JP3600609B2 - Channel cutoff device - Google Patents

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a flow path blocking device, and more particularly to a flow path blocking device that can immediately block a gas flow path when a fire occurs.
[0002]
[Prior art]
As a device in which a flow path blocking device is incorporated in a gas flow path, there is a device employing a ball valve (for example, see Patent Document 1).
This is a configuration in which valve accommodation chambers for accommodating the ball valves are juxtaposed so as to communicate with a gas flow path. At normal temperature, the ball valves are supported by a bearing body at normal temperature from the valve accommodation chamber to the flow path. Is supported in a state where escape of the ball is prevented, and at the time of an abnormal overheating due to a fire or the like, the supporting force of the bearing body is lost, and the ball valve is moved from the valve chamber into the flow path. The flow path is turned on, thereby shutting off the flow path.
[0003]
In this case, for example, if the support is made of a material having a property of causing melting or deformation by heating at a set temperature or more, such as a low-melting point metal or a thermoplastic resin material, the support may be abnormally heated. Is melted or deformed, the ball valve can be injected into the gas flow path from the valve body housing chamber, and the flow path can be reliably closed. Therefore, it is possible to provide a safe gas flow path that can urgently shut off gas when a fire occurs.
[0004]
[Patent Document 1]
Japanese Patent Application Laid-Open No. 2000-2354 [Patent Document 2]
Japanese Patent Application Laid-Open No. 2000-74239
[Problems to be solved by the invention]
However, in the above-described conventional apparatus, the valve housing chamber for housing the ball valve at room temperature is arranged side by side with the pipe. Since the device must be dropped by its own weight, there is a problem that the directionality of the device when the flow path blocking device is installed is limited.
The present invention provides a flow path shut-off device that does not impair the appearance of ordinary pipes or joints and that does not limit the installation location in a “flow path cut-off device that shuts off a gas flow path when abnormally overheated”. The task is to
[0006]
[Means for Solving the Problems]
* 1. The technical means of the present invention for solving the above-mentioned problem is that "a gas flow path is formed near the one open end of a cylinder constituting a gas flow path and formed in a size that can shut off the inside of the cylinder. A plate valve,
A holder for holding the plate-shaped valve in a channel open position,
An operating member that releases the holding state of the plate-shaped valve by the holding tool and turns off the valve shaft of the plate-shaped valve in the flow path open position by about 90 degrees to shut off the flow path;
Urging means for urging the operation member in an operation start direction of an operation of moving the operation member to the other open end side of the cylinder ;
Positioning means for positioning the operating member in an operation-inhibited state against the urging force of the urging means,
The positioning means is made of a material that can be deformed or melted at a set temperature,
A through hole for inserting a part of the positioning means is formed in a peripheral wall of the cylinder,
The operating member is connected to a first shaft rotatably connected at one end in a longitudinal direction to the center of the plate-shaped valve, and is connected to the other end of the first shaft and extends toward a vicinity of a peripheral wall of the cylinder. And the second shaft urged by the urging means . "
[0007]
The above technical means works as follows.
A plate-shaped valve as a shut-off valve, a holding tool for holding the plate-shaped valve in a flow path open state, and opening the plate-shaped valve from the holding state by the holding tool and blocking the flow path by the plate-shaped valve Operating member for closing the plate-shaped valve, urging means for urging the operating member toward a direction in which the operation of the operating member is started, and positioning the operating member at a predetermined position. It is a configuration in which a flow path blocking device comprising positioning means for preventing operation start is incorporated in a cylinder, and a part of the positioning means made of heat-sensitive deformable or molten material is inserted into a through hole formed in a peripheral wall of the cylinder. It is arranged in a different manner. Thereby, the positioning means can detect the temperature of the outer region of the cylinder from the tube wall. At normal temperature, the operation member is held in an operation-inhibited state by the positioning means, and the plate-like valve remains in a state where the flow path is opened, so that the gas flows from the upstream side to the downstream side in the cylinder. It flows to the side without trouble. When the outer region of the cylinder is abnormally heated to a high temperature due to a fire or the like, the positioning means penetrating through the peripheral wall of the cylinder is melted or deformed by heat. As a result, the biasing means is in a free state, and the operating member is moved in the operation start direction by the biasing force. By operating the operating member, the plate-shaped valve is opened from the holder and simultaneously rotated 90 degrees. As a result, the gas is shut off and the gas is shut off upstream of the upstream plate valve.
[0008]
A first shaft having one end in a longitudinal direction rotatably connected to the center of the plate-shaped valve; and a first shaft connected to the other end of the first shaft and extending near a peripheral wall of the cylinder. because it is composed of a second shaft is biased by energizing means, for example, as an operation member, the first axis is disposed along the central axis of the flow channel, the second axis, relative to the first axis A shaft body having a substantially L-shaped or substantially T-shaped cross-section connected at right angles can be employed. In this case, one end or both ends of the second shaft extend toward the peripheral wall of the cylinder, and the extended end is urged in a direction away from the plate-shaped valve by the urging force of the urging means, At a normal temperature, the positioning means is positioned in the movement inhibiting state. When the positioning force of the positioning unit is lost due to abnormal heating of the cylinder due to the occurrence of a fire or the like, the second shaft is moved in a direction away from the plate-shaped valve by the urging force of the urging unit, and , The first shaft is also pulled in the same direction. Since one end of the first shaft is rotatably mounted on the center portion of the plate-shaped valve, the one end is pulled by the first shaft in a direction away from the plate-shaped valve, so that the one end is In this embodiment, the plate-shaped valve is rotated with respect to the center portion and the center portion is pulled in the same direction. As a result, the plate-shaped valve is forcibly rotated by 90 degrees, so that the flow path is closed.
[0009]
* Item 2 In the above item 1 , the plate-shaped valve is provided with a locking projection through which the first shaft can penetrate at a central portion thereof, and the first shaft is provided with the plate-shaped valve. Is formed so as to be bent substantially in a U-shape in the vicinity of the periphery after penetrating the locking projection along the diameter of the first valve. " In this manner, the plate-shaped valve is prevented from rotating and held in the channel open position in such a manner that the plate-shaped valve is extended to the outer peripheral portion and bent in a substantially U-shape after penetrating the locking projection. It becomes. That is, the bent portion provided at one end of the first shaft functions as a holder for holding the plate-shaped valve in the channel open position. When the operation blocking state of the operation member is released due to the loss of the positioning means, the first shaft is moved by the urging force of the urging means until the bent portion reaches the locking projection, and the bending portion is moved. Rotates relative to the locking projection, and accordingly, the plate-shaped valve is rotated by 90 degrees.
[0010]
* Item 3
In addition, the technical means of the present invention is, in the flow path blocking device that shuts off the gas flow path at the time of abnormal overheating,
A plate-shaped valve provided in the vicinity of one open end of a cylinder constituting a gas flow path and formed in a shape capable of shutting off the inside of the cylinder,
A holder for holding the plate-shaped valve in a channel open position,
An operating member that releases the holding state of the plate-shaped valve by the holding tool and turns off the valve shaft of the plate-shaped valve in the flow path open position by about 90 degrees to shut off the flow path;
Urging means for urging the operation member in an operation start direction of an operation of moving the operation member to the other open end side of the cylinder;
Positioning means for positioning the operating member in an operation-inhibited state against the urging force of the urging means,
The positioning means is made of a material that can be deformed or melted at a set temperature,
A through hole for inserting a part of the positioning means is formed in a peripheral wall of the cylinder,
The holding tool is configured separately from the operating member, and is positioned so as to sandwich the front and back of the plate-shaped valve in the flow path open position, and has a pair of ends fixed to the pipe wall of the cylinder. And a shaft portion ”.
In this configuration, when the plate-like valve is in the flow path open posture, the periphery of the peripheral portion is supported by the shaft portion, so that the plate-like valve is held in a rotation-blocking state. When the positioning member is lost and the operation member is brought into the operation start state, the plate-shaped valve is rotatable by being pulled out from between the shaft portions by the operation member.
[0011]
* Item 4
In addition, the technical means of the present invention is, in the flow path blocking device that shuts off the gas flow path at the time of abnormal overheating,
A plate-shaped valve provided in the vicinity of one open end of a cylinder constituting a gas flow path and formed in a shape capable of shutting off the inside of the cylinder,
A holder for holding the plate-shaped valve in a channel open position,
An operating member that releases the holding state of the plate-shaped valve by the holding tool and turns off the valve shaft of the plate-shaped valve in the flow path open position by about 90 degrees to shut off the flow path;
Urging means for urging the operation member in an operation start direction of an operation of moving the operation member to the other open end side of the cylinder;
Positioning means for positioning the operating member in an operation-inhibited state against the urging force of the urging means,
The positioning means is made of a material that can be deformed or melted at a set temperature,
A through hole for inserting a part of the positioning means is formed in a peripheral wall of the cylinder,
A small diameter step is protruded in the cylinder,
The positioning means is a plurality of rods projecting from the through hole at right angles to the gas flow path,
When the plate-shaped valve is disposed on one side of the small-diameter step portion in the flow path open position, the rod-like body projects on the other side, and the small-diameter step portion and the rod-like body Between them, a coil spring in an elastically deformed state as the urging means and a part of the operation member are interposed,
When the operation member is urged in the operation start direction by the elastic return force of the coil spring, a portion near the peripheral edge of the plate-shaped valve is pressed against the one side surface of the small-diameter step portion in a close contact state. It was that.
In this configuration , a plate-shaped valve and a rod-shaped positioning means are arranged on both sides of the small-diameter step portion in the cylinder, and in this state, the plate-shaped valve is in a flow path by the holder. It is held in the open position. When the rod-shaped body is melted or deformed due to abnormal overheating such as a fire, the plate-shaped valve is released from holding by the holder and rotated 90 degrees due to the elastic return force of the coil spring, and the flow path is closed. Is done. In this flow passage cutoff state, one side surface of the small diameter step portion functions as a valve seat of the plate-shaped valve.
[0012]
In addition, as in item 5, in the case where “the cylinder is a cylindrical member that can be inserted in a gas pipe in an outer peripheral airtight state”, only the cylinder of the present invention is inserted into an existing gas pipe, A flow path cutoff device can be provided in the gas pipe. At this time, if the part of the positioning means is configured to penetrate the peripheral wall of the cylinder and come into contact with the inner wall of the gas flow path, heat is more quickly transmitted to the positioning means when the gas pipe is overheated. The Rukoto.
[0013]
Further, as described in item 6 , "the cylinder has a tapered thread portion at one end to which a general pipe can be connected, and a nut member screwable to a gas inlet pipe on the upstream side of the gas meter is mounted at the other end. In this case, the cylinder can function as a joint member disposed between a gas inlet pipe on the upstream side of the gas meter and a suction pipe for drawing gas from underground.
Incidentally, as the positioning means, as shown in item 7 , a means composed of a thermoplastic synthetic resin, a bimetal, a shape memory alloy, or a low melting point metal can be adopted.
[0014]
【The invention's effect】
The present invention has the following specific effects because of the above configuration.
Since the flow path blocking device including the plate-shaped valve, the holding tool, the operating member, the urging means, and the positioning means is configured to be incorporated in the cylinder in advance, the work of mounting the flow path blocking device on site can be simplified. . Since the plate-shaped valve as the shut-off valve is set so that the attitude can be changed to the flow path shut-off attitude by the operation of the operating member, the direction of the cylinder is not limited, and the range of use is widened. Further, the positioning means for holding the operation member for operating the plate-shaped valve in the flow path cutoff state in the operation inhibition state is provided so as to easily detect the abnormal heating state. Heat is easily transmitted, the time until the positioning means is deformed or melted is shortened, and a quick shutoff effect by the plate-shaped valve can be expected.
[0015]
Further, it is possible to provide a flow path blocking device having a structure in which an urging means is easily interposed between the operating member and the positioning means, and in which the plate valve is easily rotated.
[0016]
In the case of item 2 , since the operation member and the holder can be formed integrally, there is an effect that the number of parts is reduced and assembly is facilitated.
[0017]
In the case of the item (3) , since the plate-shaped valve is held in the flow path open position in a state of being sandwiched between two shafts fixed to the pipe wall of the cylinder, the holding state is ensured, and the plate-shaped valve is improper. There is no inconvenience of easy rotation.
[0018]
According to the fourth aspect, since the plate-shaped valve shuts off the flow path in such a manner as to be in close contact with one side surface of the small-diameter step portion, the flow path can be more reliably shut off.
[0019]
The cylinder having the above configuration can be inserted into a gas pipe as shown in section 5, or can be used as a joint member on the upstream side of a gas meter as described in section 6 . In such a usage mode, the appearance of the gas pipes and the joints is not impaired because the overall appearance does not change.
[0020]
Further, by specifying the material of the positioning means as in the item 7 , melting or deformation at the time of abnormal overheating can be ensured.
[0021]
BEST MODE FOR CARRYING OUT THE INVENTION
Next, the above-described embodiment of the present invention will be described in detail with reference to the drawings.
FIGS. 1 to 3 relate to the first embodiment, and FIG. 1 is a cross-sectional view showing a state in which a flow path blocking device according to an embodiment of the present invention is installed in a flow path open state. FIG. 2 is a perspective view of the operation shaft and the plate-like valve, and FIG. 3 is a cross-sectional view showing a state in which the flow path is cut off in FIG.
[0022]
The flow path blocking device of this embodiment is connected to a plate-like valve (2) held in a flow path open position and a locking projection (20) protruding from the center of the plate-like valve (2). And an operation shaft (21) as an operation member for turning off the plate-like valve (2) by 90 degrees to perform a flow path closing operation, and an urging force for urging the operation shaft (21) in an operation start direction. A coil spring (3) as a means, and a plurality of fusion pins (4) arranged at a position for preventing elastic return of the coil spring (3) and for positioning the operation shaft (21) in the operation prohibited state. ) Are assembled in a cylinder (1), and the cylinder (1) is used by being installed in a gas pipe (10).
[0023]
The cylinder (1) is an open-ended cylindrical body having an outer diameter substantially matching the inner diameter of the gas pipe (10) and an inner diameter set to be larger than the diameter of the plate valve (2); An O-ring (11) made of a thermal expansion packing and a C-shaped elastic ring (12) are fitted around the outer periphery. A small-diameter cylindrical portion (13) is formed on the inner peripheral wall of the cylinder (1) in the area where the O-ring (11) and the C-shaped elastic ring (12) are provided. ), A plate-like valve (2) which is a metal disk having a diameter larger than the inside diameter of the small-diameter cylindrical portion (13) and smaller than the inside diameter of the cylinder (1). ) Is located, and on the other side, the coil spring (3) is arranged in a state where elastic return is prevented by the fusion pin (4).
[0024]
The melting pin (4) is a rod-shaped body made of a thermoplastic resin that melts at a temperature equal to or higher than a set temperature, and is configured to have a head having a larger diameter at one end than the rod-shaft portion. In the peripheral wall of the cylinder (1), a plurality of through holes (14) through which the melting pin (4) is inserted are formed. The through-hole (14) is open to the outside of the cylinder (1) and communicates with the large-diameter hole for accommodating the head, and is open to the inside of the cylinder (1). It is assumed that the rod portion is constituted by a small-diameter hole penetrating therethrough.
[0025]
Then, the fusion pin (4) is inserted into each through hole (14) from the outside, so that the rod shaft portion of the fusion pin (4) projects inwardly of the cylinder (1) of a predetermined length. The length is set.
[0026]
As shown in FIG. 2, the operation shaft (21) is entirely made of a metal wire having a thickness that can be inserted into the locking projection (20), and is bent at one end of the axis in a substantially U-shape. A U-shaped end (22) is formed, and the other end is bent at a right angle to the axis, and then formed into an arc-shaped end (23) having the bending axis as a radius. ) Is formed, and the outer diameter of the arc-shaped end portion (23) is set to substantially match the inner diameter of the cylinder (1). In the operating shaft (21) of this embodiment, a shaft portion located along the flow path of the cylinder (1) functions as a first shaft, and a portion extending from the other end to the arc-shaped end (23) is provided. It will function as the second axis.
[0027]
In the state where the flow path blocking device of this embodiment is set in the gas pipe (10), the bent portion of the U-shaped end (22) is located near one open end of the cylinder (1). A coil spring (3) located near the peripheral edge of the valve-shaped valve (2) and provided on one side of the small-diameter tubular portion (13) presses the arc-shaped end (23) against the melting pin (4). The position where the fusion pin (4) is formed, the length of the shaft of the operation shaft (21), and the elastic return force of the coil spring (3) are set to predetermined dimensions and sizes, respectively, so as to urge in the direction. It is assumed that
[0028]
When assembly of each component to the cylinder (1) is completed, as shown in FIG. 1, the plate-shaped valve (2) is moved by the U-shaped end (22) of the operating shaft (21). This is a mode in which the channel is held in the channel opening posture parallel to the axis of (1). In other words, the U-shaped end portion (22) functions as a holder for holding the plate-shaped valve (2) in the channel open position.
[0029]
At normal temperature, the position of the operation shaft (21) is maintained in a state where it is positioned by the melting pin (4), so that the periphery of the plate-like valve (2) is formed by the small-diameter cylindrical portion (13). It is in contact with the open edge and is held in the rotation-prevented state by the U-shaped end (22), so that the flow path is opened in a stable state.
[0030]
Since the cylinder (1) is set to a size that can be inserted into a general gas pipe, if the cylinder (1) is inserted into the existing gas pipe (10), the pipe into which the cylinder (1) is inserted becomes , And functions as a pipe with a flow path blocking device.
[0031]
As described above, the cylinder (1) is provided with the O-ring (11) and the C-shaped elastic ring (12) on the outer periphery thereof. ) Can be accommodated in the outer peripheral airtight state.
[0032]
When the gas pipe (10) is in an abnormally overheated state due to the occurrence of a fire or the like, the head of the melting pin (4) housed in the large-diameter hole that opens to the outside of the cylinder (1) is closed. Since the gas pipe (10) is arranged so as to be in contact with the gas pipe (10), the heat of the gas pipe (10) is quickly transmitted from the head to the entire melting pin (4). Since the fusion pin (4) is molded from a thermoplastic synthetic resin that melts at the set temperature as described above, it is melted or deformed when heated to a temperature higher than the set temperature. When the melting pin (4) is melted or deformed, the elastic return force of the coil spring (3) cannot be completely prevented, and the coil spring (3) elastically returns. Due to the elastic return force, the arc-shaped end portion (23) of the operation shaft (21) is pushed toward the other open end side of the cylinder (1) and moves, and with the movement of the arc-shaped end portion (23), The entire operation shaft (21) is moved in the same direction. With this movement, the operating shaft (21) moves the locking projection (20) until the bent portion of the U-shaped end (22) is positioned within the locking projection (20) of the plate-shaped valve (2). When the bent portion of the U-shaped end (22) is positioned within the locking projection (20), the plate-like valve (2) is also pulled in the same direction by the operating shaft (21). Thus, the plate valve (2) is rotated by 90 degrees. Thereby, as shown in FIG. 3, the vicinity of the periphery of one surface of the plate-shaped valve (2) is pressed against the end surface of the small-diameter tubular portion (13).
[0033]
Thus, the flow path in the cylinder (1) is shut off by the plate-like valve (2), and the O-ring (11) made of a thermal expansion packing is thermally expanded between the cylinder (1) and the pipe (10). By doing so, the airtightness is ensured, so that the flow path in the gas pipe (10) is reliably shut off.
[0034]
FIGS. 4 and 5 show a flow path open state of the flow path blocking device according to the second embodiment, and show a modification of the operation shaft (21) and the protector. FIG. 5 is a sectional view taken along line XX of FIG.
[0035]
The operation shaft (21) of this embodiment includes a first shaft portion (24) rotatably connected at one end to a locking projection (20) of the plate-like valve (2), and the first shaft portion. A second shaft portion (25) connected to the other end of the (24) and having a length substantially matching the inner diameter of the cylinder (1); At a plurality of locations along the circumferential direction, a fusion pin (4) is projected, and a ring (30) is provided between the fusion pin (4) and the second shaft portion (25). It is interposed.
[0036]
At normal temperature, both ends of the second shaft portion (25) press the melting pin (4) via the ring (30) by the urging force of the coil spring (3).
The holding member (5) for holding the plate-like valve (2) in the channel open position is provided separately from the operating shaft (21), and as shown in FIG. It is made of a metal wire bent in a U-shape.
[0037]
The distance between the pair of support shafts (51a) and (51b) constituting the holder (5) is set to be slightly larger than the thickness of the plate valve (2). Both ends of the shafts (51a) and (51b) are fitted into recesses (15a) and (15b) provided on the inner wall of the cylinder (1), so that the holder (5) is positioned at a predetermined position in the cylinder (1). Is positioned. The plate-like valve (2) is provided so as to be located at a predetermined distance from the small-diameter cylindrical portion (13), and at that position, the plate-like valve (2) is supported by the support shafts (51a) (51b). The formation positions of the concave portions (15a) and (15b) in the cylinder (1) are set so that the vicinity of the outer peripheral edge of 2) is supported.
[0038]
In this device, when the positioning force of the fusion pin (4) with respect to the second shaft portion (25) is lost due to a fire or the like, the second shaft portion (25) is moved by the elastic return force of the coil spring (3). While the ring (30) is being pushed, it is moved in the direction of the arrow in FIG. 4, and accordingly, the plate-like valve (2) is pulled toward the small-diameter cylindrical portion (13) by the first shaft portion (24). At the same time, the holder (5) is pulled out from the support shafts (51a) (51b). The pulled-out plate valve (2) is rotated 90 degrees by further pulling the center locking projection (20) by the first shaft portion (24), and the end surface of the small-diameter cylindrical portion (13). And the flow path of the cylinder (1) is shut off.
[0039]
FIG. 6 and FIG. 7 show a flow path shut-off device according to a third embodiment, in which an operating shaft (21) is formed by a metal wire to a substantially U-shaped first shaft (26). A pair of second shafts (27) extending at right angles from both ends of the first shaft (26) toward the inner wall of the cylinder (1), and bending the first shaft (26). The portion is inserted into the locking projection (20) of the plate-shaped valve (2), and the second shaft portion (27) is urged by the coil spring (3) against the fusion pin (4). . In this embodiment, similarly to the second embodiment, a ring (30) is provided between the second shaft (27) and the fusion pin (4). Shall be interposed.
[0040]
As shown in FIG. 7, the holding tool (50) is formed by bending a metal wire and extending a pair of support shafts (52a) and (52b) from both ends of the substantially C-shaped body in parallel toward the inside of the circle. The holding tool (50) is fitted into an annular groove (18) formed on the inner wall of the cylinder (1), so that the holding tool (50) becomes a cylinder (1). It becomes a mode fixed to a predetermined position in 1). The position of the annular groove (18) is also set to be substantially the same as the position of the concave portions (15a) (15b) in the second embodiment.
[0041]
The distance between the support shafts (52a) and (52b) is set to be substantially equal to the thickness of the plate-shaped valve (2), and this embodiment also has the second embodiment described above. As in the case of the embodiment, when the positioning force of the fusion pin (4) is lost and the second shaft portion (27) is moved by the elastic return force of the coil spring (3), the first shaft portion (26) causes the movement. The plate-like valve (2) is pulled out from the space between the support shafts (52a) and (52b) and rotated by 90 degrees, so that the flow path is shut off.
[0042]
The one shown in FIG. 8 includes a gas inlet pipe (40) on the upstream side of the gas meter (M) and a suction pipe (41) for drawing gas from underground without inserting the cylinder (1) into the pipe. It functions as a joint member (100) to be disposed therebetween. The upper end is provided with a tapered thread portion (16) to which general piping can be connected, and the lower end is provided with a gas meter (M). A nut member (17) that can be screwed into the gas inlet pipe (40) on the upstream side is mounted.
[0043]
In the cylinder (1), a small-diameter cylindrical portion (13) is provided as in the above-described embodiment, and a plate-like valve (2) and its holder are provided above the small-diameter cylindrical portion (13). The operation shafts biased by the coil springs (3) are respectively provided.
[0044]
In this embodiment, the operating shaft having the configuration employed in the second embodiment is used, and the protective device has the configuration employed in the third embodiment. It was configured to use one.
[0045]
Further, while the plate-like valve (2) is held in the flow path open position shown in the figure, the melting pin (4) for holding the operation shaft (21) in the operation inhibition state is a cylinder (1). And is fixed by being inserted into the insertion hole (42) provided in the inner wall of the.
[0046]
In this case, when the cylinder (1) is overheated to a set temperature or more in an abnormally overheated state such as the occurrence of a fire, the melting pin (4) melts, and the holding force for the second shaft (25) is lost. The second shaft portion (25) is pushed downward by the elastic return force of the coil spring (3), and accordingly, the plate-like valve (2) is moved from the holder (50) by the first shaft portion (24). It is pulled downward and rotated 90 degrees downward. As a result, the plate valve (2) is pressed against the upper end surface of the small-diameter tubular portion (13), and the flow path in the cylinder (1) is shut off.
[0047]
As described above, when a fire occurs, the gas sent from the suction pipe (41) to the gas meter (M) is supplied to the cylinder (1) as a joint member (100) provided on the upstream side of the gas meter (M). Since the gas can be cut off, even if the gas meter (M) falls carelessly for some reason, the gas in the suction pipe (41) is cut off on the upstream side of the joint member (100), and the gas is discharged to the outside. The danger of leaking into can be prevented.
[0048]
Further, the joint member (100) composed of the cylinder (1) can be attached as a piping joint on either the inlet side or the outlet side of the gas meter (M) due to its structure. It is desirable to install it in the piping on the side.
[0049]
In each embodiment, the melting pin (4) for holding the operation member in the operation blocking state is not limited as long as it is made of a material that melts or deforms when it is heated to a set temperature or more. Instead, a thermoplastic resin, a bimetal, a shape memory alloy, a low melting point metal, or the like can be used.
[Brief description of the drawings]
FIG. 1 is a cross-sectional view at room temperature showing an example in which a flow path blocking device according to a first embodiment of the present invention is inserted into a gas pipe.
FIG. 2 is a perspective view of an operation shaft and a plate-like valve employed in the flow path blocking device according to the first embodiment of the present invention.
FIG. 3 is a cross-sectional view showing a state of the channel shut-off device according to the first embodiment of the present invention at the time of abnormal overheating.
FIG. 4 is a cross-sectional view at room temperature showing an example in which a flow path blocking device according to a second embodiment of the present invention is inserted into a gas pipe.
FIG. 5 is a sectional view taken along line XX of FIG. 4;
FIG. 6 is a cross-sectional view at room temperature showing an example in which a flow path blocking device according to a third embodiment of the present invention is inserted into a gas pipe.
FIG. 7 is a sectional view taken along line YY of FIG. 6;
FIG. 8 is a sectional view of a pipe joint member for a gas meter using a cylinder adopted in a flow path blocking device according to a fourth embodiment of the present invention.
[Explanation of symbols]
(1) Cylinder (14) Through-hole (2) Plate valve (21) Operation member (operation shaft)
(3) ・ ・ ・ ・ Biasing means (coil spring)
(4) ··· Positioning means (melting pin)
(5) (50) ・ ・ Holder

Claims (7)

In a flow path cutoff device that cuts off the gas flow path when abnormal overheating,
A plate-shaped valve provided in the vicinity of one open end of a cylinder constituting a gas flow path and formed in a shape capable of shutting off the inside of the cylinder,
A holder for holding the plate-shaped valve in a channel open position,
An operating member that releases the holding state of the plate-shaped valve by the holding tool and turns off the valve shaft of the plate-shaped valve in the flow path open position by about 90 degrees to shut off the flow path;
Urging means for urging the operation member in an operation start direction of an operation of moving the operation member to the other open end side of the cylinder ;
Positioning means for positioning the operating member in an operation-inhibited state against the urging force of the urging means,
The positioning means is made of a material that can be deformed or melted at a set temperature,
A through hole for inserting a part of the positioning means is formed in a peripheral wall of the cylinder,
The operating member is connected to a first shaft rotatably connected at one end in a longitudinal direction to the center of the plate-shaped valve, and is connected to the other end of the first shaft and extends toward a vicinity of a peripheral wall of the cylinder. And a second shaft biased by the biasing means . 2. The flow path blocking device according to claim 1, wherein a locking projection through which the first shaft can penetrate is provided at a central portion of the plate-shaped valve, and the first shaft is provided on the plate-shaped valve. 3. A flow path blocking device configured to bend in a substantially U-shape in a region near a peripheral edge after penetrating the locking projection along a diameter. In a flow path cutoff device that cuts off the gas flow path when abnormal overheating,
A plate-shaped valve provided in the vicinity of one open end of a cylinder constituting a gas flow path and formed in a shape capable of shutting off the inside of the cylinder,
A holder for holding the plate-shaped valve in a channel open position,
An operating member that releases the holding state of the plate-shaped valve by the holding tool and turns off the valve shaft of the plate-shaped valve in the flow path open position by about 90 degrees to shut off the flow path;
Urging means for urging the operation member in an operation start direction of an operation of moving the operation member to the other open end side of the cylinder;
Positioning means for positioning the operating member in an operation-inhibited state against the urging force of the urging means,
The positioning means is made of a material that can be deformed or melted at a set temperature,
A through hole for inserting a part of the positioning means is formed in a peripheral wall of the cylinder,
The holding tool is configured separately from the operation member, and is positioned so as to sandwich the front and back of the plate-shaped valve in the flow path open posture, and a pair of both ends are fixed to the pipe wall of the cylinder. A flow path blocking device having a configuration including a shaft portion. In a flow path cutoff device that cuts off the gas flow path when abnormal overheating,
A plate-shaped valve provided in the vicinity of one open end of a cylinder constituting a gas flow path and formed in a shape capable of shutting off the inside of the cylinder,
A holder for holding the plate-shaped valve in a channel open position,
An operating member that releases the holding state of the plate-shaped valve by the holding tool and turns off the valve shaft of the plate-shaped valve in the flow path open position by about 90 degrees to shut off the flow path;
Urging means for urging the operation member in an operation start direction of an operation of moving the operation member to the other open end side of the cylinder;
Positioning means for positioning the operating member in an operation-inhibited state against the urging force of the urging means,
The positioning means is made of a material that can be deformed or melted at a set temperature,
A through hole for inserting a part of the positioning means is formed in a peripheral wall of the cylinder,
A small diameter step is protruded in the cylinder,
The positioning means is a plurality of rods projecting from the through hole at right angles to the gas flow path,
When the plate-shaped valve is disposed on one side of the small-diameter step portion in the flow path open position, the rod-like body projects on the other side, and the small-diameter step portion and the rod-like body Between them, a coil spring in an elastically deformed state as the urging means and a part of the operation member are interposed,
When the operation member is urged in the operation start direction by the elastic return force of the coil spring, a portion near the peripheral edge of the plate-shaped valve is pressed against the one side surface of the small-diameter step in a tight contact state. Flow path cutoff device. 5. The flow path blocking device according to claim 1, wherein the cylinder is a cylindrical member that can be inserted into a gas pipe in an outer peripheral airtight state. 6. 5. The flow path cutoff device according to claim 1, wherein the cylinder is provided with a tapered thread portion to which a general pipe can be connected at one end and a gas inlet pipe at an upstream side of a gas meter at the other end. A flow path blocking device equipped with a screwable nut member. 7. The flow path blocking device according to claim 1, wherein said positioning means is made of a thermoplastic synthetic resin, a bimetal, a shape memory alloy, or a low melting point metal.

Images