KR20200056866A - High-pressure shut-off valve with top feed for high-pressure regulator - Google Patents

Abstract

The present invention provides a top feed type high-pressure shut-off valve for a high-pressure regulator, which includes a main housing, a coupling and fixing member, and a connecting and fixing member in order to facilitate direct connection with an intake port of a high-pressure regulator and a high-pressure fuel line and to ensure a small amount of fine leak of a high-pressure sealing unit in the high-pressure regulator while allowing a minimum amount of high-pressure fuel to remain in the high-pressure fuel line when a gas storage container is shut off, so as to prevent a leak due to operation of a relief valve while minimizing a pressure increase in a discharge port. Accordingly, the present invention has effects of making connection work convenient, securing high safety and securing high reliability in use of the high-pressure regulator.

Description

High-pressure shut-off valve with top feed for high-pressure regulator

The present invention relates to a high pressure shutoff valve to which a top feed method used in a high pressure regulator is applied, and more specifically, it is easy to connect directly to an inlet port of a high pressure regulator and a high pressure fuel line, as well as a high pressure fuel line when blocking a gas storage container. The top feed for the high-pressure regulator that prevents leaks caused by relief valve operation while minimizing the pressure rise in the discharge port with a small amount of fine leaks in the high-pressure sealing part in the high-pressure regulator while keeping the minimum high pressure fuel of It relates to a high pressure shut-off valve to which the method is applied.

In general, a hydrogen fuel cell vehicle (FCEV) generates electricity electrochemically using oxygen and hydrogen in a stack to directly convert the chemical energy of the fuel into electric energy and use it as a power source.

Such a hydrogen fuel cell vehicle can continuously develop regardless of the capacity of the battery by supplying fuel and air from the outside, and thus, as an ideal technology that is highly efficient and hardly emits contaminants, many development attempts are currently underway.

The hydrogen fuel cell vehicle supplies hydrogen fuel to the stack via a high pressure regulator and a low pressure regulator in a fuel tank, and the hydrogen blower includes a pump and various valves connected to the low pressure regulator.

In addition, the hydrogen fuel cell vehicle has a rapid thawing water tank, all animal pump, thermostat, stack cooling radiator, air conditioner condenser, electric refrigerant compressor, water tank, humidifier, driving motor, various controllers, air blower, and air filter. Includes.

The fuel supply system of a hydrogen fuel cell vehicle corresponds to an engine of a general gasoline and diesel vehicle, and is located on the front side of the vehicle.

In addition, as a conventional high-pressure regulator applied to a hydrogen fuel cell vehicle handles high-pressure hydrogen of approximately 700 bar, stable discharge pressure, sufficient pressure resistance, and internal air tightness are very important.

In the high pressure regulator, an overpressure relief valve that relieves overpressure when overpressure is generated due to a malfunction and a fuel discharge valve that discharges internal fuel are applied.

Here, the high pressure regulator is connected to the gas storage container and the high pressure fuel line. When the gas storage container is cut off, the high pressure fuel remains excessively in the high pressure fuel line, and the high pressure pressure is directly applied to the internal high pressure sealing part of the high pressure regulator. Is formed excessively.

As a result, a fine leak in the high-pressure sealing portion causes pressure to rise along with pressure generation on the discharge port side, which in turn provides a cause of causing a dangerous situation due to gas leakage to the outside of the high-pressure regulator through relief valve operation. .

As described above, prior art related to the high-pressure regulator is installed in a form embedded in the outlet side of the fuel tank as shown in Korean Patent Registration No. 10-0938151 (hereinafter referred to as 'Prior Art Document 1'), and has excellent durability. The structure is simple, and a technique such as a regulator for high-pressure gas to reduce pressure in two stages has been proposed.

In addition, as disclosed in Korean Patent Registration No. 10-1457125 (hereinafter referred to as 'prior art document 2'), a regulator equipped with a solenoid valve maintains a constant gas fuel through a two-step decompression process at a desired output pressure. A technology such as a regulator that can be used has been proposed.

In addition, as disclosed in Korean Patent Registration No. 10-1877293 (hereinafter referred to as 'Prior Art Document 3'), a technology such as a high pressure regulator that reduces the pressure of hydrogen supplied from the fuel tank to the stack at a preset pressure. It has also been proposed.

In addition, as disclosed in Korean Patent Publication No. 10-2018-0040010 (hereinafter referred to as 'Prior Art Document 4'), it is applied to a high-pressure regulator that decompresses high-pressure fuel to a preset outlet pressure to relieve overpressure and A technique such as a safety valve for a high-pressure regulator that provides an integrated function to release the gas has also been proposed.

Republic of Korea Registered Patent Publication No. 10-0938151 Republic of Korea Registered Patent Publication No. 10-1457125 Republic of Korea Registered Patent Publication No. 10-1877293 Republic of Korea Patent Publication No. 10-2018-0040010

However, in the prior art documents 1 to 4, as described in the background technology of the invention, the high pressure regulator is connected to the gas storage container and the high pressure fuel line. When the gas storage container is shut off, high pressure fuel is supplied to the high pressure fuel line. In addition to remaining excessively, the pressure of the high pressure is directly excessively formed in the high pressure sealing portion of the high pressure regulator.

As a result, the pressure rises together with the pressure generation on the discharge port side due to the fine leak of the high-pressure sealing part, which in turn has the problem of causing a dangerous situation due to gas leakage to the outside of the high-pressure regulator through the relief valve operation. .

The specific technical problem of the present invention for solving the above-mentioned problems in general is that it is easy to directly connect with the inlet port of the high pressure regulator and the high pressure fuel line, as well as the minimum high pressure fuel in the high pressure fuel line when the gas storage container is blocked. High pressure shut-off applied to the top feed method for high-pressure regulators that prevents leaks caused by relief valve operation while minimizing the pressure rise in the discharge port with a small amount of fine leaks in the high-pressure sealing part in the high-pressure regulator while remaining. In providing a valve.

Another specific technical problem of the present invention is to enable high airtightness to be maintained at an inlet port connected to a high pressure regulator.

The specific technical solution of the present invention for solving the above technical problem is a high pressure shutoff valve to which a top feed method provided between a high pressure fuel line connected to a gas storage container and a high pressure regulator is applied, wherein the high pressure shutoff valve is external A body housing provided with a connection terminal on one side and including a bobbin with a coil wound therein; One end is coupled to and fixed to the inlet chamber of the inlet port of the high-pressure regulator at the distal end of the body housing, the other end is inserted and fixed to the body housing, and is provided reciprocally therein to form an inlet passage to open and close the inlet port in the inlet port. A coupling fixing member including a plunger; And a connection fixing member having one end inserted into and fixed to the inside of the main body housing, and the other end protruding outward of the main body housing so that a high-pressure fuel line is fastened and fixed, and a supply passage is formed therein. .

A first hermetic ring for airtightness is further fixed to the outside of the position in contact with the inlet port inlet of the coupling fixing member.

The plunger includes an opening and closing opening and closing an inlet at the tip, and a plunger rod that is formed and fixed to the opening and reciprocatingly coupled to the opening and closing, and a spring is interposed between the plunger rod and the connection fixing member.

The opening and closing is formed in a conical shape corresponding to the inlet, further comprising a second airtight ring for airtight coupling is fixed to the outer surface.

The inlet passage includes a passage corresponding to the supply passage while one side of the spring is inserted, and a plurality of inlet holes connected to the passage so as to be connected to the inlet chamber on the inlet chamber side.

The present invention not only facilitates direct connection with the inlet port of the high pressure regulator and the high pressure fuel line, but also ensures that the minimum high pressure fuel remains in the high pressure fuel line when the gas storage container is blocked, while the fine leak in the high pressure sealing part in the high pressure regulator is discharged in small amounts. By minimizing the pressure rise at the same time and preventing leakage caused by the operation of the relief valve, it not only provides convenience in connection work but also secures high safety and high reliability by using a high-pressure regulator. It also has the effect.

In addition, by allowing high airtightness to be maintained at the inlet port connected to the high-pressure regulator, it has an effect of securing higher safety according to the supply of high-pressure fuel.

1 is an exploded perspective view for explaining the present invention,
Figure 2 is a cross-sectional view of the coupling according to Figure 1,
3 is a cross-sectional view for explaining the use state of the present invention.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention will be described in more detail as follows, and the present invention is not limited or limited by the embodiments.

1 is an exploded perspective view for explaining the present invention, FIG. 2 is a combined cross-sectional view according to FIG. 1, and FIG. 3 is a cross-sectional view for explaining the use state of the present invention.

As illustrated, a typical high pressure regulator applied to a hydrogen fuel cell vehicle handles high pressure hydrogen of approximately 700 bar, so that a stable discharge pressure, sufficient pressure resistance, and internal airtightness are very important.

In the high pressure regulator, an overpressure relief valve that relieves overpressure when overpressure is generated due to a malfunction and a fuel discharge valve that discharges internal fuel are applied.

The high-pressure regulator 100 is connected to a gas storage container (not shown) and a high-pressure fuel line L. When the gas storage container is blocked, an excessive amount of high-pressure fuel remains in the high-pressure fuel line L, as well as high pressure. The high-pressure pressure is directly and excessively formed in the internal high-pressure sealing portion 102 of the regulator 100.

As a result, the pressure rises with pressure generation on the discharge port 102 side due to the fine leak of the high pressure sealing part 102, which in turn leads to leakage of gas to the outside of the high pressure regulator 100 due to the relief valve operation. This provided a cause of the dangerous situation.

Here, the technical configuration of the high-pressure regulator 100 has a well-known technical configuration, as well as the technology published in the prior art documents 3 to 4 selected and registered by the present applicant described in the technology underlying the invention. Due to the configuration and corresponding possession, detailed description of the technical configuration of the high-pressure regulator is omitted.

And this embodiment describes a high pressure shutoff valve to which the top feed method for a high pressure regulator applied to a hydrogen fuel cell vehicle is applied, but the present invention is not limited to this, and various types of high pressure such as LP fuel or natural compressed gas fuel Of course, it can also be applied to a high pressure shut-off valve to which a top feed method for a high pressure regulator that supplies gas fuel to the engine side is applied.

The present invention not only facilitates direct connection with the inlet port of the high pressure regulator and the high pressure fuel line, but also ensures that the minimum high pressure fuel remains in the high pressure fuel line when the gas storage container is blocked, while the fine leak in the high pressure sealing part in the high pressure regulator is discharged in small amounts. The present invention is to provide a high pressure shutoff valve to which a top feed method for a high pressure regulator is applied, which minimizes the pressure rise at the same time and prevents leakage caused by a relief valve operation.

The high pressure shutoff valve (1) to which the top feed method provided between the high pressure fuel line (L) and the high pressure regulator (100) connected to the gas storage container according to the present invention is applied includes a main body housing (10) and a coupling fixing member ( 20) and the connection fixing member 30. In the above, the top feed method refers to a method in which the high pressure fuel line (L) and the high pressure shutoff valve (1) are connected in series.

The main body housing 10 is provided with a conventional connection terminal 12 for supplying electricity to an external side, and includes a bobbin 15 on which a coil 14 that generates an induced current by a known method is wound. It has a technical composition. The coil is connected to the connection terminal by a known method. The bobbin has a structure in which each end of the coupling fixing member and the connection fixing member is inserted into the center of the bobbin.

In other words, the main body housing may be formed in a polygonal shape as well as a cylindrical shape as shown in a typical case in which a bobbin in which a coil is wound is embedded.

Coupling fixing member 20 has a technical configuration that is connected to the high-pressure regulator 100 and the body housing 10.

That is, one end of the main body housing 10 is fixedly coupled to the inlet chamber 112 of the inlet port 110 of the high-pressure regulator 100 by a conventional fitting or screwing method, and the other end of the main body housing 10 (10) is inserted and fixed by a conventional interference fitting or screwing method, and is provided reciprocally by supplying electricity to the coil (14) therein so as to open and close the inlet port (114) in the inlet port (110). It has a technical configuration including a plunger 24 on which 22 is formed. The plunger is provided to be reciprocated by a conventional method inside the coupling fixing member, and when electricity is applied to the coil of the body housing, it retreats from the inlet of the inlet port and opens the inlet. On the other hand, as the electrical supply to the coil is short-circuited, the inlet port of the inlet port is blocked while advancing by a spring interposed between the connection fixing members described later.

In other words, the coupling fixing member is an important component for opening and closing the inlet of the inlet port to supply and block high-pressure gas.

In addition, the outside of the position in contact with the inlet port 110 inlet of the coupling fixing member 20 further includes that the first hermetic ring 26 for airtightness is fixed. That is, in order to prevent the high-pressure gas in the inlet chamber of the inlet port from leaking to the outside, in the state where the tip of the engaging fixing member is fixed.

In addition, the plunger 24 is an opening and closing opening (24A) for opening and closing the inlet 114 at the tip, an inlet passage 22 is formed inside the opening and closing opening (24A) and fixed by a common pin coupling method, etc. It includes a plunger rod (24B), but the spring (S) for closing the inlet 114 between the plunger rod (24B) and the connecting fixing member 30 is interposed.

In other words, the plunger opens the inlet by a coil provided in the body housing, and closes the inlet by a spring. In particular, it has a technical configuration to supply high-pressure gas through the inlet passage formed therein.

And the opening and closing port 24A is formed in a conical shape corresponding to the inlet port 114, and further includes a second airtight ring 28 for airtight coupling to the outer surface.

In other words, the second hermetic ring prevents the high pressure gas already supplied to the high pressure regulator from flowing back through the inlet when the inlet is closed by the opening and closing, or the high pressure gas remaining in the inlet chamber does not leak to the high pressure regulator. Therefore, it is possible to maintain high confidentiality.

In addition, the inlet passage 22 is a passage (22A) corresponding to the supply passage of the connecting fixing member to be described later as one side of the spring (S) is inserted, and the inlet chamber 112 and the inlet chamber 112 side It includes a plurality of inlet holes 22B connected to the passage 22A to be connected.

That is, the high pressure gas is smoothly supplied into the inlet chamber through a plurality of inlet holes after passing through the passage of the inlet passage, and at the same time, the pressure drop is made, and has a condition to ensure safety.

Connection fixing member 30 has a technical configuration that is connected to the main body housing 10 and the high-pressure fuel line (L).

That is, one end is inserted into and fixed to the other end of the main body housing 10 into the interior of the main body housing 10 by a conventional interference fitting or screwing method, etc., and the other end protrudes to the outside of the main body housing 10 so that high-pressure fuel The line (L) is fastened and fixed by a conventional method, and has a technical configuration in which the supply passage 32 is formed inside.

Accordingly, it is possible to simply and conveniently connect the connection supply line without using additional parts or connectors, thereby providing convenience.

Therefore, the present invention is easy to directly connect to the inlet port of the high-pressure regulator and the high-pressure fuel line, thereby further enhancing the convenience of use.

In addition, when the gas storage container is shut off, while the high pressure fuel line retains the minimum high pressure fuel, the fine leak in the high pressure sealing part in the high pressure regulator minimizes the pressure rise in the discharge port and leaks by the relief valve operation. By preventing the occurrence, it has a condition that can secure high safety according to the use of the high-pressure regulator.

1: High pressure shut-off valve
10: body housing 11: connecting terminal
14: coil 15: bobbin
20: coupling fixing member 22: inlet passage
22A: passage 22B: inlet hole
24: plunger 24A: opening and closing
24B: plunger rod 26: first hermetic ring
28: second gas tight ring 30: connection fixing part
32: supply passage
100: high pressure regulator
102: high pressure sealing unit 110: inlet port
112: inlet chamber 114: inlet
120: discharge port

Claims (5)

As a high pressure shutoff valve to which the top feed method provided between the high pressure fuel line connected to the gas storage container and the high pressure regulator is applied,
The high pressure shut-off valve is provided with a connection terminal on one side of the outside, a body housing including a bobbin with a coil wound therein;
One end is fixedly coupled to the inlet chamber of the inlet port of the high-pressure regulator, and the other end is inserted and fixed to the body housing, and is reciprocally provided inside to form an inlet passage to open and close the inlet port in the inlet port. A coupling fixing member including a plunger; And
One end is inserted and fixed to the other end of the main body housing into the inside of the main body housing, the other end protrudes to the outside of the main body housing, and a high-pressure fuel line is fastened and fixed, and a connection fixing member is formed with a supply passage therein; High pressure shut-off valve with top feed method for regulator. According to claim 1,
A high pressure shutoff valve to which a top feed method for a high pressure regulator is applied, further comprising a first airtight ring for airtightness being fixed outside the position in contact with the inlet port inlet of the coupling fixing member. According to claim 1,
The plunger includes an opening for opening and closing the inlet at the tip, and a plunger rod for reciprocating coupling with the opening by forming an inflow passage therein, and a spring for a high pressure regulator having a spring interposed between the plunger rod and the connection fixing member. High pressure shut-off valve to which the feed method is applied. According to claim 3,
The opening and closing opening is formed in a conical shape corresponding to the inlet, the high pressure shutoff valve is applied to the top feed method for a high pressure regulator further comprising a second airtight ring for airtight coupling fixed to the outer surface. The method of claim 1 or 3,
The inlet passage is applied with a top feed method for a high-pressure regulator including a passage corresponding to the supply passage while one side of the spring is inserted and a plurality of inlets connected to the passage so as to be connected to the inlet chamber on the inlet chamber side. High pressure shutoff valve.

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