JP6726569B2 - Valve device - Google Patents

Description

The present invention relates to a valve device that has the functions of both a safety valve and a manual valve.

The tank for storing gas is provided with a safety valve and a manual valve. If these two valves are provided in the valve block, the number of oil passages formed in the valve block increases and a space for providing each valve is required. That is, the valve block becomes large. Therefore, a valve that can achieve the functions of these two valves by one valve is considered, and as one example thereof, a safety valve as disclosed in Patent Document 1 is known.

The safety valve of Patent Document 1 includes a main body portion, a valve body, a biasing spring, and a melting plug portion. In the safety valve, a spring is mounted on the tip of a valve body whose main end is covered with a spring, and in that state, the spring is inserted into a through hole of the valve body and attached. Further, the melting plug portion is disposed in the main body portion and supports the valve body, and when melted, the valve body is no longer supported by melting and the valve body comes out of the small diameter hole of the through hole to open the small diameter hole. Further, in the safety valve, the main body is configured to be manually operable, and the valve body can be pulled out from the small diameter hole by manual operation. As described above, the safety valve of Patent Document 1 has both functions of a safety valve and a manual valve.

Patent No. 5068093

In the safety valve of Patent Document 1, the safety valve is completed only by assembling the valve body and the spring with the valve body. Therefore, it is necessary to adjust the position of the spring and the like when assembling the valve body. In general, various structures other than the safety valve are attached to the valve body, so if you adjust the position of the spring when assembling the valve body, other components will not be attached between them and the valve body Production efficiency decreases. Therefore, it is desired to improve the assemblability of the safety valve.

Therefore, an object of the present invention is to provide a valve device that can improve the assemblability with respect to the valve device having the functions of both the safety valve and the manual valve.

A valve device according to the present invention is provided in a housing in which a valve passage connecting a first port and a second port is formed, and in the housing so as to open and close the valve passage by a manual operation, and the first port is opened to the atmosphere. A valve body for a manual valve having a discharge passage connected to the valve body, a valve body for a safety valve which is provided in the valve body for the manual valve so as to close the discharge passage, and is movable in a direction to open the discharge passage, A biasing spring that is provided in the valve body for the manual valve and biases the valve body for the safety valve in a direction to open the discharge passage; and a state provided in the valve body for the manual valve and closing the discharge passage. A support body that supports the safety valve valve body so as to resist the bias of the biasing spring, and releases the support for the safety valve valve body when the temperature reaches or exceeds a predetermined temperature.

According to the present invention, the manual valve function can be achieved by the manual valve function body, the safety valve function can be achieved by the safety valve function body, and the functions of both the manual valve and the safety valve can be achieved. Further, since the valve element for safety valve, the biasing spring and the support element are provided in the valve element for manual valve, they can be configured as a unit. Accordingly, after the safety valve valve body and the like are assembled to the manual valve valve body, the manual valve valve body can be attached to the housing. That is, the positions of the biasing spring and the support can be adjusted in advance before the valve element for the manual valve is attached to the housing, and the production efficiency can be improved.

In the above invention, a seat member provided in the housing and on which the valve element for a manual valve is seated is provided, and the valve element for a manual valve closes the valve passage by seating on the seat member, and the seat member May open the valve passage, and the safety valve valve body may close the discharge passage in a state of being inserted into the discharge passage.

According to the above configuration, the valve passage is configured to be opened and closed by seating and separating the valve element for the manual valve from the seat member, so that the positional deviation of the valve element for the manual valve with respect to the seat member during opening and closing is allowed. can do. Therefore, the valve passage can be repeatedly opened and closed without considering the positional deviation of the valve element for the manual valve with respect to the seat member, and the valve passage can be repeatedly opened and closed simply by operating the manual operation portion.

In the above invention, the second port may be connected to an atmosphere opening port that is open to the atmosphere, and the discharge passage may be connected to the second port.

According to the above configuration, it is not necessary to newly form a passage for connecting the discharge passage to the atmosphere, and the number of passages formed in the housing can be reduced. As a result, the size of the housing can be reduced.

In the above invention, the housing has a third port connected to an atmosphere opening port that is open to the atmosphere, the first port is connected to a tank that stores gas, and the second port is connected to the tank. It may be connected to at least one of a filling port for filling the gas and an outlet for letting out the gas in the tank, and the discharge passage may be connected to the atmosphere via the third port.

According to the above configuration, it is possible to play a role of a manual valve for disconnecting between the tank and at least one of the passage for filling the tank with gas and the passage for outputting gas in the tank.

In the above invention, the support is configured to be relatively displaceable with respect to the manual valve valve by a manual operation in a direction in which the discharge passage is opened, and the safety valve valve is configured such that the support is the manual valve. The discharge passage may be opened when it is displaced relative to the valve body.

According to the above configuration, the discharge passage can be opened by manually operating the valve element for the safety valve. Accordingly, the first port can be communicated with the atmosphere even by manually operating the valve element for the safety valve.

In the above invention, the housing further comprises a restricting member for restricting a moving distance of the manual valve body to a predetermined distance or less when the manual valve body is moved in a direction in which the valve passage opens, The valve element for the manual valve may be inserted so that the sealed state with the housing is maintained even if the valve element for the manual valve moves for a predetermined distance.

According to the above configuration, the valve element for a manual valve can be moved to prevent the valve element for a manual valve from coming out of the housing, and at the same time, the gas can be prevented from coming out of the housing.

ADVANTAGE OF THE INVENTION According to this invention, the assembling property can be improved regarding the valve device which has the function of both a safety valve and a manual valve.

It is a circuit diagram which shows the circuit of the stopper of the tank provided with the valve device of 1st Embodiment. It is sectional drawing which shows the valve apparatus of 1st Embodiment. FIG. 3 is a cross-sectional view showing a state where the valve passage is opened in the valve device of FIG. 2. FIG. 3 is a cross-sectional view showing a state in which a discharge passage is opened under a condition of a predetermined temperature or higher in the valve device of FIG. 2. It is sectional drawing which shows the valve apparatus of 2nd Embodiment. FIG. 6 is a cross-sectional view showing a state where the valve passage is opened in the valve device of FIG. 5. FIG. 6 is a cross-sectional view showing a state in which the discharge passage is opened by manual operation in the valve device of FIG. 5. FIG. 3 is a cross-sectional view showing a state in which a discharge passage is opened under a condition of a predetermined temperature or higher in the valve device of FIG. 2.

Hereinafter, the valve devices 1 and 1A of the first and second embodiments according to the present invention will be described with reference to the drawings. In addition, the concept of the direction used in the following description is used for convenience of description, and the direction of the configuration of the invention is not limited to the direction. Further, the valve devices 1 and 1A described below are merely one embodiment of the present invention. Therefore, the present invention is not limited to the embodiments, and additions, deletions, and changes can be made without departing from the spirit of the invention.

[First Embodiment]
The gas tank 2 shown in FIG. 1 is provided with a plug 11 for closing its opening, and the plug 11 is provided with various passages and configurations for filling, outputting and discharging gas. .. For example, a tank passage 13 is formed in the valve body 12 provided in the stopper 11. The tank passage 13 has a tank port 13a, and is connected to the inside of the tank 2 via the tank port 13a. Further, a manual valve 14 is interposed in the tank passage 13, and the tank passage 13 can be opened and closed by manually operating the manual valve 14. A filling passage 15, an output passage 16, and an atmosphere opening passage 17 are formed in the valve body 12, and the three passages 15 to 17 are connected in parallel on the downstream side of the manual valve 14 in the tank passage 13. ing.

The filling passage 15 has a filling port 15a, and a filling gas can be injected from the filling port 15a. Further, the check valve 18 is interposed in the filling passage 15 so that the gas in the tank 2 is not discharged from the filling port 15a. The output passage 16 has an output port 16a, and the output port 16a is connected to a gas consumer (for example, an internal combustion engine and a fuel cell) via a pressure reducing valve, a pressure regulating valve, or the like. The atmosphere opening passage 17 has an atmosphere opening port 17a, and the atmosphere opening port 17a is open to the atmosphere so that the gas in the tank 2 can be released to the atmosphere. Further, the valve device 1 is provided in the atmosphere opening passage 17. The valve device 1 is a composite valve having a manual valve function for opening and closing the atmosphere opening passage 17 by a manual operation, and a safety valve function for opening the atmosphere opening passage 17 when the ambient temperature of the valve device 1 becomes a predetermined temperature or higher. is there. The structure of the valve device 1 will be described in detail below.

<Valve device>
As shown in FIG. 2, the valve device 1 is configured to include a valve body 12 that constitutes a stopper 11, and further includes a seat member 20, a manual valve valve body 21, a safety valve valve body 22, and a biasing spring. 23, a support 24, and a regulation plate 25. The valve body 12 is an example of a housing and has a valve hole 31. The valve hole 31 is a hole having a circular cross section formed along a predetermined axis L1 and mainly includes three parts. That is, the valve hole 31 has a communicating portion 31a, a seat fitting portion 31b, and a valve body accommodating portion 31c, and the valve body accommodating portion 31c, the seat fitting portion 31b, and the communicating portion 31a have an axial line. They are arranged in that order from one side (outside) in the axial direction along L1.

The communicating portion 31a has an upstream side connected to the tank passage 13 and a downstream side connected to the seat fitting portion 31b. The seat fitting portion 31b is formed to have a larger diameter than the communication portion 31a, and is connected to the valve body accommodation portion 31c on the side opposite to the communication portion 31a. An annular seat member 20 made of synthetic resin or the like is fitted to the seat fitting portion 31b in a state where a seal is achieved. The inner diameter of the sheet member 20 is substantially equal to the hole diameter of the communicating portion 31a. Further, the opening of the seat member 20 on the valve body accommodation portion 31c side constitutes the tank side port 26, and the communication portion 31a and the valve body accommodation portion 31c are connected via the tank side port 26 which is an example of the first port. Communicate with each other. Further, the valve body accommodating portion 31c is formed to have a larger diameter than the seat fitting portion 31b, and one side in the axial direction of the valve body accommodating portion 31c is open to the outside. From this opening, a valve element 21 for a manual valve is inserted and screwed onto the inner peripheral surface of the valve body 12.

The valve element 21 for a manual valve is formed in a substantially cylindrical shape and is inserted into the valve element accommodating portion 31c so that its axis line substantially coincides with the axis line L1. The valve body 21 for a manual valve has a tip portion 21a formed to have a smaller diameter than the remaining portion, and the outer diameter of the tip portion 21a is smaller than the outer diameter of the seat member 20 and larger than its inner diameter. The tip portion 21a having such a shape is configured to close the tank-side port 26 by sitting on the seat member 20.

A seal groove 21b is formed on the outer peripheral surface of the valve body 21 for the manual valve over the entire circumference in the circumferential direction, and an annular seal member 27 is fitted in the seal groove 21b. .. Further, an inward flange portion 12 a is formed on the inner peripheral surface of the valve body 12 at a position corresponding to the seal member 27. The inward flange portion 12a projects inward in the radial direction, and the seal member 27 contacts the inward flange portion 12a. As a result, the region of the valve body containing portion 31c on the communication portion 31a side is sealed, and the valve passage 31d is formed therein.

In addition, a plurality of communication holes 21c (four communication holes 21c in the present embodiment) are formed on the outer peripheral surface of the valve body 21 for the manual valve at a portion on the tip side of the seal groove 21b. The four communication holes 21c are arranged at equal intervals in the circumferential direction and penetrate the manual valve element 21 in the radial direction. The manual valve valve body 21 has an inner hole 30 therein, and the inner hole 30 communicates with the valve passage 31d by four communication holes 21c and by opening the safety valve valve body 22. .. A discharge port 28, which is an example of a second port, is formed on the inner peripheral surface of the valve body 12, and the discharge port 28 faces the valve passage 31d and is connected to the valve passage 31d.

The valve body 21 for a manual valve thus configured is mounted by screwing the portion of the valve body 12 on the base end side with respect to the seal groove 21b to the inner peripheral surface of the valve body 12, and receives a load directed in one axial direction. Even if it does not come off from the valve body accommodation portion 31c. On the other hand, when the valve element for manual valve 21 is turned around the axis L1, the valve element for manual valve 21 moves in one axial direction, and the tip portion 21a of the valve element for manual valve 21 can be separated from the seat member 20. .. Further, when the manual valve valve body 21 is rotated in the opposite direction, the manual valve valve body 21 moves in the other axial direction, and the tip portion 21 a of the manual valve valve body 21 can be brought close to the seat member 20 to be seated. it can. As described above, by rotating the valve body 21 for the manual valve, the valve body 21 for the manual valve is moved between the first open position in which the seat member 20 is seated and the first closed position in which the seat member 20 is separated. It has become. Further, the valve body 21 for a manual valve has a base end side portion protruding outward from the valve body housing portion 31c, and has a manual operation portion 21d at the base end portion.

21 d of manual operation parts are formed in the outer peripheral surface of the base end part of the valve body 21 for manual valves over the whole circumference direction. The manual operation part 21d projects outward from the base end part like a flange, and the outer shape of the manual operation part 21d is formed in a substantially polygonal shape (for example, a hexagon) in a plan view. That is, the manual operation part 21d can engage a tool such as a wrench on the outer peripheral surface thereof, and the manual operation part 21d is rotated by turning the engaged tool, that is, the manual valve element 21 is set to the axis L1. It can be rotated around. Thereby, the valve body 21 for manual valves can be rotated by using a tool such as a wrench, and the valve body 21 for manual valves can be moved to one side and the other side in the axial direction. Further, the valve body 12 is provided with a restriction plate 25.

The regulation plate 25 is a plate-shaped member formed in an L shape in a side view, and is at least one at a position radially outward of the manual operation portion 21d, and in the present embodiment, the radial direction of the manual operation portion 21d. One on each side. The regulation plate 25 extends from the surface of the valve body 12 parallel to the axis L1, and the tip side portion covers the outer peripheral edge portion of the manual operation portion 21d. Further, there is a predetermined space X between the tip side portion of the regulation plate 25 and the outer peripheral edge portion of the manual operation portion 21d, and the manual valve valve body 21 is rotated to move the manual valve valve body 21 in the axial direction. When moved to one side, the movement amount of the manual valve valve body 21 is regulated to the distance X or less by the regulation plate 25 so that the manual valve valve body 21 does not come off from the valve body 12. The distance X is set to be smaller than at least the length of the manual valve element 21 inserted into the valve hole 31, and in the present embodiment, is set to a distance such that the seal member 27 does not come off the inward flange portion 12a. ing. Therefore, even when the valve element 21 for the manual valve moves about the distance X, the valve element 21 is inserted into the valve hole 31 while maintaining the sealed state with the inward flange 12a.

The valve element 21 for a manual valve thus configured has the inner hole 30 therein as described above, and the inner hole 30 is formed along the axis L1. Further, the inner hole 30 is composed of three portions, a communication portion 30a, an insertion portion 30b, and a housing portion 30c, which are arranged in the above-described order from the tip end side (that is, the other side in the axial direction) of the manual valve element 21. positioned. That is, the communication portion 30a is located closest to the tip end side and opens at the tip end of the manual valve element 21. Therefore, in the state where the valve element 21 for the manual valve is seated on the seat member 20, the communication portion 30a is connected to face the tank side port 26. The insertion portion 30b is located between the communication portion 30a and the accommodation portion 30c, and has a larger diameter than the communication portion 30a and a diameter smaller than that of the accommodation portion 30c. The above-described four communication holes 21c are connected to the housing portion 30c, and the safety valve valve body 22 is housed therein.

The valve body 22 for a safety valve is formed in a substantially columnar shape, and has a tip end side formed to have a small diameter with respect to an intermediate portion 22b thereof, and a base end side formed to have a larger diameter than the tip end side. Further, the tip portion 22a of the safety valve valve body 22 is formed thinner, and a seal member 32 is externally mounted on the outer peripheral surface thereof. The seal member 32 is formed with a diameter slightly larger than the hole diameter of the insertion portion 30b of the inner hole 30, and is inserted into the insertion portion 30b of the inner hole 30 together with the tip end portion 22a of the safety valve valve body 22. As a result, the seal member 32 is interposed between the tip portion 22a of the safety valve valve body 22 and the inner peripheral surface of the manual valve valve body 21, and the insertion portion 30b is closed. Further, the safety valve valve body 22 is accommodated in the manual valve valve body 21 so as to be relatively displaceable, and by moving to the other side in the axial direction, the distal end portion 22a is pulled out from the insertion portion 30b and the accommodation portion 30c is opened. It has become. As described above, the safety valve valve body 22 is configured to be movable between the second closed position where the insertion portion 30b is closed and the second open position where the insertion portion 30b is opened.

Further, as described above, the intermediate portion 22b of the safety valve valve body 22 is formed to have a large diameter with respect to the tip side of the safety valve valve body 22, and the intermediate portion 22b of the safety valve valve body 22 is urged. The spring 23 is externally mounted. The biasing spring 23 is a so-called compression coil spring, and is formed in a substantially cylindrical shape. The urging spring 23 has the intermediate portion 22b of the safety valve element 22 inserted therein, and is arranged in the manual valve element 21 in this state, that is, in the accommodating portion 30c. Further, the base end side of the safety valve valve body 22 is formed to have a larger diameter than the intermediate portion 22b, and has the flange 33, as described above. The flange 33 is formed over the entire circumference in the circumferential direction on the outer peripheral surface of the base end portion of the safety valve valve body 22, and the safety valve valve body 22 receives the biasing spring 23 by the flange 33.

More specifically, the flange 33 projects outward in the radial direction and forms the first spring receiving surface 33a. The first spring receiving surface 33a is an annular flat surface that faces the other axial direction and surrounds the intermediate portion of the flange 33. The manual valve element 21 has a second spring receiving surface 21e corresponding to the first spring receiving surface 33a. The second spring receiving surface 21e is an annular flat surface formed in a portion of the inner hole 30 where the insertion portion 30b and the housing portion 30c are connected and the diameter of which is increased. These two spring bearing surfaces 33a, 21e are arranged so as to face each other in the axial direction, and the biasing spring 23 is arranged in a compressed state between the two spring bearing surfaces 33a, 21e. As a result, the safety valve valve body 22 is biased by the biasing spring 23 in one axial direction, that is, in the direction in which the safety valve valve body 22 is pulled out from the insertion portion 30b. The valve body 22 for the safety valve is supported by the support body 24 so as to resist the bias of the biasing spring 23.

The support 24 has a lid 34 and a glass ball 35. The lid 34 is formed in a generally cylindrical shape with a bottom, and is provided in the valve body 21 for a manual valve. That is, the lid 34 is inserted into the accommodation portion 30c of the inner hole 30 through the opening on the proximal end side of the manual valve valve body 21 and is screwed onto the inner peripheral surface of the manual valve valve body 21 while achieving a seal. ing. Thereby, the inner hole 30 is sealed. Further, the tip side portion of the lid 34 reaches the flange 33 of the valve body 22 for the safety valve, and the flange 33 is housed in the lid 34. There is a space between the flange 33 and the ceiling surface 34 a of the lid 34, and a glass ball 35 is housed in the space between the flange 33 and the ceiling surface of the lid 34. In FIG. 2, the tip side portion of the lid 34 reaches the flange 33 of the safety valve valve body 22, but the tip side portion of the lid 34 does not have to reach the flange 33 of the safety valve valve body 22. In that case, the flange 33 is fitted in the valve body 21 for the manual valve.

The glass ball 35 is a substantially hollow cylindrical member whose both sides in the axial direction are closed, and is made of glass or the like. A liquid is enclosed in the glass ball 35. The glass bead 35 thus configured is interposed between the flange 33 and the ceiling surface 34a of the lid 34, and supports the safety valve element 22 from one axial side. More specifically, a synthetic resin sheet 36 is attached to the ceiling surface of the lid 34, and one end of the glass ball 35 in the axial direction is brought into contact with the sheet 36. An insertion hole 33b is formed around the axis of the base end of the flange 33, and the other end of the glass ball 35 in the axial direction is inserted into the insertion hole 33b. Further, a synthetic resin ring member 37 is arranged at the opening of the insertion hole 33b, and the glass ball 35 is inserted through the ring member 37 to support the outer peripheral surface of the glass ball 35. With such an arrangement, the support valve 24 supports the safety valve element 22 against the biasing force.

A communication passage 22c is formed in the intermediate portion 22b and the flange 33 of the safety valve valve body 22 to communicate with the insertion hole 33b. The communication passage 22c is a part of the housing portion 30c of the inner hole 30 and is connected to an annular space 38 around the intermediate portion 22b of the safety valve valve body 22. The space 38 constitutes a discharge passage 39 together with the communication portion 30a and the insertion portion 30b of the inner hole 30 and the four communication holes 21c, and the discharge passage 39 is connected to the discharge port 28 via the valve passage 31d. ing. The safety valve valve body 22 closes the discharge passage 39 by being positioned in the second closed position, and opens the discharge passage 39 by being positioned in the second open position.

<Function of valve device>
In the valve device 1 configured in this way, the tip portion 21a of the manual valve element 21 is seated on the seat member 20, and the valve passage 31d is closed. Further, in the state in which the front end portion 21a is seated on the seat member 20, the tank side port 26 and the discharge passage 39 are connected, but the front end portion 22a of the safety valve body 22 is inserted into the insertion portion 30b, and the discharge is performed. The passage 39 is also closed. Thus, in the valve device 1, the valve passage 31d and the discharge passage 39 are closed by the valve bodies 21 and 22 in the initial state. From this state, if a tool is engaged with the manual operation portion 21d of the manual valve valve body 21 to rotate the manual valve valve body 21 or the glass ball 35 of the valve device 1 reaches a predetermined temperature or higher, the valve passage 31d and the discharge passage 39 are adapted to open and will be described in detail below.

First, the manual valve function of manually opening and closing the valve passage 31d to release gas to the atmosphere will be described. In the valve device 1, the manual valve portion 21d of the manual valve element 21 is engaged with a tool to rotate the manual valve element 21 around the axis to move the manual valve element 21 in the axial direction. (See FIG. 3). By moving the manual valve valve body 21 in one axial direction, the tip portion 21a of the manual valve valve body 21 separates from the seat member 20, and the valve passage 31d opens. As a result, the gas is guided from the tank side port 26 to the discharge port 28 through the valve passage 31d.

As described above, the valve device 1 having such a function is interposed in the atmosphere opening passage 17, the tank side port 26 is the upstream portion of the atmosphere opening passage 17, and the discharge port 28 is the downstream side of the atmosphere opening passage 17. It is connected to each part. Therefore, the atmosphere opening passage 17 is opened by opening the valve passage 31d. As a result, the gas in the upstream side portion of the atmosphere opening passage 17 is guided to the downstream side portion of the atmosphere opening passage 17 through the valve passage 31d and can be released to the atmosphere from the atmosphere opening port 17a. This allows the gas in the tank 2 to be released to the atmosphere via the valve device 1 in a state where the tank passage 13 is opened by the manual valve 14.

Further, the tip portion 21a of the manual valve valve body 21 can be further separated from the seat member 20 by continuing to rotate the manual valve valve body 21 in one direction around the axis, and the manual valve valve body 21 is moved in the axial direction. The valve passage 31d can be opened at an opening degree according to the distance. That is, the valve passage 31d can be opened with a large opening by continuously turning the manual valve body 21 around the axis, and the gas in the tank 2 can be quickly released to the atmosphere. On the other hand, if the manual valve element 21 is continuously rotated around the axis, the manual operation part 21d eventually contacts the regulation plate 25. As a result, the manual valve element 21 can be prevented from moving further in the axial direction, and the manual valve element 21 can be prevented from slipping out of the valve hole 31. Further, the seal member 27 remains in contact with the inward flange portion 12a of the valve body 12 when the manual operation portion 21d hits the regulation plate 25. Therefore, the seal member 27 can isolate the valve passage 31d from the atmosphere and prevent gas from leaking to the atmosphere.

Further, in the valve device 1, the manual valve part 21d can be moved in the other axial direction by engaging the tool with the manual operation part 21d and rotating the manual valve part 21 around the axis to the other side. As a result, the distal end portion 21a of the valve element 21 for the manual valve approaches the seat member 20, and eventually sits on the seat member 20. Then, the valve passage 31d is closed and the flow of gas from the tank side port 26 to the discharge port 28 is stopped. That is, the atmosphere opening passage 17 is closed by closing the valve passage 31d, and the flow from the upstream side portion to the downstream side portion of the atmosphere opening passage 17 is stopped. As a result, the release of gas from the atmosphere opening port 17a is stopped.

Further, as described above, the valve device 1 has a safety valve function of opening the discharge passage 39 and discharging gas to the atmosphere when the peripheral temperature of the glass device 35 rises and the peripheral temperature of the glass ball 35 increases. The safety valve function will be described below. In the initial state, as described above, the manual valve valve body 21 is seated on the seat member 20 and the safety valve valve body 22 is inserted into the insertion portion 30b. Therefore, the valve passage 31d and the discharge passage 39 are closed so that the gas in the tank 2 is not discharged from the atmosphere opening port 17a.

In this state, when the ambient temperature of the valve device 1 rises and the temperature of the glass beads 35 rises, the liquid in the glass beads 35 expands accordingly. When the temperature of the glass beads 35 (more specifically, the temperature of the liquid) reaches or exceeds a predetermined temperature, the glass beads 35 burst without being able to withstand the expansion of the liquid. By the rupture, there is no support for the safety valve valve body 22, and the support of the safety valve valve body 22 is released (see FIG. 4 ). As a result, the safety valve valve body 22 is moved in the axial direction by the urging of the urging spring 23, and the tip portion 22a of the safety valve valve body 22 eventually comes off from the insertion portion 30b. Then, the insertion portion 30b and the accommodation portion 30c communicate with each other, and the discharge passage 39 opens. In the state where the valve element 21 for the manual valve is seated on the seat member 20, the tank side port 26 communicates with the discharge passage 39, and the gas guided to the tank side port 26 passes through the discharge passage 39 and the valve passage 31d. And further flows from the valve passage 31d to the discharge port 28. That is, by opening the discharge passage 39, the upstream side portion and the downstream side portion of the atmosphere opening passage 17 communicate with each other, and the gas in the tank 2 can be discharged from the atmosphere opening port 17a.

As described above, the valve device 1 has both a manual valve function and a safety valve function. Further, the valve device 1 is configured such that the safety valve valve body 22, the biasing spring 23, and the support body 24 are assembled in the manual valve valve body 21, that is, they are unitized. Therefore, after the safety valve valve body 22 and the like are assembled to the manual valve valve body 21, the manual valve valve body 21 can be attached to the valve body 12. That is, the positions of the urging spring 23 and the glass balls 35 can be adjusted in advance before the manual valve body 21 is attached to the valve body 12, and the production efficiency can be improved.

Further, in the valve device 1, the manual valve valve body 21 is seated on the seat member 20 to close the valve passage 31d, and the manual valve valve body 21 is separated from the seat member 20 to open the valve passage 31d. Has been done. Therefore, the shift of the valve element 21 for the manual valve with respect to the seat member 20 at the time of opening/closing can be allowed. Therefore, the valve passage 31d can be repeatedly opened and closed without considering the positional deviation of the manual valve element 21 with respect to the seat member 20, and the valve passage 31d can be repeatedly opened and closed mainly by operating the manual operation portion 21d. be able to. On the other hand, in the valve device 1, the tip portion 22a of the safety valve body 22 is inserted into the insertion portion 30b to close the discharge passage 39. Thereby, the discharge passage 39 can be closed with higher accuracy.

Further, in the valve device 1, the discharge passage 39 for discharging the gas to the atmosphere is connected to the atmosphere opening port 17a via the discharge port 28. Therefore, it is not necessary to newly form a passage for connecting the discharge passage 39 to the atmosphere, and the number of passages formed in the valve body 12 can be reduced. As a result, the valve body 12 can be downsized.

[Second Embodiment]
The valve device 1A of the second embodiment has a similar configuration to the valve device 1 of the first embodiment. Therefore, in the description of the configuration of the valve device 1A of the second embodiment, configurations different from those of the valve device 1 of the first embodiment will be mainly described, and the same configurations will be denoted by the same reference numerals and description thereof will be omitted. ..

<Valve device>
The valve device 1A of the second embodiment shown in FIG. 5 is configured so that the valve device 1 of the first embodiment also has the function of the manual valve 14. That is, the valve device 1A is configured not only to open and close the atmosphere opening passage 17, but also to open and close the tank passage 13 by manual operation. Hereinafter, a specific configuration of the valve device 1A will be described.

The valve device 1A includes a valve body 12A, a seat member 20, a manual valve valve body 21A, a safety valve valve body 22, an urging spring 23, a support body 24, and restriction plates 25, 25A. The manual valve valve body 21A is also formed with a seal groove 21f on the outer peripheral surface of the tip portion 21a over the entire circumference in the circumferential direction, and an annular seal member 27A is fitted in the seal groove 21f. Further, the inner peripheral surface of the valve body 12 has a portion facing the tip portion 21a narrower inward in the radial direction than the base end portion, and a step portion 12b is formed therein. The seal member 27A is in contact with the step portion 12b on the inner peripheral surface of the valve body 12 to seal between the tip portion 21a of the valve body for manual valve 21A and the valve body 12.

Further, in the tip portion 21a of the manual valve element 21A, the portion on the tip side of the seal groove 21f is formed to have a smaller diameter than the portion on the base end side of the seal groove 21f. As a result, a valve passage 31d, which is an annular space, is formed between the tip portion 21a of the valve body for manual valve 21A and the valve body 12. A filling port 41 and an output port 42 are formed on the inner peripheral surface of the valve body 12, and the filling port 41 and the output port 42, which are an example of a second port, face the valve passage 31d. The filling port 41 is connected to the filling port 15a via the filling passage 15, and the output port 42 is connected to the output port 16a via the output passage 16.

The filling port 41 and the output port 42 are blocked from the tank-side port 26 in a state where the tip portion 21a is seated on the seat member 20 and the valve passage 31d is closed, and the tip portion 21a is separated from the seat member 20. When the valve passage 31d is open, it is connected to the tank side port 26 via the valve passage 31d. In this way, the valve element 21A for the manual valve is seated on and released from the seat member 20 to open and close the valve passage 31d, whereby the filling port 41 and the output port 42 and the tank side port 26 are shut off, It is supposed to be connected.

As described above, in the valve device 1A, the valve member 31A is provided with the seal member 27A to form the valve passage 31d around the distal end portion 21a of the manual valve valve body 21A. Further, by providing the seal member 27A, the valve space 31e is formed around the intermediate portion of the manual valve body 21A and between the two seal members 27, 27A. The valve space 31e is separated from the valve passage 31d and the atmosphere by the two sealing members 27 and 27A, and the discharge port 28 is arranged on the inner peripheral surface of the valve body 12 so as to be arranged at a position corresponding to the valve space 31e. Is formed in. That is, the valve space 31e is connected to the atmosphere opening port 17a via the discharge port 28, which is an example of the third port.

Further, in the lid 34 of the support body 24, the base end portion thereof projects from the valve body 21A for a manual valve in one axial direction, and the base end portion thereof has a manual operation portion 34b. The manual operation part 34b is formed on the outer peripheral surface of the lid 34 over the entire circumference in the circumferential direction. The manual operation part 34b projects outward like a flange like the manual operation part 21d of the manual valve element 21A, and is formed into a substantially polygonal shape (for example, a hexagon) in a plan view. The manual operation portion 34b is configured such that a tool such as a wrench is engaged with the outer peripheral surface thereof, and the manual operation portion 34b of the safety valve valve body 22 can be rotated around the axis L1 by the tool. Further, the manual operation portion 34b of the safety valve valve body 22 is screwed onto the manual valve valve body 21A, and can be displaced relative to the manual valve valve body 21A in one and the other axial direction by turning. You can do it.

Further, the valve body 12 is provided with another one, that is, a second regulation plate 25A, in addition to the first regulation plate 25 which is the regulation plate 25. The second regulation plate 25A is a plate-shaped member that is formed in an L shape in a side view like the first regulation plate 25, and is arranged so as to cover the outer peripheral edge portion of the manual operation portion 34b of the safety valve valve body 22. Has been done. The second regulation plate 25A has a predetermined space X1 (>X) between it and the outer peripheral edge of the manual operation portion 34b. The second regulation plate 25A thus configured regulates the movement amount of the safety valve valve body 22 with respect to the valve body 12 in one axial direction to the distance X1 or less, and is used for the manual valve when the safety valve valve body 22 is moved. The safety valve element 22 is prevented from coming off from the valve element 21. The interval X1 is set to be smaller than at least the length of the manual operation portion 34b of the safety valve body 22 inserted into the inner hole 30, and in the present embodiment, the seal member 43 does not come off from the inward flange portion 21g. Set to distance. Therefore, even if the manual operation part 34b of the safety valve valve body 22 moves about the distance X1, it is inserted into the inner hole 30 while maintaining the sealed state with the inward flange part 21g.

<Function of valve device>
As described above, the valve device 1A configured as described above has both a manual valve function and a safety valve function for the atmosphere opening passage 17, as well as the valve device 1 of the first embodiment, and opens and closes the tank passage 13. It also has a function of the manual valve 14 that operates. The functions will be described below.

Also in the valve device 1A, the front end portion 21a of the valve body for manual valve 21A is seated on the seat member 20, and the valve passage 31d is closed. Further, in the state in which the front end portion 21a is seated on the seat member 20, the tank side port 26 and the discharge passage 39 are connected, but the front end portion 22a of the safety valve body 22 is inserted into the insertion portion 30b, and the discharge is performed. The passage 39 is closed. Thus, in the valve device 1A, the valve passage 31d and the discharge passage 39 are closed by the valve bodies 21 and 22 in the initial state. From this state, when the manual operation portion 34b of the valve body for manual valve 21A or the valve body for safety valve 22 is rotated, or when the glass ball 35 of the valve device 1 reaches a predetermined temperature or higher, the valve passage 31d and the discharge passage 39 are opened. In the following, each case will be described.

First, a case where the valve passage 31d is opened and closed by a manual operation, that is, a manual valve function of connecting the tank side port 26 to the filling port 41 and the output port 42 by the manual operation will be described. In the valve device 1A, the manual valve valve body 21A can be moved in one axial direction by rotating the manual valve valve body 21A in one axial direction with a tool (see FIG. 6). By moving, the tip portion 21a of the manual valve element 21A is separated from the seat member 20, and the valve passage 31d is opened. As a result, the tank side port 26 is connected to the filling port 41 and the output port 42.

As described above, the filling port 41 is connected to the filling passage 15, and the output port 42 is connected to the output passage 16. The tank-side port 26 is connected to the tank passage 13. Therefore, by opening the valve passage 31d, the tank passage 13 is connected to the filling passage 15 and the output passage 16, so that the gas can be filled in the tank 2 or the gas in the tank 2 can be output to the gas consumer. ..

Further, by continuing to turn the manual valve valve body 21A to one side around the axis, the tip end portion 21a of the manual valve valve body 21A can be further separated from the seat member 20 and the opening degree of the valve passage 31d can be increased. When the valve body 21A for the manual valve is continuously rotated to one side around the axis, the manual operation portion 21d eventually comes into contact with the regulation plate 25. As a result, the manual valve element 21A can be prevented from moving further in the axial direction, and the manual valve element 21 can be prevented from slipping out of the valve hole 31.

In the valve device 1A, the manual valve valve body 21A can be moved in the other axial direction by rotating the manual valve valve body 21A in the other axial direction with a tool. By moving, the front end portion 21a of the manual valve element 21A is seated on the seat member 20, and the valve passage 31d is closed. As a result, the tank side port 26, the filling port 41, and the output port 42 are shut off. That is, the tank passage 13 is blocked from the filling passage 15 and the output passage 16, so that the tank 2 cannot be filled with gas or the gas in the tank 2 cannot be output to the gas consumer.

Further, in the valve device 1A, the manual valve element 21A is used to open and close the tank passage 13, the filling passage 15 and the output passage 16, so that the valve device 1 different from the valve device 1 of the first embodiment is used. By the method, the tank side port 26 is opened to the atmosphere. That is, in the valve device 1A, the manual operation part 34b of the safety valve element 22 is manually operated in order to open the tank side port 26 to the atmosphere. That is, the safety valve valve body 22 can be moved in one axial direction by engaging the tool with the manual operation portion 34b and rotating the safety valve valve body 22 in one axial direction (see FIG. 7). By moving, the tip portion 22a of the safety valve valve body 22 comes out of the insertion portion 30b, the insertion portion 30b and the accommodation portion 30c communicate with each other, and the discharge passage 39 opens. As a result, the tank-side port 26 is connected to the discharge port 28 and the atmosphere beyond it through the discharge passage 39 and the valve space 31e. That is, the upstream side portion and the downstream side portion of the atmosphere opening passage 17 are connected. As a result, the gas in the tank 2 can be released from the atmosphere opening port 17a.

Further, the valve device 1A has a safety valve function as described above, and when the ambient temperature of the valve device 1 rises to a predetermined temperature or higher, the discharge passage 39 is opened like the valve device 1 of the first embodiment. As a result, the tank side port 26 is connected to the discharge port 28 via the discharge passage 39 and the valve space 31e, and the gas in the tank 2 can be discharged from the atmosphere opening port 17a (see FIG. 8). For the detailed description of the safety valve function, refer to the description of the valve device 1 according to the first embodiment, and the description thereof will be omitted here.

The valve device 1A thus configured has the same manual valve function and safety valve function as the valve device 1 of the first embodiment, and opens and closes the tank passage 13, the filling passage 15 and the output passage 16. It also has a function of the manual valve 14. Therefore, since it is not necessary to provide the manual valve 14 separately from the valve device 1A, the number of parts constituting the plug 11 and the number of passages formed in the plug 11 can be reduced, and the plug 11 can be miniaturized. You can

In addition, the valve device 1A of the second embodiment has the same effects as the valve device 1 of the first embodiment.

[Other forms]
Although the valve devices 1 and 1A of the first and second embodiments are used for tanks, they are not necessarily limited to tanks and can be used for all devices involving gas flow. Further, in the valve device 1A of the second embodiment, both the filling port 41 and the output port 42 are examples of the second port, but at least one port 41, 42 is connected to the valve passage 31d. Just do it.

Further, in the valve devices 1 and 1A of the first and second embodiments, the glass ball 35 in which the liquid is sealed is adopted as the support 24 to form the glass ball safety valve, but the glass ball 35 is not always required. There is no. For example, instead of the glass balls 35, a supporting member or a rupturable plate made of molten metal may be used. In the case of the supporting member made of molten metal, the supporting member is melted and discharged from the housing portion 30c when the temperature exceeds a predetermined temperature. As a result, the support of the safety valve valve body 22 is released, the safety valve valve body 22 moves in one axial direction, and the discharge passage 39 opens. On the other hand, in the case of a rupture plate, the temperature of the rupture plate becomes equal to or higher than a predetermined temperature, the pressure of the gas in the tank side port 26 becomes equal to or higher than a predetermined pressure, and the rupture plate is ruptured by being pushed by the safety valve valve body 22. By rupturing, the support of the safety valve valve body 22 is released, the safety valve valve body 22 moves in one axial direction, and the discharge passage 39 opens. As described above, various configurations can be applied to the support 24.

1,1A valve device 2 tank 12 valve body (housing)
15a Filling port 16a Output port (outlet port)
17a Air opening 20 Seat member 21 Manual valve valve body 21A Manual valve valve body 22 Safety valve valve body 23 Energizing spring 24 Support 25, 25A Regulator plate (regulator member)
26 Tank side port (1st port)
28 Release port (2nd port, 3rd port)
39 Discharge passage 41 Filling port (2nd port)
42 Output port (2nd port)

Claims (4)

A housing in which a valve passage connecting the first port and the second port is formed,
A valve element for a manual valve, which is provided in the housing so as to open and close the valve passage by a manual operation, and has a discharge passage that connects the first port to the atmosphere;
A valve body for a safety valve, which is provided in the valve body for a manual valve so as to close the discharge passage, and is movable in a direction of opening the discharge passage,
An urging spring provided in the valve body for the manual valve, for urging the valve body for the safety valve in a direction to open the discharge passage,
The safety valve valve body provided in the manual valve valve body and closing the discharge passage is supported so as to resist the biasing of the biasing spring, and when the temperature becomes equal to or higher than a predetermined temperature, A support for releasing support for the safety valve body,
A seat member provided on the housing and on which the valve element for a manual valve is seated ,
The valve element for a manual valve closes the valve passage by sitting on the seat member, and opens the valve passage by moving away from the seat member,
The safety valve valve body closes the discharge passage in a state of being inserted into the discharge passage,
The housing has a third port connected to an atmosphere opening port that is open to the atmosphere,
The first port is connected to a tank that stores gas,
The second port is connected to at least one of a filling port for filling the tank with the gas and an outflow port for letting out the gas in the tank,
The valve device , wherein the discharge passage is connected to the atmosphere via the third port . The second port is connected to an atmosphere opening port that is open to the atmosphere,
The discharge passage is connected to the second port, the valve device according to claim 1. The support is configured to be relatively displaceable in a direction in which the discharge passage is opened with respect to the manual valve body by a manual operation,
The valve device according to claim 1 , wherein the safety valve valve body is configured to open the discharge passage when the support body is relatively displaced with respect to the manual valve valve body. A housing in which a valve passage connecting the first port and the second port is formed,
A valve element for a manual valve, which is provided in the housing so as to open and close the valve passage by a manual operation, and has a discharge passage that connects the first port to the atmosphere;
A valve body for a safety valve, which is provided in the valve body for a manual valve so as to close the discharge passage, and is movable in a direction of opening the discharge passage,
An urging spring provided in the valve body for the manual valve, for urging the valve body for the safety valve in a direction to open the discharge passage,
The safety valve valve element provided in the manual valve valve element and closing the discharge passage is supported so as to resist the bias of the biasing spring, and when the temperature becomes equal to or higher than a predetermined temperature, A support for releasing support for the safety valve body,
A seat member provided on the housing and on which the valve element for a manual valve is seated,
The valve element for a manual valve closes the valve passage by sitting on the seat member, and opens the valve passage by moving away from the seat member,
The safety valve valve body closes the discharge passage in a state of being inserted into the discharge passage,
The housing further includes a restricting member that limits a moving distance of the manual valve body to a predetermined distance or less when moving the manual valve body in a direction in which the valve passage opens.
The valve device, wherein the valve element for a manual valve is inserted so as to maintain a sealed state with the housing even if the valve element for a manual valve moves a predetermined distance.