path extending backward from the gas governor, and includes the first branch flow path and the second branch flow path. A first body member into which a needle valve is inserted and a second body member fixed after the first body member are provided.

第２ボディ部材は、主ガス流路に接続するため前面にて開口して後方へ延びる連通路と、連通路に接続し、ハウジングの後面にて凹部状に形成され、電磁弁のプランジャによって開閉される２つの貫通孔を有する弁室と、２つの貫通孔の夫々を介して弁室に接続し、ハウジングの前面にて溝状に形成される上火用の流路及び下火用の流路とを備える。また、第二ボディ部材のハウジングの上面には、上火バーナへのガス管が挿入される第１ガス流出口と、下火バーナへのガス管が挿入される第２ガス流出口とが設けられ、夫々、上火用の流路と下火用の流路とに連通する。ガス圧の検出に用いる検出部は第一ガス流出口の隣に設けられ、上火用の流路に連通する。また、上火用の流路及び下火用の流路の夫々には、第１分岐流路及び第２分岐流路も連通する。 The second body member is connected to a communication passage that opens at the front and extends rearward to connect to the main gas flow path, and is formed in a concave shape on the rear surface of the housing, and is opened and closed by a plunger of an electromagnetic valve. A valve chamber having two through holes to be formed, and a flow path for upper heat and a flow for lower fire which are connected to the valve chamber through each of the two through holes and are formed in a groove shape on the front surface of the housing. Equipped with a road. Further, on the upper surface of the housing of the second body member, a first gas outlet into which the gas pipe to the upper fire burner is inserted and a second gas outlet into which the gas pipe to the lower fire burner is inserted are provided. Each of them communicates with the flow path for the upper fire and the flow path for the lower fire. The detection unit used for detecting the gas pressure is provided next to the first gas outlet and communicates with the flow path for the top fire. Further, the first branch flow path and the second branch flow path are also communicated with each of the upper heat flow path and the lower fire flow path.

特開２０１５−３６５９５号公報JP-A-2015-36595

しかしながら、第１ボディ部材と第２ボディ部材の固定部分おいて、主ガス流路と連通路、第１分岐流路と上火用の流路、第２分岐流路と下火用の流路とが夫々接続するため、シール性を確保する必要がある。第２ボディ部材の前面に上火用の流路と下火用の流路が形成されるので、シール用のパッキンに加え、流路の開口部分を塞ぐための閉鎖板が必要であり、部品点数が増え、生産コストが高くなるという問題があった。上火用の流路と下火用の流路を第２ボディ部材の内部に設けた場合、閉鎖板は不要となるが、弁室、検出部、第１ガス流出口、第２ガス流出口等の構成に加え、第１分岐流路、第２分岐流路、ニードル弁等、第１ボディ部材に設けた各種構成をも第２ボディ部材に設ける必要が生じ、ハウジングの大型化を招く可能性があった。 However, in the fixed portion of the first body member and the second body member, the main gas flow path and the continuous passage, the first branch flow path and the flow path for the upper fire, the second branch flow path and the flow path for the lower fire. It is necessary to ensure the sealing property because they are connected to each other. Since a flow path for upper heat and a flow path for lower heat are formed on the front surface of the second body member, a closing plate for closing the opening portion of the flow path is required in addition to the packing for sealing. There was a problem that the number of points increased and the production cost increased. When the flow path for the upper fire and the flow path for the lower fire are provided inside the second body member, the closing plate becomes unnecessary, but the valve chamber, the detection unit, the first gas outlet, and the second gas outlet In addition to the above configurations, it is necessary to provide the second body member with various configurations provided for the first body member such as the first branch flow path, the second branch flow path, and the needle valve, which may lead to an increase in the size of the housing. There was sex.

本発明の目的は、ガスガバナで調圧したガスを分配するために必要な構成要素を集約しつつも小型化を図ることができるガス分配装置とガスコンロを提供することである。 An object of the present invention is to provide a gas distribution device and a gas stove that can reduce the size while consolidating the components necessary for distributing the gas regulated by the gas governor.

本発明の請求項１に係る発明のガス分配装置は、ガスコンロの筐体内に設けられるグリル庫内に収容する被調理物を加熱する上火バーナ及び下火バーナと、ガスの供給圧を調圧して前記上火バーナ及び前記下火バーナにガスを供給するガスガバナとの間に設けられ、前記ガスガバナから供給されるガスを流通し、前記上火バーナと前記下火バーナに分配するガス分配装置であって、前記ガス分配装置のハウジングには、第一方向に延び、前記ガスガバナによって調圧されたガスが流通する第一流路と、前記第一流路の一端部に接続し、且つ前記第一方向に交差する第二方向に沿って延び、前記第一流路を流通するガスを、前記上火バーナに供給するガスと前記下火バーナに供給するガスとに分配する分配室と、前記第一方向及び前記第二方向に交差する第三方向に沿って並行して延びる２つの流路であって、前記第一流路よりも前記第二方向の少なくとも一方側にて夫々が前記分配室に接続し、前記分配室にて分配されたガスが流通する第二流路と、前記分配室と２つの前記第二流路との夫々に接続し、前記分配室から前記第二流路へガスを流通する２つの第一連通路と、前記第一連通路よりも前記第三方向の一方側にて前記分配室と２つの前記第二流路との夫々に接続し、前記第一連通路とは独立に前記分配室から前記第二流路へガスを流通する２つの第二連通路とが形成されており、前記第一流路の他端部は、前記ハウジングにおいて前記第一方向の一方側を向く第一面にて開口し、前記ガスガバナから供給されるガスを前記ガス分配装置に導入する導入口として機能し、前記分配室は、前記ハウジングにおいて前記第一方向の他方側を向く第二面にて前記第二方向に延びて開口し、且つ開口部分が２つの前記第一連通路を夫々開閉する２つの開閉弁によって閉塞され、前記第二流路の夫々の一端部は、前記ハウジングにおいて前記第三方向の一方側を向く第三面にて開口し、前記第二連通路を介して前記第二流路に流入するガスの流量を調整する調整弁が組み付けられる調整口として機能し、前記第二流路の夫々の他端部は、前記ハウジングにおいて前記第三方向の他方側を向く第四面にて開口し、前記上火バーナと前記下火バーナの夫々にガスを輸送するガス管が接続される接続口として機能することを特徴とする。 The gas distribution device of the present invention according to claim 1 of the present invention regulates the supply pressure of the gas and the upper heat burner and the lower heat burner for heating the food to be cooked contained in the grill chamber provided in the housing of the gas stove. A gas distribution device provided between the upper heat burner and the gas governor that supplies gas to the lower heat burner, circulates the gas supplied from the gas governor, and distributes the gas to the upper heat burner and the lower heat burner. The housing of the gas distributor is connected to a first flow path extending in the first direction and through which the gas regulated by the gas governor flows, and one end of the first flow path, and the first direction. A distribution chamber extending along a second direction intersecting with and distributing the gas flowing through the first flow path into the gas supplied to the upper heat burner and the gas supplied to the lower heat burner, and the first direction. And two flow paths extending in parallel along a third direction intersecting the second direction, each connected to the distribution chamber on at least one side of the second direction from the first flow path. , The second flow path through which the gas distributed in the distribution chamber flows, the distribution chamber and the two second flow paths are connected to each other, and the gas flows from the distribution chamber to the second flow path. The two first series passages are connected to the distribution chamber and the two second series passages on one side of the third direction from the first series passage, respectively. Two second passages for flowing gas from the distribution chamber to the second flow path are independently formed, and the other end of the first flow path is one side of the first direction in the housing. It opens on the first facing surface and functions as an introduction port for introducing the gas supplied from the gas governor into the gas distribution device, and the distribution chamber is the second surface facing the other side of the first direction in the housing. The opening extends in the second direction and the opening is closed by two on-off valves that open and close the two first series passages, respectively, and one end of each of the second passage is in the housing. It functions as an adjustment port to which an adjustment valve that opens on the third surface facing one side of the third direction and adjusts the flow rate of gas flowing into the second flow path through the second communication passage is installed. The other end of each of the second flow paths is a gas that is opened in the housing at a fourth surface facing the other side in the third direction and transports gas to each of the upper heat burner and the lower fire burner. It is characterized in that it functions as a connection port to which a pipe is connected.

本発明の請求項２に係る発明のガス分配装置は、請求項１に記載の発明の構成に加え、前記第一方向、前記第二方向及び前記第三方向は、互いに直交する方向であることを特徴とする。 In addition to the configuration of the invention according to claim 1, the gas distributor of the invention according to claim 2 of the present invention has the first direction, the second direction, and the third direction orthogonal to each other. It is characterized by.

本発明の請求項３に係る発明のガス分配装置は、請求項１又は２に記載の発明の構成に加え、２つの前記第二流路は、前記第一流路に対し、前記第二方向の一方側と他方側の夫々にて形成されたことを特徴とする。 In the gas distributor of the invention according to claim 3 of the present invention, in addition to the configuration of the invention according to claim 1 or 2, the two second flow paths are in the second direction with respect to the first flow path. It is characterized in that it is formed on one side and the other side, respectively.

本発明の請求項４に係る発明のガス分配装置は、請求項３に記載の発明の構成に加え、前記分配室は、前記開口部分を前記開閉弁で閉塞する場合の気密を維持するパッキンの配置部を前記開口部分の周囲に有し、前記配置部の前記第二方向一方側の一端部は、前記ハウジングにおいて前記第二方向一方側を向く第五面よりも、前記第二方向一方側に位置し、前記配置部の前記第二方向他方側の他端部は、前記ハウジングにおいて前記第二方向他方側を向く第六面よりも、前記第二方向他方側に位置することを特徴とする。 In addition to the configuration of the invention according to claim 3, the gas distribution device according to claim 4 of the present invention has a packing that maintains airtightness when the opening portion is closed by the on-off valve. The arrangement portion is provided around the opening portion, and one end portion of the arrangement portion on one side in the second direction is one side in the second direction with respect to the fifth surface facing the one side in the second direction in the housing. The other end of the arrangement portion on the other side in the second direction is located on the other side in the second direction of the housing with respect to the sixth surface facing the other side in the second direction. To do.

本発明の請求項５に係る発明のガス分配装置は、請求項４に記載の発明の構成に加え、前記第二方向に延び、２つの前記第二流路のうち一方に接続するガスの流路である第三流路を更に備え、前記第三流路の一端部は、前記第二流路に接続し、前記第三流路の他端部は、前記第五面にて開口し、ガス圧の検出を行う検出器を取り付け可能な検出口として機能することを特徴とする。 In addition to the configuration of the invention according to claim 4, the gas distribution device of the invention according to claim 5 of the present invention extends in the second direction and connects to one of the two second flow paths. A third flow path, which is a path, is further provided, one end of the third flow path is connected to the second flow path, and the other end of the third flow path is opened at the fifth surface. It is characterized in that it functions as a detection port to which a detector that detects gas pressure can be attached.

本発明の請求項６に係る発明のガス分配装置は、請求項４に記載の発明の構成に加え、前記第一方向に延び、２つの前記第二流路のうち一方に接続するガスの流路である第三流路を更に備え、前記第三流路の一端部は、前記第二流路に接続し、前記第三流路の他端部は、前記ハウジングにおいて前記第二面にて開口し、ガス圧の検出を行う検出器を取り付け可能な検出口として機能することを特徴とする。 In addition to the configuration of the invention according to claim 4, the gas distribution device of the invention according to claim 6 of the present invention extends in the first direction and connects to one of the two second flow paths. A third flow path, which is a path, is further provided, one end of the third flow path is connected to the second flow path, and the other end of the third flow path is on the second surface of the housing. It is characterized in that it functions as a detection port to which a detector that opens and detects gas pressure can be attached.

本発明の請求項７に係る発明のガスコンロは、筐体内に、被調理物を収納するグリル庫と、前記グリル庫内に収容する被調理物を加熱する上火バーナ及び下火バーナと、請求項１から６のいずれかに記載のガス分配装置と、外部から取り込んだガスの圧力を調圧し、前記ガス分配装置に供給するガスガバナと、前記ガス分配装置の２つの前記接続口と、前記上火バーナ及び前記下火バーナとを夫々接続する２つのガス管とを備えたことを特徴とする。 The gas stove of the invention according to claim 7 of the present invention includes a grill storage for storing food to be cooked in a housing, an upper heat burner and a lower heat burner for heating the food to be cooked in the grill storage, and the like. The gas distribution device according to any one of Items 1 to 6, a gas governor that regulates the pressure of gas taken in from the outside and supplies the gas to the gas distribution device, two connection ports of the gas distribution device, and the above. It is characterized by being provided with two gas pipes for connecting the fire burner and the lower heat burner, respectively.

本発明の請求項１に係る発明のガス分配装置によれば、ガス分配装置のハウジングは、異なる方向を向く各面に、ガスガバナに接続する導入口、ガス管が接続する接続口、調整弁が取り付けられる調整口、ガスを分配する分配室が夫々設けられる。ガバナ装置に必要な構成要素をガス分配装置に集約しつつも夫々をハウジングの各面に配置したことで、ガス分配装置の小型化を図ることができる。 According to the gas distribution device of the invention according to claim 1 of the present invention, the housing of the gas distribution device has an introduction port for connecting to a gas governor, a connection port for connecting a gas pipe, and a regulating valve on each surface facing different directions. An adjustment port to be attached and a distribution chamber for distributing gas are provided respectively. By consolidating the components required for the governor device into the gas distributor and arranging each of them on each surface of the housing, the gas distributor can be miniaturized.

本発明の請求項２に係る発明のガス分配装置によれば、請求項１に記載の発明の効果に加え、ハウジングを直方体形状にすることで、より小さく形成することができる。そして、各流路が直交し、更に第一流路と第二流路は貫通するので、ハウジングを金型で成型する場合に各流路を形成するためのピンや中子等を抜きやすくでき、成型しやすい。 According to the gas distributor of the invention according to the second aspect of the present invention, in addition to the effect of the invention according to the first aspect, the housing can be made smaller by making the housing a rectangular parallelepiped shape. Since each flow path is orthogonal to each other and the first flow path and the second flow path penetrate through each other, it is possible to easily remove pins, cores, etc. for forming each flow path when the housing is molded with a mold. Easy to mold.

本発明の請求項３に係る発明のガス分配装置によれば、請求項１又は２に記載の発明の効果に加え、第二流路の接続口の周囲には、２つのガス管を夫々接続する上での相互干渉を避けるための接続しろが必要となる。よって、２つの第二流路を隣り合わせて配置する場合、接続しろのための間隙を離して配置することになる。そこで、２つの第二流路の間に第一流路を配置する構成にすれば、接続しろのための間隙が第一流路の配置にも使用できるので、ハウジングの小型化を図ることができる。 According to the gas distribution device of the invention according to claim 3, in addition to the effect of the invention according to claim 1 or 2, two gas pipes are connected around the connection port of the second flow path, respectively. A connection margin is required to avoid mutual interference. Therefore, when the two second flow paths are arranged next to each other, the gaps for the connection margins are separated from each other. Therefore, if the first flow path is arranged between the two second flow paths, the gap for the connection margin can also be used for the arrangement of the first flow path, so that the housing can be miniaturized.

本発明の請求項４に係る発明のガス分配装置によれば、請求項３に記載の発明の効果に加え、分配室は第二方向に延びるが、配置部は、分配室の開口部分の周囲に設けたので、分配室よりも第二方向に大きい。そして、配置部の一端部は、第五面よりも第二方向一方側に位置し、配置部の他端部は、第六面よりも第二方向他方側に位置する。言い換えると、第五面と第六面は、第二方向における配置部の両側の端部よりも、夫々分配室側に位置する。すなわち第五面は、２つの第二流路の一方に対し、より近い位置に位置することができ、第六面は、他方の第二流路に対し、より近い位置に位置することができる。よって、ハウジングの構成材料の使用量を減らすことができるので、ガス分配装置の小型化を図ることができる。 According to the gas distribution device of the invention according to claim 4 of the present invention, in addition to the effect of the invention according to claim 3, the distribution chamber extends in the second direction, but the arrangement portion is around the opening portion of the distribution chamber. Since it is installed in, it is larger in the second direction than the distribution room. Then, one end of the arrangement portion is located on one side in the second direction from the fifth surface, and the other end portion of the arrangement portion is located on the other side in the second direction from the sixth surface. In other words, the fifth and sixth surfaces are located closer to the distribution chamber than the ends on both sides of the arrangement in the second direction. That is, the fifth surface can be located closer to one of the two second channels, and the sixth surface can be located closer to the other second channel. .. Therefore, since the amount of the constituent material of the housing can be reduced, the size of the gas distributor can be reduced.

本発明の請求項５に係る発明のガス分配装置によれば、請求項４に記載の発明の効果に加え、ガス分配装置のハウジングには、更に、第五面に、検出器を取付可能な検出口が設けられる。ガバナ装置に必要な構成要素をガス分配装置に集約しつつも夫々をハウジングの各面に配置したことで、ガス分配装置の小型化を図ることができる。 According to the gas distribution device of the invention according to the fifth aspect of the present invention, in addition to the effect of the invention according to the fourth aspect, a detector can be further attached to the housing of the gas distribution device on the fifth surface. A detection port is provided. By consolidating the components required for the governor device into the gas distributor and arranging each of them on each surface of the housing, the gas distributor can be miniaturized.

本発明の請求項６に係る発明のガス分配装置によれば、請求項４に記載の発明の効果に加え、ガス分配装置のハウジングには、第二面に更に、検出器を取付可能な検出口が設けられる。ガバナ装置に必要な構成要素をガス分配装置に集約しつつも夫々をハウジングの各面に配置したことで、ガス分配装置の小型化を図ることができる。 According to the gas distribution device of the invention according to the sixth aspect of the present invention, in addition to the effect of the invention according to the fourth aspect, a detector can be further attached to the housing of the gas distribution device on the second surface. A mouth is provided. By consolidating the components required for the governor device into the gas distributor and arranging each of them on each surface of the housing, the gas distributor can be miniaturized.

本発明の請求項７に係る発明のガスコンロによれば、ガス分配装置の小型化を図ることにより、ガスコンロは、筐体内における配置レイアウトの自由度を確保することができる。 According to the gas stove of the invention according to claim 7 of the present invention, the gas stove can secure the degree of freedom of the arrangement layout in the housing by downsizing the gas distribution device.

なお、本発明は、請求項１から７の夫々の発明特定事項を任意に組み合わせてもよい。 The present invention may arbitrarily combine the matters specifying the invention according to claims 1 to 7.

ガスコンロ１の斜視図である。It is a perspective view of the gas stove 1. 天板３、コンロバーナ等を省略したガスコンロ１の平面図である。It is a top view of the gas stove 1 which omitted the top plate 3, the stove burner and the like. 図２のＩ−Ｉ線で矢視方向から見たガスコンロ１の断面図である。It is sectional drawing of the gas stove 1 seen from the arrow view direction by the line I-I of FIG. ガバナ装置１００の分解斜視図である。It is an exploded perspective view of the governor device 100. 基体１３０を後方右上方から見た斜視断面図である。It is a perspective sectional view of the substrate 130 viewed from the rear right upper side. 基体２３０（変形例）を後方右上方から見た斜視断面図である。It is a perspective sectional view of the substrate 230 (deformed example) seen from the rear right upper side.

以下、本発明の実施形態を説明する。以下に記載される装置の構造は、特定的な記載がない限り、それのみに限定する趣旨ではなく、単なる説明例である。図面は、本発明が採用しうる技術的特徴を説明するために用いられるものである。以下説明は、図中に矢印で示す左右、前後、上下を使用する。 Hereinafter, embodiments of the present invention will be described. Unless otherwise specified, the structure of the device described below is not intended to be limited thereto, but is merely an example of explanation. The drawings are used to illustrate the technical features that can be adopted by the present invention. In the following description, the left and right, front and back, and top and bottom indicated by arrows in the figure are used.

図１〜図３を参照し、ガスコンロ１について説明する。ガスコンロ１は、ビルトインタイプのコンロである。ガスコンロ１は筐体２と天板３を備える。筐体２は、筐体２の右側壁、左側壁、前側壁、後側壁及び底壁を構成する右壁部２１、左壁部２２、前壁部２３、後壁部２４及び底壁部２０を備え、上部が開口する略直方体状に形成される。天板３は、筐体２の開口部を覆う略矩形の板状を呈する。天板３において、右手前には右バーナ４、左手前には左バーナ５、中央奥側には奥バーナ６が設けられる。筐体２の内側の左右方向における略中央部には、箱状のグリル庫３１が設置される。天板３の後方部には、グリル庫３１の排気口７が設けられる。 The gas stove 1 will be described with reference to FIGS. 1 to 3. The gas stove 1 is a built-in type stove. The gas stove 1 includes a housing 2 and a top plate 3. The housing 2 includes a right wall portion 21, a left wall portion 22, a front wall portion 23, a rear wall portion 24, and a bottom wall portion 20 constituting the right side wall, the left side wall, the front side wall, the rear side wall, and the bottom wall of the housing 2. It is formed in a substantially rectangular parallelepiped shape with an opening at the top. The top plate 3 has a substantially rectangular plate shape that covers the opening of the housing 2. In the top plate 3, a right burner 4 is provided on the front right side, a left burner 5 is provided on the front left side, and a back burner 6 is provided on the back side of the center. A box-shaped grill storage 31 is installed at a substantially central portion inside the housing 2 in the left-right direction. An exhaust port 7 of the grill storage 31 is provided at the rear portion of the top plate 3.

ガスコンロ１の前面の略中央には、グリル扉８が設けられる。グリル扉８は、グリル庫３１の前側開口部分を開閉する。グリル扉８の右側の領域には、正面視円形状の２つの操作つまみ１１、１２が横方向に並んで設けられる。グリル扉８の左側の領域には、操作つまみ１１、１２と同じ高さ位置に、同一形状の２つの操作つまみ１３、１４が横方向に並んで設けられる。操作つまみ１１〜１４の夫々は、右バーナ４、グリル庫３１内の上火バーナ３２及び下火バーナ３３、奥バーナ６、左バーナ５の点火、消火及び火力調節を行う為に操作される。以下では、上火バーナ３２及び下火バーナ３３を総称してグリルバーナという。また、右バーナ４、左バーナ５及び奥バーナ６を総称してコンロバーナという。操作つまみ１１〜１４は夫々、燃料供給装置５１〜５４の前端部に取り付けられる。 A grill door 8 is provided at substantially the center of the front surface of the gas stove 1. The grill door 8 opens and closes the front opening portion of the grill storage 31. In the area on the right side of the grill door 8, two operation knobs 11 and 12 having a circular front view are provided side by side in the horizontal direction. In the area on the left side of the grill door 8, two operation knobs 13 and 14 having the same shape are provided side by side at the same height position as the operation knobs 11 and 12. Each of the operation knobs 11 to 14 is operated to ignite, extinguish, and adjust the fire power of the right burner 4, the upper fire burner 32 and the lower fire burner 33, the back burner 6, and the left burner 5 in the grill storage 31. In the following, the upper heat burner 32 and the lower heat burner 33 are collectively referred to as a grill burner. Further, the right burner 4, the left burner 5, and the back burner 6 are collectively referred to as a stove burner. The operation knobs 11 to 14 are attached to the front ends of the fuel supply devices 51 to 54, respectively.

図３を参照し、燃料供給装置５２について説明する。ガスコンロ１は、右バーナ４、グリルバーナ（上火バーナ３２、下火バーナ３３）、左バーナ５、奥バーナ６の夫々にガスを供給する４つの燃料供給装置５１〜５４を備える。そのうち、右バーナ４、左バーナ５、奥バーナ６にガスを供給する燃料供給装置５１、５３、５４は、操作つまみ１１、１３、１４の押し込み操作と回動操作に応じ、コンロバーナの点火と消火、及びコンロバーナに供給するガス量を調節する。グリルバーナにガスを供給する燃料供給装置５２は、燃料供給装置５１、５３、５４と同様に操作つまみ１２の押し込み操作に応じてグリルバーナの点火と消火を行うが、ガス量の調節は行わない。なお、ガス量の調節は、別体に設けたガバナ装置１００が行う。ガバナ装置１００は、操作つまみ１２の回転位置によって、ガバナ装置１００に設けた電磁弁１７１，１７２を夫々個別に駆動し、上火バーナ３２と下火バーナ３３の強火及び弱火の組合せを切り替えることができる。燃料供給装置５１、５２は、筐体２内でグリル庫３１の右側面３１Ａと、筐体２の右壁部２１内面との間に形成される隙間領域Ｇ１に配置される。燃料供給装置５１、５２は、筐体２内でグリル庫３１の左側面３１Ｂと、筐体２の左壁部２２内面との間に形成される隙間領域Ｇ２に配置される。以下では、グリルバーナにガスを供給する燃料供給装置５２について説明を行い、右バーナ４、左バーナ５、奥バーナ６にガスを供給する燃料供給装置５１、５３、５４については説明を省略する。 The fuel supply device 52 will be described with reference to FIG. The gas stove 1 includes four fuel supply devices 51 to 54 that supply gas to each of the right burner 4, the grill burner (upper fire burner 32, lower fire burner 33), the left burner 5, and the back burner 6. Among them, the fuel supply devices 51, 53, and 54 that supply gas to the right burner 4, the left burner 5, and the back burner 6 ignite the stove burner in response to the pushing operation and the rotating operation of the operation knobs 11, 13, and 14. Extinguish the fire and adjust the amount of gas supplied to the stove burner. Like the fuel supply devices 51, 53, and 54, the fuel supply device 52 that supplies gas to the grill burner ignites and extinguishes the grill burner according to the pushing operation of the operation knob 12, but does not adjust the amount of gas. The amount of gas is adjusted by the governor device 100 provided separately. The governor device 100 individually drives the solenoid valves 171 and 172 provided in the governor device 100 according to the rotation position of the operation knob 12, and can switch the combination of high heat and low heat of the upper heat burner 32 and the lower heat burner 33. it can. The fuel supply devices 51 and 52 are arranged in the gap region G1 formed in the housing 2 between the right side surface 31A of the grill storage 31 and the inner surface of the right wall portion 21 of the housing 2. The fuel supply devices 51 and 52 are arranged in the gap region G2 formed in the housing 2 between the left side surface 31B of the grill storage 31 and the inner surface of the left wall portion 22 of the housing 2. Hereinafter, the fuel supply device 52 for supplying gas to the grill burner will be described, and the description of the fuel supply devices 51, 53, 54 for supplying gas to the right burner 4, the left burner 5, and the back burner 6 will be omitted.

燃料供給装置５２は、操作つまみ１２の押し込み操作に応じ、グリルバーナの点火と消火を行う。燃料供給装置５２は、操作つまみ１２の操作に応じて動作する合成樹脂製で円筒状の前側本体５２Ａと、内部のガス流路にメイン弁６１及び安全弁６２を備える金属製で円筒状の後側本体５２Ｂとを備える。前側本体５２Ａの内部には、操作つまみ１２の押し込み操作によって前後に移動するスライダ６３が設けられる。スライダ６３は、メイン弁６１を開閉させる。安全弁６２は、後側本体５２Ｂのガス流路を閉じる閉状態に弾性付勢された電磁操作式の弁である。後側本体５２Ｂの下部には、ガス供給管６６が接続される接続部６４が設けられ、この接続部６４を介し、ガス供給管６６から後側本体５２Ｂのガス流路に向けてガスが導入される。後側本体５２Ｂの上部には、ガス流路を流れたガスが流出する流出口６５が設けられる。なお、メイン弁６１及び安全弁６２は周知のものであるので、これらの詳細な動作の説明を省略する。 The fuel supply device 52 ignites and extinguishes the grill burner in response to the pushing operation of the operation knob 12. The fuel supply device 52 is made of synthetic resin and has a cylindrical front main body 52A that operates in response to the operation of the operation knob 12, and a metal cylindrical rear side having a main valve 61 and a safety valve 62 in the internal gas flow path. It has a main body 52B. Inside the front main body 52A, a slider 63 that moves back and forth by pushing the operation knob 12 is provided. The slider 63 opens and closes the main valve 61. The safety valve 62 is an electromagnetically operated valve that is elastically urged to close the gas flow path of the rear main body 52B. A connecting portion 64 to which the gas supply pipe 66 is connected is provided in the lower part of the rear main body 52B, and gas is introduced from the gas supply pipe 66 toward the gas flow path of the rear main body 52B via the connecting portion 64. Will be done. An outflow port 65 through which the gas flowing through the gas flow path flows out is provided on the upper portion of the rear main body 52B. Since the main valve 61 and the safety valve 62 are well known, detailed description of their operation will be omitted.

図３〜図５を参照し、ガバナ装置１００について説明する。ガバナ装置１００は、筐体２内の隙間領域Ｇ１に配置される。ガバナ装置１００は燃料供給装置５２に連結し、燃料供給装置５２から供給されるガス圧を調整することにより、安定したガス圧で、ガスをグリルバーナへ供給するための装置である。本実施形態のガバナ装置１００は燃料供給装置５２の上側に配置され、後側本体５２Ｂの流出口６５から流出するガスを内部に導入し、導入したガスを調圧してグリルバーナに供給する。 The governor device 100 will be described with reference to FIGS. 3 to 5. The governor device 100 is arranged in the gap region G1 in the housing 2. The governor device 100 is a device for supplying gas to the grill burner at a stable gas pressure by connecting to the fuel supply device 52 and adjusting the gas pressure supplied from the fuel supply device 52. The governor device 100 of the present embodiment is arranged above the fuel supply device 52, introduces the gas flowing out from the outlet 65 of the rear main body 52B into the inside, adjusts the pressure of the introduced gas, and supplies the introduced gas to the grill burner.

ガバナ装置１００は、ガスガバナ１１０とガス分配装置１２０を一体に設けた装置である。ガスガバナ１１０は、燃料供給装置５２から供給されるガスの供給圧を調圧する。ガス分配装置１２０は、ガスガバナ１１０が調圧したガスの流量を電磁弁１７１，１７２によって切り替え、上火バーナ３２及び下火バーナ３３の夫々に分配して供給する。 The governor device 100 is a device in which a gas governor 110 and a gas distribution device 120 are integrally provided. The gas governor 110 regulates the supply pressure of the gas supplied from the fuel supply device 52. The gas distribution device 120 switches the flow rate of the gas regulated by the gas governor 110 by the solenoid valves 171 and 172, and distributes and supplies the gas to the upper heat burner 32 and the lower heat burner 33, respectively.

ガスガバナ１１０は公知であるので詳細な説明は省略するが、内部に調圧バネ１１１、弁体１１２、ダイヤフラム１１３、圧力室１１４等を備える。弁体１１２は、調圧バネ１１１の付勢により、弁を開く向きに押圧される。ダイヤフラム１１３は、弁体１１２の軸部に連結する。燃料供給装置５２の流出口６５から供給されるガスは、流出口６５に接続する流入口１１５から圧力室１１４内に流入する。ダイヤフラム１１３は、圧力室１１４内のガス圧が高くなるに従い、バネ圧に抗して弁を閉じる向きに弁体１１２を動かす。ガスガバナ１１０は、流入口１１５のガス圧が変化しても、流出口１１６からガス分配装置１２０へ送出するガス圧が略一定となるように、圧力室１１４内のガス圧を調圧する。 Since the gas governor 110 is known, detailed description thereof will be omitted, but a pressure regulating spring 111, a valve body 112, a diaphragm 113, a pressure chamber 114, and the like are provided therein. The valve body 112 is pressed in the direction of opening the valve by the urging of the pressure adjusting spring 111. The diaphragm 113 is connected to the shaft portion of the valve body 112. The gas supplied from the outflow port 65 of the fuel supply device 52 flows into the pressure chamber 114 from the inflow port 115 connected to the outflow port 65. The diaphragm 113 moves the valve body 112 in the direction of closing the valve against the spring pressure as the gas pressure in the pressure chamber 114 increases. The gas governor 110 regulates the gas pressure in the pressure chamber 114 so that the gas pressure sent from the outflow port 116 to the gas distribution device 120 becomes substantially constant even if the gas pressure at the inflow port 115 changes.

ガス分配装置１２０は、基体１３０に、電磁弁１７１，１７２、ニードル弁１６１，１６２等を組み付けて形成される。基体１３０は、溶融した金属（例えばアルミニウム又はアルミニウム合金）を上下方向に分割される金型に圧入して成型した、いわゆるダイカストである。基体１３０の内部には、ガスが流れる複数の流路が形成されている。なお、図５において、基体１３０内を流通するガスの流れを太線（実線又は点線）で示し、ガスが流れる向きを矢印で示す。 The gas distribution device 120 is formed by assembling solenoid valves 171 and 172, needle valves 161, 162 and the like on the base 130. The substrate 130 is a so-called die cast formed by press-fitting a molten metal (for example, aluminum or an aluminum alloy) into a mold divided in the vertical direction. A plurality of flow paths through which gas flows are formed inside the substrate 130. In FIG. 5, the flow of gas flowing through the substrate 130 is indicated by a thick line (solid line or dotted line), and the direction of gas flow is indicated by an arrow.

主流路１４１は基体１３０の略中心部を前後方向に延びる。主流路１４１の前端部は、基体１３０の前方を向く前面１３１に開口する。基体１３０の前面１３１は、固定部１３７に形成される。固定部１３７は左右方向に長い板状を呈し、左右両端部に、ガスガバナ１１０とガス分配装置１２０とを締結する固定ネジ１１７のネジ穴が設けられる。主流路１４１の前端部は、ガスガバナ１１０の流出口１１６から送出されるガスをガス分配装置１２０内に導入する導入口１５１として機能する。導入口１５１は前面１３１において前方に突出し、且つその周囲が前面１３１において環状に凹部形成されている。ガスガバナ１１０とガス分配装置１２０の固定時、導入口１５１にはＯリング１１８が配設され、接続部分におけるガス漏れが防止される。 The main flow path 141 extends substantially in the center of the substrate 130 in the front-rear direction. The front end portion of the main flow path 141 opens to the front surface 131 facing the front of the substrate 130. The front surface 131 of the substrate 130 is formed on the fixing portion 137. The fixing portion 137 has a long plate shape in the left-right direction, and screw holes for fixing screws 117 for fastening the gas governor 110 and the gas distribution device 120 are provided at both left and right ends. The front end portion of the main flow path 141 functions as an introduction port 151 for introducing the gas sent from the outlet 116 of the gas governor 110 into the gas distribution device 120. The introduction port 151 projects forward on the front surface 131, and the periphery thereof is formed in an annular recess on the front surface 131. When the gas governor 110 and the gas distribution device 120 are fixed, an O-ring 118 is provided at the introduction port 151 to prevent gas leakage at the connection portion.

基体１３０の後部には、上下方向に延びる溝状の分配室１４２が設けられる。分配室１４２は、基体１３０の後方を向く後面１３２において上下方向に延びる長円形状に開口し、前方へ向けて凹む凹部状に形成される。分配室１４２内には電磁弁１７１，１７２の弁体１７３，１７４（後述）が配置される。主流路１４１の後端部は、分配室１４２の底部略中央に開口する。 At the rear of the substrate 130, a groove-shaped distribution chamber 142 extending in the vertical direction is provided. The distribution chamber 142 is formed in a concave shape that opens in an oval shape extending in the vertical direction on the rear surface 132 facing the rear of the substrate 130 and is recessed toward the front. Valve bodies 173 and 174 (described later) of solenoid valves 171 and 172 are arranged in the distribution chamber 142. The rear end of the main flow path 141 opens substantially in the center of the bottom of the distribution chamber 142.

上流路１４３は基体１３０内で主流路１４１の上方に形成され、左右方向に延びる。上流路１４３の右端部は、基体１３０の右方を向く右面１３４に開口し、開口部分が上火供給口１５３として機能する。上火供給口１５３は右面１３４において円形の凹部状に形成され、底部中央に、上流路１４３の主部分に連通する穴部が開口する。上火供給口１５３には、グリルバーナのうちの上火バーナ３２にガスを輸送する上火ガス管３５の上流端部３５Ａが挿入される。上火ガス管３５の上流端部３５Ａと、下火ガス管３６の上流端部３６Ａ（後述）は、基体１３０の右面１３４に抜け防止のための保持金具１３９が嵌められ、固定ネジ１４０で基体１３０に固定されることによって、基体１３０から抜け止めされる。上流路１４３の左端部は、基体１３０の左方を向く左面１３３に開口する。上流路１４３の左端部は、分配室１４２から上流路１４３に流入するガスの流量を調整するニードル弁１６１が組み付けられる上火調整部１５５として機能する。上火調整部１５５の内径は、ニードル弁１６１の外径に合わせ、上流路１４３の主部分よりも大きい。 The upper flow path 143 is formed in the substrate 130 above the main flow path 141 and extends in the left-right direction. The right end portion of the upper flow path 143 opens to the right surface 134 facing the right side of the base 130, and the opening portion functions as the upper fire supply port 153. The upper fire supply port 153 is formed in a circular concave shape on the right surface 134, and a hole communicating with the main portion of the upper flow path 143 is opened in the center of the bottom portion. An upstream end portion 35A of the upper fire gas pipe 35 for transporting gas to the upper fire burner 32 of the grill burners is inserted into the upper fire supply port 153. At the upstream end 35A of the upper fire gas pipe 35 and the upstream end 36A (described later) of the lower fire gas pipe 36, a holding metal fitting 139 for preventing disconnection is fitted to the right side 134 of the base 130, and the base is fixed with a fixing screw 140. By being fixed to 130, it is prevented from coming off from the substrate 130. The left end of the upper flow path 143 opens to the left surface 133 facing the left side of the substrate 130. The left end of the upper flow path 143 functions as an upper fire adjusting portion 155 to which the needle valve 161 for adjusting the flow rate of the gas flowing from the distribution chamber 142 into the upper flow path 143 is assembled. The inner diameter of the upper fire adjusting portion 155 matches the outer diameter of the needle valve 161 and is larger than the main portion of the upper flow path 143.

上火開閉路１４５は基体１３０内で前後方向に延び、分配室１４２と上流路１４３の主部分とを接続する。上火開閉路１４５の後端部は、分配室１４２の底部において、主流路１４１の開口よりも上方の位置に開口する。分配室１４２内の上火開閉路１４５の開口は、電磁弁１７１の弁体１７３によって開閉される。上火バイパス路１４７は基体１３０内で前後方向に延び、分配室１４２と上火調整部１５５とを接続する。上火バイパス路１４７の後端部は、分配室１４２の底部において、上火開閉路１４５の開口よりも左方の位置に開口する。分配室１４２内の上火バイパス路１４７の開口は、常時開いた状態である。 The upper fire switching path 145 extends in the front-rear direction in the substrate 130 and connects the distribution chamber 142 and the main portion of the upper flow path 143. The rear end of the upper fire switching path 145 opens at the bottom of the distribution chamber 142 at a position above the opening of the main flow path 141. The opening of the upper fire switching path 145 in the distribution chamber 142 is opened and closed by the valve body 173 of the solenoid valve 171. The upper fire bypass path 147 extends in the front-rear direction in the base 130 and connects the distribution chamber 142 and the upper fire adjustment unit 155. The rear end of the upper fire bypass path 147 opens at the bottom of the distribution chamber 142 at a position to the left of the opening of the upper fire switching path 145. The opening of the upper fire bypass path 147 in the distribution chamber 142 is always open.

上火調整部１５５には、基体１３０の左面１３３側よりニードル弁１６１が挿入される。ニードル弁１６１は左右方向に長く、側面の横穴と右面の縦穴が内部で連通する。ニードル弁１６１の横穴は上火バイパス路１４７の前端部の開口に向き合って配置され、縦穴は上流路１４３内に開口する。分配室１４２から上火バイパス路１４７を通り上火調整部１５５内に流れるガスは、横穴と縦穴を通り、上流路１４３に流通する。ニードル弁１６１は、上火バイパス路１４７から上流路１４３に流通するガスを遮断しないが、小径に形成された縦穴によってガスの流量を制限する。ニードル弁１６１は、基体１３０の左面１３３に締結される押えネジ１６３によって上火調整部１５５内に保持される。また、ニードル弁１６１には２つのＯリングが設けられており、上火調整部１５５においてニードル弁１６１を介さないガスの流通が防止される。 The needle valve 161 is inserted into the top heat adjusting portion 155 from the left side 133 side of the base 130. The needle valve 161 is long in the left-right direction, and the horizontal hole on the side surface and the vertical hole on the right side communicate internally. The horizontal hole of the needle valve 161 is arranged so as to face the opening at the front end of the upper fire bypass path 147, and the vertical hole opens in the upper flow path 143. The gas flowing from the distribution chamber 142 through the upper heat bypass path 147 and into the upper fire adjusting unit 155 passes through the horizontal hole and the vertical hole and flows to the upper flow path 143. The needle valve 161 does not block the gas flowing from the upper fire bypass path 147 to the upper flow path 143, but limits the gas flow rate by a vertical hole formed in a small diameter. The needle valve 161 is held in the top heat adjusting portion 155 by a pressing screw 163 fastened to the left surface 133 of the base 130. Further, the needle valve 161 is provided with two O-rings, and the upper fire adjusting unit 155 prevents the flow of gas without passing through the needle valve 161.

下流路１４４は基体１３０内で主流路１４１の下方に形成され、左右方向に延びる。下流路１４４の右端部は、基体１３０の右面１３４に開口し、開口部分が下火供給口１５４として機能する。下火供給口１５４は、上火供給口１５３の下方に設けられる。下火供給口１５４は右面１３４において円形の凹部状に形成され、底部中央に、下火供給口１５４の主部分に連通する穴部が開口する。下火供給口１５４には、グリルバーナのうちの下火バーナ３３にガスを輸送する下火ガス管３６の上流端部３６Ａが挿入される。下流路１４４の左端部は、基体１３０の左面１３３に開口する。下流路１４４の左端部は、分配室１４２から下流路１４４に流入するガスの流量を調整するニードル弁１６２が組み付けられる下火調整部１５６として機能する。下火調整部１５６の内径は、ニードル弁１６２の外径に合わせ、下流路１４４の主部分よりも大きい。 The lower flow path 144 is formed in the substrate 130 below the main flow path 141 and extends in the left-right direction. The right end portion of the lower flow path 144 opens to the right surface 134 of the base 130, and the opening portion functions as the lower fire supply port 154. The lower fire supply port 154 is provided below the upper fire supply port 153. The lower fire supply port 154 is formed in a circular concave shape on the right surface 134, and a hole communicating with the main portion of the lower fire supply port 154 opens in the center of the bottom portion. An upstream end portion 36A of the lower heat gas pipe 36 for transporting gas to the lower heat burner 33 of the grill burners is inserted into the lower heat supply port 154. The left end of the lower flow path 144 opens to the left surface 133 of the substrate 130. The left end of the lower flow path 144 functions as a lower heat adjusting portion 156 to which a needle valve 162 for adjusting the flow rate of the gas flowing from the distribution chamber 142 into the lower flow path 144 is assembled. The inner diameter of the lower heat adjusting portion 156 matches the outer diameter of the needle valve 162 and is larger than the main portion of the lower flow path 144.

このように、上流路１４３と下流路１４４は、基体１３０内において主流路１４１に直交し、且つ主流路１４１を挟んで上側と下側に形成される。上流路１４３と下流路１４４は、夫々、上火ガス管３５と下火ガス管３６が接続される上火供給口１５３と下火供給口１５４を有する。上火供給口１５３と下火供給口１５４は、基体１３０の右面１３４において上下方向に並んで配置される。上火ガス管３５と下火ガス管３６の夫々を基体１３０に接続する上で、右面１３４には相互干渉を避けるための接続しろが必要となる。上流路１４３と下流路１４４の間に主流路１４１を配置する構成にしたことで、基体１３０は、上流路１４３と下流路１４４との間に設けられた間隙を、上火供給口１５３と下火供給口１５４の周囲に設ける接続しろに利用することができる。 As described above, the upper flow path 143 and the lower flow path 144 are formed in the substrate 130 at right angles to the main flow path 141 and on the upper side and the lower side with the main flow path 141 interposed therebetween. The upper flow path 143 and the lower flow path 144 each have an upper fire supply port 153 and a lower fire supply port 154 to which the upper fire gas pipe 35 and the lower fire gas pipe 36 are connected. The upper fire supply port 153 and the lower fire supply port 154 are arranged side by side in the vertical direction on the right side 134 of the base 130. In connecting each of the upper heat gas pipe 35 and the lower heat gas pipe 36 to the substrate 130, a connection margin is required on the right side 134 to avoid mutual interference. By arranging the main flow path 141 between the upper flow path 143 and the lower flow path 144, the substrate 130 fills the gap provided between the upper flow path 143 and the lower flow path 144 with the upper fire supply port 153 and lower. It can be used as a connection margin provided around the fire supply port 154.

下火開閉路１４６は基体１３０内で前後方向に延び、分配室１４２と下流路１４４の主部分とを接続する。下火開閉路１４６の後端部は、分配室１４２の底部において、主流路１４１の開口よりも下方の位置に開口する。分配室１４２内の下火開閉路１４６の開口は、電磁弁１７２の弁体１７４によって開閉される。下火バイパス路１４８は基体１３０内で前後方向に延び、分配室１４２と下火調整部１５６とを接続する。下火バイパス路１４８の後端部は、分配室１４２の底部において、下火開閉路１４６の開口よりも左方の位置に開口する。分配室１４２内の下火バイパス路１４８の開口は、常時開いた状態である。 The lower fire switching path 146 extends in the front-rear direction in the base 130 and connects the distribution chamber 142 and the main portion of the lower flow path 144. The rear end of the lower fire switching path 146 opens at the bottom of the distribution chamber 142 at a position below the opening of the main flow path 141. The opening of the lower fire switching path 146 in the distribution chamber 142 is opened and closed by the valve body 174 of the solenoid valve 172. The lower heat bypass path 148 extends in the front-rear direction in the base 130 and connects the distribution chamber 142 and the lower heat adjustment unit 156. The rear end of the lower fire bypass path 148 opens at the bottom of the distribution chamber 142 at a position to the left of the opening of the lower fire switching path 146. The opening of the lower fire bypass path 148 in the distribution chamber 142 is always open.

下火調整部１５６には、基体１３０の左面１３３側よりニードル弁１６２が挿入される。ニードル弁１６２は左右方向に長く、側面の横穴と右面の縦穴が内部で連通する。ニードル弁１６２の横穴は下火バイパス路１４８の前端部の開口に向き合って配置され、縦穴は下流路１４４内に開口する。分配室１４２から下火バイパス路１４８を通り下火調整部１５６内に流れるガスは、横穴と縦穴を通り、下流路１４４に流通する。ニードル弁１６２は、下火バイパス路１４８から下流路１４４に流通するガスを遮断しないが、小径に形成された縦穴によってガスの流量を制限する。ニードル弁１６２は、基体１３０の左面１３３に締結される押えネジ１６４によって下火調整部１５６内に保持される。また、ニードル弁１６２には２つのＯリングが設けられており、下火調整部１５６においてニードル弁１６２を介さないガスの流通が防止される。 The needle valve 162 is inserted into the lower heat adjusting portion 156 from the left side 133 side of the base 130. The needle valve 162 is long in the left-right direction, and the horizontal hole on the side surface and the vertical hole on the right side communicate internally. The horizontal hole of the needle valve 162 is arranged so as to face the opening at the front end of the lower fire bypass path 148, and the vertical hole opens in the lower flow path 144. The gas flowing from the distribution chamber 142 through the lower heat bypass path 148 and into the lower heat adjustment unit 156 passes through the horizontal hole and the vertical hole and flows to the lower flow path 144. The needle valve 162 does not shut off the gas flowing from the lower heat bypass path 148 to the lower flow path 144, but limits the gas flow rate by a vertical hole formed in a small diameter. The needle valve 162 is held in the lower heat adjusting portion 156 by a pressing screw 164 fastened to the left surface 133 of the base 130. Further, the needle valve 162 is provided with two O-rings, and the lower heat adjusting unit 156 prevents the flow of gas without passing through the needle valve 162.

検出路１４９は基体１３０内で上下方向に延び、下端部が上流路１４３の主部分に接続する。検出路１４９の上端部は、基体１３０の上方を向く上面１３５において開口し、開口部分の周囲が上方へ向けて筒状に突出する。検出路１４９の上端部は、ガスコンロ１の製造時やメンテナンス時に用いられ、ガス圧を検出する検出器（図示略）を取付可能な検出口１５７として機能し、普段はガスケット（図示略）と封止ネジ１３８により封止される。なお、基体１３０の下方を向く下面１３６において、各流路は開口しない。 The detection path 149 extends in the vertical direction in the substrate 130, and the lower end portion connects to the main portion of the upper flow path 143. The upper end of the detection path 149 opens at the upper surface 135 facing upward of the substrate 130, and the periphery of the opening portion protrudes upward in a tubular shape. The upper end of the detection path 149 is used during manufacturing and maintenance of the gas stove 1 and functions as a detection port 157 to which a detector (not shown) for detecting gas pressure can be attached, and is usually sealed with a gasket (not shown). It is sealed with a set screw 138. In addition, each flow path does not open on the lower surface 136 facing downward of the substrate 130.

電磁弁１７１、１７２は固定金具１７５に一体に保持される。固定金具１７５は平板状を呈し、背面側に固定する電磁弁１７１，１７２の弁体１７３，１７４を、２つの貫通穴を介して夫々前面に露出する。貫通穴はＯリング（図示略）等により封止される。固定金具１７５は基体１３０の後面１３２に対向して配置され、弁体１７３，１７４を分配室１４２内に配置した状態で、４本の固定ネジ１７７により基体１３０に固定される。基体１３０の後面１３２には、長円形を呈する円環状のパッキン１７６を配置するための配置部１５２が形成されている。配置部１５２は、後面１３２において、分配室１４２の開口部分の周囲を一周する長円形の溝状に形成される。分配室１４２の内面は、基体１３０を後方から見たときに、後面１３２の上端及び下端に近い位置に延びて形成される。故に配置部１５２の上側の円弧部分である上端部１５２Ａ及び下側の円弧部分である下端部１５２Ｂは、基体１３０の上面１３５及び下面１３６の夫々よりも、上方及び下方に突出する。言い換えると、基体１３０の上面１３５は、配置部１５２の上側の上端部１５２Ａよりも下方に位置し、基体１３０の下面１３６は、配置部１５２の下側の下端部１５２Ｂよりも上方に位置する。固定金具１７５は、配置部１５２に配置したパッキン１７６を基体１３０の後面１３２との間に挟むことで、分配室１４２の開口部分を密閉状態に蓋する。電磁弁１７１、１７２の弁体１７３，１７４は夫々、分配室１４２内で上火開閉路１４５、下火開閉路１４６の開口の後方に配置される。電磁弁１７１、１７２が駆動すると、弁体１７３，１７４は夫々、上火開閉路１４５、下火開閉路１４６の開口を閉鎖し、ガスの流路を夫々、上火バイパス路１４７、下火バイパス路１４８を介した流路に制限する。 The solenoid valves 171 and 172 are integrally held by the fixing bracket 175. The fixing bracket 175 has a flat plate shape, and the valve bodies 173 and 174 of the solenoid valves 171 and 172 fixed to the back surface side are exposed to the front surface through the two through holes, respectively. The through hole is sealed with an O-ring (not shown) or the like. The fixing bracket 175 is arranged so as to face the rear surface 132 of the base 130, and is fixed to the base 130 by four fixing screws 177 in a state where the valve bodies 173 and 174 are arranged in the distribution chamber 142. An arrangement portion 152 for arranging an annular packing 176 having an oval shape is formed on the rear surface 132 of the base 130. The arrangement portion 152 is formed on the rear surface 132 in the shape of an oval groove that goes around the opening portion of the distribution chamber 142. The inner surface of the distribution chamber 142 is formed so as to extend to positions close to the upper and lower ends of the rear surface 132 when the substrate 130 is viewed from the rear. Therefore, the upper end portion 152A, which is the upper arc portion of the arrangement portion 152, and the lower end portion 152B, which is the lower arc portion, project upward and downward from the upper surface 135 and the lower surface 136 of the base 130, respectively. In other words, the upper surface 135 of the base 130 is located below the upper upper end 152A of the placement portion 152, and the lower surface 136 of the base 130 is located above the lower end 152B below the placement portion 152. The fixing bracket 175 covers the opening portion of the distribution chamber 142 in a sealed state by sandwiching the packing 176 arranged in the arrangement portion 152 between the packing 176 and the rear surface 132 of the base 130. The valve bodies 173 and 174 of the solenoid valves 171 and 172 are arranged in the distribution chamber 142 behind the openings of the upper fire switching path 145 and the lower fire switching path 146, respectively. When the solenoid valves 171 and 172 are driven, the valve bodies 173 and 174 close the openings of the upper fire switching path 145 and the lower fire switching path 146, respectively, and pass the gas flow path through the upper fire bypass path 147 and the lower fire bypass, respectively. It is limited to the flow path via the road 148.

前述したように、本実施形態のガス分配装置１２０の基体１３０は、金型により成型されるダイカストである。主流路１４１は基体１３０の前面１３１にて開口し、導入口１５１を形成する。分配室１４２は基体１３０の後面１３２にて上下方向に延びて開口し、主流路１４１と接続する。この構成により、主流路１４１と分配室１４２は、基体１３０の前面１３１から後面１３２にかけて前後方向に貫通する直線的な流路として形成することができる。また、上流路１４３は、基体１３０の左面１３３に開口して上火調整部１５５を形成すると共に、基体１３０の右面１３４においても開口して上火供給口１５３を形成する。同様に、下流路１４４は、基体１３０の左面１３３に開口して下火調整部１５６を形成すると共に、基体１３０の右面１３４においても開口して下火供給口１５４を形成する。この構成により、上流路１４３と下流路１４４は、基体１３０の左面１３３から右面１３４にかけて左右方向に貫通する直線的な流路として形成することができる。主流路１４１、分配室１４２、上流路１４３、下流路１４４が上記のように基体１３０を前後方向及び左右方向に貫通して形成される関係にあるからこそ、基体１３０は、前面１３１、後面１３２、左面１３３、右面１３４の夫々に対し、ガスガバナ１１０との接続口、電磁弁１７１，１７２の配置部、ニードル弁１６１，１６２の配置部、上火ガス管３５、下火ガス管３６との接続口などの機能部分を効率よく配置でき、小型化を図ることができる。更に、上火開閉路１４５及び下火開閉路１４６と、上火バイパス路１４７及び下火バイパス路１４８は夫々、分配室１４２から前後方向に延び、上流路１４３及び下流路１４４に連結する構成である。故に基体１３０は、金型による成型において、各流路や機能部分をピンや中子等を用いて容易に形成することができ、更に型抜きも容易に行うことができる。 As described above, the base 130 of the gas distribution device 120 of the present embodiment is a die cast molded by a mold. The main flow path 141 opens at the front surface 131 of the substrate 130 to form the introduction port 151. The distribution chamber 142 extends in the vertical direction at the rear surface 132 of the substrate 130 and opens to connect with the main flow path 141. With this configuration, the main flow path 141 and the distribution chamber 142 can be formed as a linear flow path penetrating in the front-rear direction from the front surface 131 to the rear surface 132 of the substrate 130. Further, the upper flow path 143 opens to the left surface 133 of the base 130 to form the upper fire adjusting portion 155, and also opens to the right surface 134 of the base 130 to form the upper fire supply port 153. Similarly, the lower flow path 144 opens to the left surface 133 of the base 130 to form the lower fire adjusting portion 156, and also opens to the right side 134 of the base 130 to form the lower fire supply port 154. With this configuration, the upper flow path 143 and the lower flow path 144 can be formed as a linear flow path penetrating in the left-right direction from the left surface 133 to the right surface 134 of the substrate 130. The base 130 has a front surface 131 and a rear surface 132 because the main flow path 141, the distribution chamber 142, the upper flow path 143, and the lower flow path 144 are formed so as to penetrate the base 130 in the front-rear direction and the left-right direction as described above. , The connection port with the gas governor 110, the arrangement part of the solenoid valves 171 and 172, the arrangement part of the needle valves 161 and 162, the connection with the upper heat gas pipe 35 and the lower heat gas pipe 36 with respect to each of the left side 133 and the right side 134. Functional parts such as the mouth can be arranged efficiently, and miniaturization can be achieved. Further, the upper fire switching path 145 and the lower fire switching path 146, and the upper fire bypass path 147 and the lower fire bypass path 148 each extend in the front-rear direction from the distribution chamber 142 and are connected to the upper flow path 143 and the lower flow path 144. is there. Therefore, in the molding with a mold, each flow path and functional portion of the substrate 130 can be easily formed by using a pin, a core, or the like, and further, die cutting can be easily performed.

以上説明したように、ガス分配装置１２０の基体１３０は、異なる方向を向く各面に、ガスガバナ１１０に接続する導入口１５１、上火ガス管３５及び下火ガス管３６が接続する上火供給口１５３及び下火供給口１５４、ニードル弁１６１，１６２が取り付けられる上火調整部１５５及び下火調整部１５６、ガスを分配する分配室１４２が夫々設けられる。ガバナ装置１００に必要な構成要素をガス分配装置１２０に集約しつつも夫々を基体１３０の各面に配置したことで、ガス分配装置１２０の小型化を図ることができる。 As described above, the base 130 of the gas distribution device 120 has an introduction port 151 connected to the gas governor 110, an upper fire gas pipe 35 and a lower fire gas pipe 36 connected to each surface facing different directions. 153, a lower heat supply port 154, an upper heat adjusting unit 155 and a lower heat adjusting unit 156 to which needle valves 161, 162 are attached, and a distribution chamber 142 for distributing gas are provided, respectively. By consolidating the components required for the governor device 100 into the gas distributor 120 and arranging each of them on each surface of the substrate 130, the gas distributor 120 can be miniaturized.

基体１３０を直方体形状にすることで、より小さく形成することができる。そして、各流路が直交し、更に主流路１４１と上流路１４３及び下流路１４４は貫通するので、基体１３０を金型で成型する場合に各流路を形成するためのピンや中子等を抜きやすくでき、成型しやすい。 By forming the substrate 130 into a rectangular parallelepiped shape, it can be made smaller. Then, since each flow path is orthogonal to each other and further penetrates the main flow path 141, the upper flow path 143, and the lower flow path 144, pins, cores, and the like for forming each flow path are provided when the substrate 130 is molded with a mold. Easy to pull out and easy to mold.

上流路１４３及び下流路１４４の上火供給口１５３及び下火供給口１５４の周囲には、上火ガス管３５及び下火ガス管３６を夫々接続する上での相互干渉を避けるための接続しろが必要となる。よって、上流路１４３及び下流路１４４を隣り合わせて配置する場合、接続しろのための間隙を離して配置することになる。そこで、上流路１４３及び下流路１４４の間に主流路１４１を配置する構成にすれば、接続しろのための間隙が主流路１４１の配置にも使用できるので、基体１３０の小型化を図ることができる。 Connect around the upper fire supply port 153 and the lower fire supply port 154 of the upper flow path 143 and the lower flow path 144 to avoid mutual interference when connecting the upper fire gas pipe 35 and the lower fire gas pipe 36, respectively. Is required. Therefore, when the upper flow path 143 and the lower flow path 144 are arranged side by side, they are arranged with a gap for connection margin. Therefore, if the main flow path 141 is arranged between the upper flow path 143 and the lower flow path 144, the gap for the connection margin can be used for the arrangement of the main flow path 141, so that the size of the substrate 130 can be reduced. it can.

分配室１４２は上下方向に延びるが、配置部１５２は、分配室１４２の開口部分の周囲に設けたので、分配室１４２よりも上下方向に大きい。そして、配置部１５２の上端部１５２Ａは、上面１３５よりも上側に突出して設けられ、配置部１５２の下端部１５２Ｂは、下面１３６よりも下側に突出して設けられる。言い換えると、上面１３５と下面１３６は、上下方向において、配置部１５２の上端部１５２Ａと下端部１５２Ｂよりも、夫々分配室１４２側に位置する。すなわち上面１３５は上流路１４３に対し、より近い位置に位置することができ、下面１３６は下流路１４４に対し、より近い位置に位置することができる。よって、基体１３０の構成材料の使用量を減らすことができるので、ガス分配装置１２０の小型化を図ることができる。 The distribution chamber 142 extends in the vertical direction, but since the arrangement portion 152 is provided around the opening portion of the distribution chamber 142, it is larger in the vertical direction than the distribution chamber 142. The upper end portion 152A of the arrangement portion 152 is provided so as to project upward from the upper surface 135, and the lower end portion 152B of the arrangement portion 152 is provided so as to project below the lower surface 136. In other words, the upper surface 135 and the lower surface 136 are located closer to the distribution chamber 142 than the upper end 152A and the lower end 152B of the arrangement portion 152 in the vertical direction, respectively. That is, the upper surface 135 can be located closer to the upper flow path 143, and the lower surface 136 can be located closer to the lower flow path 144. Therefore, since the amount of the constituent material used for the substrate 130 can be reduced, the gas distribution device 120 can be downsized.

ガス分配装置１２０の基体１３０には、更に、上面１３５に、検出器を取付可能な検出口１５７が設けられる。ガバナ装置１００に必要な構成要素をガス分配装置１２０に集約しつつも夫々を基体１３０の各面に配置したことで、ガス分配装置１２０の小型化を図ることができる。 The base 130 of the gas distributor 120 is further provided with a detection port 157 on the upper surface 135 to which a detector can be attached. By consolidating the components required for the governor device 100 into the gas distributor 120 and arranging each of them on each surface of the substrate 130, the gas distributor 120 can be miniaturized.

ガス分配装置１２０の小型化を図ることにより、ガスコンロ１は、筐体２内における配置レイアウトの自由度を確保することができる。 By downsizing the gas distribution device 120, the gas stove 1 can secure the degree of freedom in the arrangement layout in the housing 2.

なお、本発明は上記実施形態に限定されるものではなく、種々の変更が可能である。上流路１４３が延びる方向と下流路１４４が延びる方向とは、必ずしも同じ方向でなくてもよい。また、上流路１４３が延びる方向は、必ずしも左右方向でなくてもよく、同様に、下流路１４４が延びる方向は、必ずしも左右方向でなくてもよい。主流路１４１は、上下方向において、上流路１４３と下流路１４４の間に設けたが、上流路１４３よりも上側あるいは下流路１４４よりも下側に設けてもよい。 The present invention is not limited to the above embodiment, and various modifications can be made. The direction in which the upper flow path 143 extends and the direction in which the lower flow path 144 extends do not necessarily have to be the same direction. Further, the direction in which the upper flow path 143 extends does not necessarily have to be the left-right direction, and similarly, the direction in which the lower flow path 144 extends does not necessarily have to be the left-right direction. The main flow path 141 is provided between the upper flow path 143 and the lower flow path 144 in the vertical direction, but may be provided above the upper flow path 143 or below the lower flow path 144.

検出口１５７は、必ずしも上面１３５に設けなくてもよい。例えば図６に示す基体２３０のように、検出口２５７を基体２３０の後面１３２に設けてもよい。検出路２４９は基体２３０内で前後方向に延び、前端部が上流路１４３の主部分に接続する。検出路２４９の後端部は、基体１３０の後面１３２に開口し、開口部分の周囲が後方へ向けて筒状に突出する検出口２５７として機能してもよい。このような構成としても、ガバナ装置１００に必要な構成要素をガス分配装置１２０に集約しつつも夫々を基体２３０の各面に配置することで、ガス分配装置１２０の小型化を図ることができる。また、上下方向に沿う流路がなく、基体２３０を金型で成型する場合に各流路を形成するためのピンや中子等の向きを前後方向及び左右方向に限定できるので、ピンや中子等をより抜きやすく、成型しやすい。 The detection port 157 does not necessarily have to be provided on the upper surface 135. For example, as in the substrate 230 shown in FIG. 6, the detection port 257 may be provided on the rear surface 132 of the substrate 230. The detection path 249 extends in the front-rear direction in the substrate 230, and the front end portion connects to the main portion of the upper flow path 143. The rear end portion of the detection path 249 may function as a detection port 257 that opens to the rear surface 132 of the substrate 130 and the periphery of the opening portion projects rearward in a tubular shape. Even with such a configuration, the gas distributor 120 can be downsized by arranging the components required for the governor device 100 on each surface of the substrate 230 while consolidating them on the gas distributor 120. .. Further, since there is no flow path along the vertical direction and the directions of the pins and cores for forming each flow path can be limited to the front-rear direction and the left-right direction when the substrate 230 is molded with a mold, the pins and the middle It is easier to pull out children, etc., and it is easier to mold.

上記説明において、基体１３０が本発明の「ハウジング」の一例である。前後方向が本発明の「第一方向」の一例である。主流路１４１が本発明の「第一流路」の一例である。上下方向が本発明の「第二方向」の一例である。左右方向が本発明の「第三方向」の一例である。上流路１４３及び下流路１４４が本発明の「第二流路」の一例である。上火開閉路１４５及び下火開閉路１４６が本発明の「第一連通路」の一例である。上火バイパス路１４７及び下火バイパス路１４８が本発明の「第二連通路」の一例である。前面１３１が本発明の「第一面」の一例である。後面１３２が本発明の「第二面」の一例である。左面１３３が本発明の「第三面」の一例である。ニードル弁１６１，１６２が本発明の「調整弁」の一例である。上火調整部１５５及び下火調整部１５６が本発明の「調整口」の一例である。右面１３４が本発明の「第四面」の一例である。上火ガス管３５及び下火ガス管３６＋が本発明の「ガス管」の一例である。上火供給口１５３及び下火供給口１５４が本発明の「接続口」の一例である。上端部１５２Ａが本発明の「配置部の一端部」の一例である。上面１３５が本発明の「第五面」の一例である。下端部１５２Ｂが本発明の「配置部の他端部」の一例である。下面１３６が本発明の「第六面」の一例である。検出路１４９，２４９が本発明の「第三流路」の一例である。 In the above description, the substrate 130 is an example of the "housing" of the present invention. The front-back direction is an example of the "first direction" of the present invention. The main flow path 141 is an example of the "first flow path" of the present invention. The vertical direction is an example of the "second direction" of the present invention. The left-right direction is an example of the "third direction" of the present invention. The upper flow path 143 and the lower flow path 144 are examples of the "second flow path" of the present invention. The upper fire switching passage 145 and the lower fire switching passage 146 are examples of the "first series passage" of the present invention. The upper fire bypass path 147 and the lower fire bypass path 148 are examples of the "second continuous passage" of the present invention. The front surface 131 is an example of the "first surface" of the present invention. The rear surface 132 is an example of the "second surface" of the present invention. The left side 133 is an example of the "third side" of the present invention. Needle valves 161, 162 are examples of the "regulating valve" of the present invention. The upper heat adjusting unit 155 and the lower heat adjusting unit 156 are examples of the "adjustment port" of the present invention. The right side 134 is an example of the "fourth side" of the present invention. The upper heat gas pipe 35 and the lower heat gas pipe 36+ are examples of the "gas pipe" of the present invention. The upper fire supply port 153 and the lower fire supply port 154 are examples of the "connection port" of the present invention. The upper end portion 152A is an example of the “one end portion of the arrangement portion” of the present invention. The upper surface 135 is an example of the "fifth surface" of the present invention. The lower end portion 152B is an example of the "other end portion of the arrangement portion" of the present invention. The lower surface 136 is an example of the "sixth surface" of the present invention. The detection paths 149 and 249 are examples of the "third flow path" of the present invention.

１ ガスコンロ
２ 筐体
３１ グリル庫
３２ 上火バーナ
３３ 下火バーナ
３５ 上火ガス管
３６ 下火ガス管
１１０ ガスガバナ
１２０ ガス分配装置
１３０ 基体
１３１ 前面
１３２ 後面
１３３ 左面
１３４ 右面
１３５ 上面
１３６ 下面
１４１ 主流路
１４２ 分配室
１４３ 上流路
１４４ 下流路
１４５ 上火開閉路
１４６ 下火開閉路
１４７ 上火バイパス路
１４８ 下火バイパス路
１４９，２４９ 検出路
１５１ 導入口
１５２ 配置部
１５２Ａ 上端部
１５２Ｂ 下端部
１５３ 上火供給口
１５４ 下火供給口
１５５ 上火調整部
１５６ 下火調整部
１５７，２５７ 検出口
１６１，１６２ ニードル弁
１７６ パッキン 1 Gas stove 2 Housing 31 Grill storage 32 Top heat burner 33 Bottom heat burner 35 Top heat gas pipe 36 Bottom heat gas pipe 110 Gas governor 120 Gas distributor 130 Base 131 Front side 132 Rear side 133 Left side 134 Right side 135 Top side 136 Bottom side 141 Main flow path 142 Distribution chamber 143 Upper flow path 144 Lower flow path 145 Upper fire switching path 146 Lower fire switching path 147 Upper fire bypass path 148 Lower fire bypass path 149, 249 Detection path 151 Introductory port 152 Arrangement part 152A Upper end 152B Lower end 153 Upper fire supply port 154 Lower heat supply port 155 Upper heat adjustment unit 156 Lower heat adjustment unit 157,257 Detection port 161, 162 Needle valve 176 Packing

Claims (7)

ガスコンロの筐体内に設けられるグリル庫内に収容する被調理物を加熱する上火バーナ及び下火バーナと、ガスの供給圧を調圧して前記上火バーナ及び前記下火バーナにガスを供給するガスガバナとの間に設けられ、前記ガスガバナから供給されるガスを流通し、前記上火バーナと前記下火バーナに分配するガス分配装置であって、
前記ガス分配装置のハウジングには、
第一方向に延び、前記ガスガバナによって調圧されたガスが流通する第一流路と、
前記第一流路の一端部に接続し、且つ前記第一方向に交差する第二方向に沿って延び、前記第一流路を流通するガスを、前記上火バーナに供給するガスと前記下火バーナに供給するガスとに分配する分配室と、
前記第一方向及び前記第二方向に交差する第三方向に沿って並行して延びる２つの流路であって、前記第一流路よりも前記第二方向の少なくとも一方側にて夫々が前記分配室に接続し、前記分配室にて分配されたガスが流通する第二流路と、
前記分配室と２つの前記第二流路との夫々に接続し、前記分配室から前記第二流路へガスを流通する２つの第一連通路と、
前記第一連通路よりも前記第三方向の一方側にて前記分配室と２つの前記第二流路との夫々に接続し、前記第一連通路とは独立に前記分配室から前記第二流路へガスを流通する２つの第二連通路と
が形成されており、
前記第一流路の他端部は、前記ハウジングにおいて前記第一方向の一方側を向く第一面にて開口し、前記ガスガバナから供給されるガスを前記ガス分配装置に導入する導入口として機能し、
前記分配室は、前記ハウジングにおいて前記第一方向の他方側を向く第二面にて前記第二方向に延びて開口し、且つ開口部分が２つの前記第一連通路を夫々開閉する２つの開閉弁によって閉塞され、
前記第二流路の夫々の一端部は、前記ハウジングにおいて前記第三方向の一方側を向く第三面にて開口し、前記第二連通路を介して前記第二流路に流入するガスの流量を調整する調整弁が組み付けられる調整口として機能し、
前記第二流路の夫々の他端部は、前記ハウジングにおいて前記第三方向の他方側を向く第四面にて開口し、前記上火バーナと前記下火バーナの夫々にガスを輸送するガス管が接続される接続口として機能すること
を特徴とするガス分配装置。 The upper heat burner and the lower heat burner that heat the food to be cooked housed in the grill provided in the housing of the gas stove, and the gas supply pressure is adjusted to supply the gas to the upper heat burner and the lower heat burner. It is a gas distribution device provided between the gas governor, which circulates the gas supplied from the gas governor and distributes the gas to the upper heat burner and the lower heat burner.
The housing of the gas distributor has
A first flow path extending in the first direction and flowing the gas regulated by the gas governor,
The gas that connects to one end of the first flow path and extends along the second direction that intersects the first direction and flows through the first flow path is supplied to the upper heat burner and the lower heat burner. A distribution room that distributes to the gas supplied to
Two flow paths extending in parallel along the first direction and the third direction intersecting the second direction, each of which is distributed on at least one side of the second direction with respect to the first flow path. A second flow path connected to the chamber and through which the gas distributed in the distribution chamber flows,
Two first series passages that are connected to the distribution chamber and the two second passages and that flow gas from the distribution chamber to the second passage, respectively.
The distribution chamber and the two second passages are connected to each other on one side of the third direction from the first series passage, and the distribution chamber is connected to the second passage independently of the first series passage. Two second passages for flowing gas to the passage are formed.
The other end of the first flow path opens on the first surface of the housing facing one side in the first direction, and functions as an introduction port for introducing the gas supplied from the gas governor into the gas distributor. ,
The distribution chamber is opened by extending in the second direction on the second surface of the housing facing the other side of the first direction, and the opening is opened and closed by opening and closing the first series passage having two openings, respectively. Blocked by a valve
One end of each of the second flow paths is opened in the housing at a third surface facing one side in the third direction, and the gas flowing into the second flow path through the second communication passage is opened. It functions as an adjustment port to which an adjustment valve that adjusts the flow rate is installed.
The other end of each of the second flow paths is a gas that is opened in the housing at a fourth surface facing the other side in the third direction to transport gas to each of the upper heat burner and the lower heat burner. A gas distributor characterized in that it functions as a connection port to which a pipe is connected. 前記第一方向、前記第二方向及び前記第三方向は、互いに直交する方向であること
を特徴とする請求項１に記載のガス分配装置。 The gas distribution device according to claim 1, wherein the first direction, the second direction, and the third direction are directions orthogonal to each other. ２つの前記第二流路は、前記第一流路に対し、前記第二方向の一方側と他方側の夫々にて形成されたこと
を特徴とする請求項１又は２に記載のガス分配装置。 The gas distribution device according to claim 1 or 2, wherein the two second flow paths are formed on one side and the other side in the second direction with respect to the first flow path, respectively. 前記分配室は、前記開口部分を前記開閉弁で閉塞する場合の気密を維持するパッキンの配置部を前記開口部分の周囲に有し、
前記配置部の前記第二方向一方側の一端部は、前記ハウジングにおいて前記第二方向一方側を向く第五面よりも、前記第二方向一方側に位置し、
前記配置部の前記第二方向他方側の他端部は、前記ハウジングにおいて前記第二方向他方側を向く第六面よりも、前記第二方向他方側に位置すること
を特徴とする請求項３に記載のガス分配装置。 The distribution chamber has a packing arrangement portion around the opening portion that maintains airtightness when the opening portion is closed by the on-off valve.
One end of the arrangement portion on one side in the second direction is located on one side in the second direction of the housing with respect to the fifth surface facing the one side in the second direction.
3. The other side of the arrangement portion on the other side in the second direction is located on the other side in the second direction with respect to the sixth surface of the housing facing the other side in the second direction. The gas distributor according to. 前記第二方向に延び、２つの前記第二流路のうち一方に接続するガスの流路である第三流路を更に備え、
前記第三流路の一端部は、前記第二流路に接続し、
前記第三流路の他端部は、前記第五面にて開口し、ガス圧の検出を行う検出器を取り付け可能な検出口として機能すること
を特徴とする請求項４に記載のガス分配装置。 Further provided with a third flow path, which is a gas flow path extending in the second direction and connecting to one of the two second flow paths.
One end of the third flow path is connected to the second flow path.
The gas distribution according to claim 4, wherein the other end of the third flow path is opened at the fifth surface and functions as a detection port to which a detector for detecting gas pressure can be attached. apparatus. 前記第一方向に延び、２つの前記第二流路のうち一方に接続するガスの流路である第三流路を更に備え、
前記第三流路の一端部は、前記第二流路に接続し、
前記第三流路の他端部は、前記ハウジングにおいて前記第二面にて開口し、ガス圧の検出を行う検出器を取り付け可能な検出口として機能すること
を特徴とする請求項４に記載のガス分配装置。 A third flow path, which is a gas flow path extending in the first direction and connecting to one of the two second flow paths, is further provided.
One end of the third flow path is connected to the second flow path.
4. The fourth aspect of the present invention, wherein the other end of the third flow path is opened on the second surface of the housing and functions as a detection port to which a detector for detecting gas pressure can be attached. Gas distributor. 筐体内に、
被調理物を収納するグリル庫と、
前記グリル庫内に収容する被調理物を加熱する上火バーナ及び下火バーナと、
請求項１から６のいずれかに記載のガス分配装置と、
外部から取り込んだガスの圧力を調圧し、前記ガス分配装置に供給するガスガバナと、
前記ガス分配装置の２つの前記接続口と、前記上火バーナ及び前記下火バーナとを夫々接続する２つのガス管と
を備えたことを特徴とするガスコンロ。 In the housing
A grill that stores food to be cooked
An upper heat burner and a lower heat burner that heat the food to be cooked contained in the grill.
The gas distribution device according to any one of claims 1 to 6,
A gas governor that regulates the pressure of gas taken in from the outside and supplies it to the gas distributor.
A gas stove including two connection ports of the gas distribution device and two gas pipes for connecting the upper heat burner and the lower heat burner, respectively.

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