WO2020100535A1

WO2020100535A1 - High-pressure gas filling device for tires

Info

Publication number: WO2020100535A1
Application number: PCT/JP2019/041350
Authority: WO
Inventors: 芳彦秋岡; 泰夫室▼崎▼
Original assignee: 芳彦秋岡; 泰夫室▼崎▼
Priority date: 2018-11-18
Filing date: 2019-10-21
Publication date: 2020-05-22

Abstract

The present invention relates to the inflation of vehicle tires with air and provides a high-pressure gas filling device which simultaneously fills a plurality of tires with a high-pressure gas such as air, and can very easily and efficiently achieve uniform air pressure in said tires. A high-pressure gas filling device for tires according to the present invention is composed of: a switching valve 11 that can switch between at least a first position A in which a first discharge port 11b and a supply port 11a are connected, a second position B in which none of the first discharge port 11b, a second discharge port 11c, and the supply port 11a are connected, and a third position C in which the first and second discharge ports 11b, 11c are connected; a branching coupler 13 that is connected to the first discharge port 11b and has a plurality of branches; and a plurality of clip-type air chucks 16 that branch off of the branching coupler 13 and attach to and detach from respective tire valves 17a of a plurality of tires 17. The high-pressure gas filling device simultaneously, uniformly, and efficiently fills the plurality of tires with air.

Description

High-pressure gas filling device for tires

The present invention relates to a high-pressure gas filling device for uniformly filling a plurality of tires used in various vehicles such as automobiles, motorcycles and bicycles with gas such as air.

Conventionally, as a method of filling a gas such as air into a tire, as shown in FIG. 6, when a gas such as air that has been pressurized to a high pressure by a compressor 1 is introduced from an air inlet 2a of a tire 2 through a high pressure cylinder 1a, It is common to hold down the tire air chuck 3 of the inflator with one hand to check whether the air has reached a predetermined tire pressure with the pressure gauge 4.
As an improvement of the above-mentioned conventional method, by using a sensor for measuring the gas pressure of the tire, the gas pressure of the tire is measured by this sensor, and the tire is filled with gas up to a predetermined gas pressure. What is rapidly performed by computer control is also considered as described in Patent Document 1 and Patent Document 2, for example.

Japanese Unexamined Patent Publication No. 4-303004 JP, 2018-39398, A

However, the high-pressure gas filling device for air or the like to the tire as in Patent Document 1 is to fill the gas into each tire one by one, and fills the four tires of the front and rear wheels with the gas like an automobile. In this case, it was not easy to make the gas pressures of the four tires uniform.
It should be noted that some vehicles require that the gas pressure of each of the two tires, that is, the front wheel or the rear wheel, be made uniform, but the conventional method of filling the tires with high-pressure gas one by one also increases the filling efficiency. Unfortunately, it was not easy to make the gas pressures of the tires uniform.
Further, in the case of Patent Document 2, a plurality of tires are filled with high-pressure gas, but the structure is complicated and expensive.

In order to solve the above-mentioned problems, a high-pressure gas filling device for a tire of the present invention has a supply port to which a cylinder filled with high-pressure gas is mounted, a first discharge port, and a second discharge port. A first position where the first discharge port communicates with the supply port, and the first discharge port, the second discharge port, and the supply port all communicate with each other. A switching valve that can switch between a second position that is not performed and a third position where the first discharge port communicates with the second discharge port,
A branching coupler for branching a plurality of the gases attached to the first exhaust port of the switching valve,
A pressure gauge mounted between the branching coupler and the first discharge port,
A plurality of hoses connected to the branch coupler in a plurality of branches,
A plurality of air chucks of a close type that are detachably attached to the valves of the plurality of tires that are respectively connected to the other ends of the plurality of hoses, and a clip-on type,
Is provided.

Further, in addition to the above configuration, a silencer for suppressing the discharge amount is attached to the second discharge port.

Further, a switching valve capable of switching to at least two systems of exhaust ports is attached to the second exhaust port of the above-mentioned configuration, and a silencer for suppressing the amount of exhaust is provided at one system of the switching valves. A vacuum pump is attached to the other discharge port.

In addition to the above-mentioned respective configurations, a hand valve for opening and closing each of the plurality of air chucks and the branching coupler is mounted.

A high pressure gas filling device for a tire according to the present invention has a supply port to which a cylinder filled with high pressure gas is attached, a first discharge port, and a second discharge port. A first position in which the discharge port communicates with the supply port, and a second position in which the first discharge port, the second discharge port, and the supply port do not communicate with each other. A switching valve switchable between a position and a third position in which the first discharge port communicates with the second discharge port;
A branching coupler for branching a plurality of the gases attached to the first exhaust port of the switching valve,
A pressure gauge mounted between the branching coupler and the first discharge port,
A plurality of hoses connected to the branch coupler in a plurality of branches,
A plurality of air chucks that are open type and are clip-on type that are detachably attached to valves of a plurality of tires that are respectively connected to the other ends of the plurality of hoses,
A hand valve which is mounted between the respective sub-ports of the branching coupler and the respective air chucks to perform an opening / closing operation, and
Is provided.

In addition to the above-mentioned configuration, a silencer that suppresses the discharge amount is attached to the second discharge port.

A high pressure gas filling device for a tire according to the present invention has a supply port to which a cylinder filled with high pressure gas is attached, a first discharge port, and a second discharge port. A first position in which the discharge port communicates with the supply port, and a second position in which the first discharge port, the second discharge port, and the supply port do not communicate with each other. A switching valve switchable between a position and a third position in which the first discharge port communicates with the second discharge port;
A branching coupler for branching a plurality of the gases attached to the first exhaust port of the switching valve,
A pressure gauge mounted between the branching coupler and the first discharge port,
A plurality of hoses connected to the branch coupler in a plurality of branches,
A plurality of air chucks of a close type that are detachably attached to the valves of the plurality of tires that are respectively connected to the other ends of the plurality of hoses, and a clip-on type,
The switching valve and the silencer are installed on a middle partition plate, the operation part including the changeover switch and the pressure gauge is installed on the upper inclined surface, and the branch connected to the first discharge port of the switching valve. Movable housing for accommodating the hose with the coupler and the air chuck mounted on the bottom plate,
Is provided.

In addition to the above configuration, a silencer for suppressing the discharge amount is attached to the second discharge port.

In addition to the above configuration, a switching valve capable of switching to at least two systems of exhaust ports is attached to the second exhaust port, and the exhaust amount of the one system of the switching valve is suppressed. And a vacuum pump attached to the other discharge port.

Further, a hand valve for performing opening / closing operations is mounted between each of the plurality of air chucks having the respective configurations and the branching coupler.

A high pressure gas filling device for a tire according to the present invention has a supply port to which a cylinder filled with high pressure gas is attached, a first discharge port, and a second discharge port. A first position in which the discharge port communicates with the supply port, and a second position in which the first discharge port, the second discharge port, and the supply port do not communicate with each other. A switching valve switchable between a position and a third position in which the first discharge port communicates with the second discharge port;
A branching coupler for branching a plurality of the gases attached to the first exhaust port of the switching valve,
A pressure gauge mounted between the branch coupler and the first discharge port,
A plurality of hoses connected to the branch coupler in a plurality of branches,
A plurality of air chucks that are open type and are clip-on type that are detachably attached to valves of a plurality of tires that are respectively connected to the other ends of the plurality of hoses,
A hand valve which is mounted between the respective sub-ports of the branching coupler and the respective air chucks to perform an opening / closing operation,
The switching valve and the silencer are installed on a middle partition plate, the operation part including the changeover switch and the pressure gauge is installed on the upper inclined surface, and the branch connected to the first discharge port of the switching valve. Movable housing for accommodating the hose with the coupler for air and the air chuck mounted on the bottom plate,
It is configured to include.

In addition to the above configuration, a switching valve capable of switching to at least two system exhaust ports is attached to the second exhaust port, and the exhaust amount is suppressed at the one system exhaust port of the switch valve. And a vacuum pump attached to the other discharge port.

The high-pressure gas filling device of the present invention comprises a plurality of branch couplers connected to the first discharge port of the switching valve including the supply port to which the high-pressure cylinder is mounted and the first and second discharge ports. Since a closed-type and clip-on type air chuck that is attached to the valves of a plurality of tires that are connected to the other ends of the branches that are connected to each other is provided, it is possible to apply a gas such as high-pressure air to a plurality of tires. It is possible to perform the filling at the same time to improve the efficiency of the filling work and to make the pressure of the tires filled at the same time more uniform.

In addition, if a silencer is installed in the second exhaust port to suppress the amount of discharge, the speed of discharge is suppressed and the pressure reduction speed when the tire pressure is excessive is suppressed to adjust to the specified tire pressure. In addition to being able to easily perform, it is possible to suppress noise at the time of discharge.

A switching valve capable of switching to at least two systems of exhaust ports is provided in the second exhaust port, a silencer for suppressing the amount of exhaust is provided in the exhaust port of one system of this switching valve, and a vacuum pump is provided in the other exhaust port. In the case where the tire is mounted, in addition to facilitating adjustment to a predetermined tire pressure by the silencer and suppressing noise at the time of discharge, a preparation step for filling the tire with nitrogen gas or the like in recent years It is also possible to easily reduce the tire pressure to below atmospheric pressure.

In addition, the configuration in which a hand valve for opening and closing each of the plurality of air chucks of the high-pressure gas filling device having the above-mentioned configuration and the branching coupler is installed is configured to attach and detach the air chuck to and from the tire valve. By separately operating the opening and closing of the high pressure gas filling with the hand valve and the high pressure gas, the small leakage of the high pressure gas from the hose when the air chuck is attached and detached is suppressed by the air chuck and the hand valve, and the high pressure gas is filled. The pressure between the tires can be made uniform.

Further, in the high-pressure gas filling device of the present invention, a branching coupler connected to the first discharge port of the switching valve including the supply port to which the high-pressure cylinder is attached and the first and second discharge ports. By providing an open type and clip-on type air chuck to be mounted on the valves of a plurality of tires respectively connected to the other ends of the hoses that are connected to each other by a branch, the plurality of air chucks and the branching coupler are The hand valve that is opened and closed in the meantime is the only means to prevent high-pressure gas from leaking when the air chuck is attached or detached.However, by opening and closing the hand valve properly, The tire can be uniformly filled with high-pressure gas, and by changing the air chuck from the closed type to the open type, the cost of the device can be reduced.

In addition, the second exhaust port equipped with a silencer that suppresses the discharge amount suppresses the discharge amount speed and suppresses the decompression speed when the tire pressure is excessive and adjusts to the predetermined tire pressure. Not only can this be done easily, but noise at the time of discharge can be suppressed.

Further, the high pressure gas filling device of the present invention is a coupler for branching connected to the first discharge port of the switching valve including the supply port to which the high pressure cylinder is mounted and the first and second discharge ports. By providing a closed type and clip-on type air chuck attached to the other end of each of the hoses that are connected to each other by a branch, and by attaching this to a valve of the tire to fill the tire with high-pressure gas, A changeover valve, a coupler for branching, etc., and a hose connected to a closed-type and clip-on type air chuck for filling the tire with high-pressure gas are housed, and a changeover switch for operating the changeover valve is mounted on the upper inclined surface. Since it is configured with a casing provided with the operation unit, it is possible to provide a device that is easy to operate and easy to move and transport.

Further, in addition to the above configuration, in the case where the silencer for suppressing the discharge amount is attached to the second discharge port, the discharge amount speed is suppressed to suppress the depressurization speed when the tire pressure is excessive. Therefore, it is possible to easily adjust the tire pressure to a predetermined tire pressure and to suppress noise at the time of discharging.

Further, in the high-pressure gas filling device of the present invention, the branch port connected to the first discharge port of the switching valve including the supply port to which the high-pressure cylinder is mounted and the first and second discharge ports is connected. A pressure gauge connected between the coupler and the first discharge port, a changeover switch for changing the changeover valve to any one of the first, second or third positions, and a plurality of branch connections by the branching coupler. It consists of an open-type and clip-on type air chuck that is attached to the other end of each of the connected hoses, and a hand valve that is opened and closed between each of the air chucks and the branch coupler. The switching valve and the silencer are arranged on a middle partition plate, and the operation portion including the switching switch, the pressure gauge and the hand valve is installed on the upper inclined surface, and the switching valve is connected to the first discharge port of the switching valve. When the air coupler is attached / detached, the branching coupler connected to the oven and the movable hose with the oven-type and clip-on type air chuck mounted on the bottom plate can store the hose. The hand valve is the only means to prevent high-pressure gas from leaking, but by accurately opening and closing this hand valve, the tire can be uniformly filled with high-pressure gas, and the air chuck is changed from the closed type to the open type. This makes it possible to reduce the cost of the device, facilitate the operation, and provide the device that can be easily moved and transported.

Explanatory drawing of the pneumatic circuit of the high pressure gas filling apparatus of the tire of this invention. (Example 1) Explanatory drawing of the other pneumatic circuit. (Example 2) Explanatory drawing of the other pneumatic circuit. (Example 3) The perspective view of the other high pressure gas filling apparatus. (Example 4) The figure explaining the internal arrangement | positioning which removed the side plate of the same apparatus. (Example 4) Explanatory drawing of the pneumatic circuit of the conventional high pressure gas filling apparatus.

An embodiment of the high-pressure gas filling device of the present invention will be described below with reference to FIGS. 1 to 5.
As the high-pressure gas, nitrogen gas or the like may be used to improve fuel economy, but in any of the embodiments, the case of filling air will be described.

1 is an explanatory view of a pneumatic circuit of Embodiment 1 of the device of the present invention, 10 is a high pressure gas filling device for filling high pressure air into a tire, and 11 is an electromagnetic switching valve having 5 ports and 3 positions ( Solenoid valve).
Of these 5 ports, three ports are a supply port 11a to which a high-pressure cylinder 12a of high-pressure air compressed by an air compressor 12 such as an air compressor is connected, and first and

second discharge ports

11b and 11c. Is set to.
Further, the switching valve 11 includes a first position A in which the first discharge port 11b and the supply port 11a communicate with each other, the first discharge port 11b, the second discharge port 11c, and the second discharge port 11c. The three positions of the supply port 11a can be switched to the second position B, which is not in communication with any of them, and the third position C, which is in communication with the first and

second discharge ports

11b and 11c. ..

13 is a branching coupler mounted on the first exhaust port 11b of the switching valve 11 for branching the gas into a plurality, and 14 is between the branching coupler 13 and the first exhaust port 11b. It is a pressure gauge attached to.
The branch coupler 13 and the discharge port 11b and the pressure gauge are mounted according to the pneumatic circuit diagram shown in the figure, even when they are directly connected through known members such as piping pipes, tubes, and pipe joints. It may be done by (In the following description of the embodiments, description of known members such as piping pipes, tubes, and pipe joints is omitted.)

Reference numeral 15 is a hose having one end connected to the branch coupler 13 in a plurality of branches, and 16 is a close-type and clip-on type air chuck connected to the other end of the hose 15, respectively. The tire valves 17a of a plurality of tires 17 are respectively attached and detached.
Note that the closed-type and clip-on type air chuck is such that the air chuck before use is always sealed, and when it is attached and fixed (clip on) to the tire valve, it is filled with air. is there.
Further, 18 is a silencer connected to the second exhaust port 11c of the switching valve 11.

Next, the operation of the high-pressure gas filling device having the above configuration will be described.
First, the switching valve 11 is set to the second position B, and the first discharge port 11b, the second discharge port 11c, and the supply port 11a are not in communication with each other.
Next, the air chuck 16 is attached to each of the tire valves 17a of the plurality of tires 17.

Next, the switching valve 11 is switched to the first position A, the first discharge port 11b and the supply port 11a are communicated with each other, and high pressure air from the high pressure cylinder 12a is diverged through a branching coupler 13. When the pressure gauge 14 confirms that the target air pressure has been reached, the switching valve 11 is switched to the second position B, and the air chucks 16 are detached from the tire valves 17a, respectively. The tire 17 is filled with high-pressure air. ‥

When the tire 17 is filled with high-pressure air more than the target air pressure, the switching valve 11 is switched to the third position C, and the first and

second exhaust ports

11b and 11c are opened. After communicating with each other, the air of the tire 17 is discharged from the second discharge port 11c, and after the pressure is reduced to a target air pressure, the switching valve 11 is switched to the second position B, and at the same time, the high pressure to the plurality of tires 17 is increased. The filling of air is completed.

As described above, the switching valve 11 having at least 3 ports and 3 positions is used, and the branching coupler 13 is connected to the discharge port 11b of the first discharge of the switching valve 11 and the hose is further branched and connected thereto. By using 15, it is possible to efficiently fill high pressure gas into a plurality of tires at the same time without variation.

In addition, in the high pressure gas filling apparatus of the present embodiment, a silencer 18 is further attached to the second discharge port 11c of the switching valve 11.
The silencer 18 switches the switching valve 11 to the third position C to release the gas in the tire through the second exhaust port 11c to reduce the pressure when the tire air pressure is reduced as described above. At this time, the silencer 18 is used to suppress the discharge noise and also suppress the discharge amount so that the pressure reduction can be adjusted more easily.

FIG. 2 is an explanatory view of a pneumatic circuit of a second embodiment which is another embodiment of the device of the present invention, which is a development of the high pressure gas filling device of the first embodiment, and is the same as the above-mentioned first embodiment. The same parts are designated by the same reference numerals, and the description will be omitted. 10a is a high-pressure gas filling device, and 19 is switchable to two discharge ports attached to the second discharge port 11c. It is a switching valve, so that the exhaust port 19a of the one system of the switching valve 19 is equipped with a silencer 18 for suppressing the exhaust amount and the exhaust sound, and the other exhaust port 19b is equipped with a vacuum pump 20. It was done.

In the high-pressure gas filling device of the second embodiment having the above configuration, in addition to the effect of the high-pressure gas filling device of the first embodiment, when the gas filled in the tire is changed to another gas (for example, air is nitrogen, etc.). In the above), the switching valve 19 is switched to the exhaust port 19a side to depressurize the tire to the atmospheric pressure, and then the switching valve 19 is switched to the exhaust port 19b side to further depressurize the inside of the tire by the vacuum pump 20. This has the effect of

Further, after the above depressurization is completed, similarly to the high pressure gas filling apparatus of the first embodiment, the switching valve 11 is switched to the position A to supply high pressure gas such as nitrogen to the tire from the supply port 11a to a predetermined pressure in the tire. The remaining gas can be reduced as much as possible to complete the filling.

FIG. 3 is an explanatory view of a pneumatic circuit of a third embodiment which is another embodiment of the device of the present invention, which is a further development of the high pressure gas filling device of the second embodiment, and is shown in FIG. The same parts as those of the high-pressure gas filling device of the embodiment shown in FIG.

Reference numeral 10b is a high-pressure gas filling device, and reference numeral 21 is a hand valve for opening and closing the filling of the high-pressure gas from the air chuck 16 inserted into and attached to each of the hoses 15 which are branched and connected by the branching coupler 13.

The high-pressure gas filling apparatus of the third embodiment having the above configuration has the following effects in addition to the effects of the high-pressure gas filling apparatuses of the first and second embodiments.
That is, since the air chuck 16 is a closed type, air from the hose 15 will not escape from the air chuck 16 after desorption, but it is difficult to completely prevent some air leakage that occurs during the desorption operation. is there.
Therefore, the air pressure of the remaining tire with the air chuck 16 still attached may be slightly reduced each time the air chuck 16 is attached or detached.

However, in the present embodiment, when the air is filled, first the hand valve 21 is closed and the air chuck 15 is attached to the tire valve 17a of the tire 17, and then the hand valve 21 is opened to apply a predetermined air pressure to the tire 17. Fill.
After this filling, first the hand valve 21 is closed and then the air chuck 16 is detached, so that even if there is some confusing operation when detaching the air chuck 16 from the hose 15, this double air leakage prevention means Thus, air leakage can be prevented, and high-pressure air can be filled into the plurality of tires 17 more uniformly.

The hand valve 21 used in this example is applied to Example 1 and Example 2 and serves as a double air leakage prevention means to prevent air leakage even if some operation is confused during desorption operation. Of course, the same effect as that of the present embodiment that the high pressure air can be more uniformly filled in the plurality of tires 17 is obtained.

In addition, as described above, in the first to third embodiments, the hand valve 21 and the close-type and clip-on type air chuck 16 are used together to form a double air leakage preventing means, and thus the detaching operation of the air chuck 16 is performed. It was explained that air leakage can be prevented and high-pressure air can be filled into multiple tires 17 more evenly even if there is some confusing operation, but it is open instead of the closed type and clip-on type air chuck. A type and clip-on type air chuck can also be used.

The open-type and clip-on type air chuck is such that the air chuck before use is always open, and is fixed to the tire valve (clip-on) to inject air into the tire.
When this open type air chuck is used, the only means for preventing air leakage is the hand valve 21, but the structure of the air chuck is simplified from the closed type to the open type, which can contribute to cost reduction of the device. At the same time, by reliably operating the hand valve 21, the same effect as that of the present embodiment can be obtained.

4 and 5 show another embodiment of the device of the present invention, which is an embodiment when mounted in a housing. Since the pneumatic circuit is the same as that of FIG. 1 described in the first embodiment, the description of the pneumatic circuit itself will be omitted and the same parts will be denoted by the same reference numerals.

29 is a housing formed of a thin iron plate for housing the device, 29a is a middle partition plate, 29b is a bottom plate, 29c is an opening provided in the front and rear side plates 29d of the housing 29 respectively. 29e is a caster attached to the four corners of the bottom surface of the bottom plate, and 29f is an upper inclined surface.

According to the figure, the switching valve 11 and the terminal block 32 are mounted on the middle partition plate 29a.
Further, the pressure gauge 14 is installed on the upper inclined surface 29f, and a changeover switch 30 for arbitrarily changing the positions A, B, C of the changeover valve 11, and the changeover valve 11 and the switch 30 are connected. The power switch 31 is installed to form the operation unit 33. (The input from the external power supply is connected to the changeover switch 30, the power supply switch 31 and the changeover valve 11 via the terminal block 32, but the explanation is omitted because it is a general circuit as an electric circuit. 5 is also omitted.)

Further, an operating portion 33 including a changeover switch 30 for operating the changeover valve 11 is provided on the upper inclined surface, and a plurality of the gases connected to the first discharge port 11b of the changeover valve 11 are branched on the bottom plate 29b. The branching coupler 13 and a branching coupler 13 are connected to the branching coupler 13 at a plurality of branches, and the other end accommodates a hose 15 to which a close-type and clip-on type air chuck 16 is mounted. It is possible to provide a device that is easy to operate and easy to move / transport by taking out the hose 15 at the time of filling high pressure air into the device and configuring the device compactly with the housing 29 that is stored after the filling is completed. I am trying.

Further, the casters 29e facilitate the movement and transportation of the device.
Reference numeral 34 denotes a cushioning material that is attached to the four sides of the housing 29, and is attached to the side surfaces of the housing by magnets to prevent damage due to collision or contact during transportation and movement of the device. At the same time, the attachment position can be changed appropriately according to the situation of the place of use.

Next, the operation of the high-pressure gas filling device having the above configuration will be described.
First, the power switch 31 of the operation unit 33 is turned on, the changeover switch 30 is operated to set the changeover valve 11 to the second position B, and the first discharge port 11b, the second discharge port 11c, and the above-mentioned supply. It is assumed that the three communication ports 11a are not in communication with any of them.
Next, the close-type and clip-on type air chuck 16 is attached to each of the tire valves 17a of the plurality of tires 17.

Next, the changeover switch 30 is used to switch the changeover valve 11 to the first position A, the first discharge port 11b and the supply port 11a are communicated with each other, and the high pressure air from the high pressure cylinder 12a is branched. When a plurality of tires 17 are filled through the coupler 13 and the pressure gauge 14 of the operating portion 22 confirms that the target air pressure has been reached, the changeover switch 20 is operated to move the changeover valve 11 to the second position B. , And the air chucks 16 are detached from the tire valves 17a, respectively, and at the same time, the filling of high pressure air into a plurality of tires 17 is completed.

When the tire 17 is filled with high-pressure air more than the target air pressure, the change-over switch 30 is operated to change the change-over valve 11 to the third position C, and the first and second The

exhaust ports

11b and 11c are communicated with each other to exhaust the air of the tire 17 from the second exhaust port 11c and reduce the pressure to a target air pressure, and then the changeover switch 30 sets the changeover valve 11 to the second position. By switching to B, the filling of high pressure air into a plurality of tires 17 is completed at the same time.

As described above, the switching valve 11 having at least three ports and three positions is used as in the first to third embodiments, and the branching coupler 13 is connected to the first discharge port 11b of the switching valve 11 and further By using the hose 15 which is connected to a plurality of branches, the high pressure gas can be simultaneously and efficiently filled into a plurality of tires without variation.

Also, in the high pressure gas filling apparatus of this embodiment, the silencer 18 is further attached to the second discharge port 11c of the switching valve 11 so that the switching valve 11 can be moved to the third position when the tire air pressure is reduced. When the gas in the tire is switched to the position C and is discharged through the second exhaust port 11c to reduce the pressure, the silencer 18 is used to suppress the exhaust sound and also suppress the exhaust amount to perform the switching. The pressure reduction adjustment by the switch 20 can be performed more easily.

In the above embodiment, the casters 29e are mounted on the lower surface of the bottom plate 29b to facilitate the movement and transportation of the device.However, instead of the casters 29e, the casing 29 is placed on the carriage to move the device. It is also possible to make the transportation easier.

Further, although not described in detail in the above embodiment, connection between the high pressure cylinder 12a and the supply port 11a of the switching valve 11, between the branch coupler 13 and the hose 15, between the branch coupler and the first exhaust boat, etc. By appropriately using a pair of plug and socket, which are so-called joints used for gas hoses, as a pair, a connection can be made easily, and a high-pressure cylinder and this device can be separated and handled easily. The convenience of the device can be improved.

Further, also in the above-described fourth embodiment, as in the third embodiment, the hand valve 21 is inserted into and attached to each of the hoses 15 which are connected to each other in a plurality of branches by the branching coupler 13 to form a double air leakage prevention means. Is also possible.

When the hand valve 21 is used, as described in the third embodiment, it is possible to use an open type air chuck instead of the close type air chuck 16, but the means for preventing air leakage is Only the hand valve 21.
However, the structure of the air chuck is simplified from the closed type to the open type, which can contribute to the cost reduction of the device, and the operation of the hand valve 21 is surely performed to obtain the same effect as that of the present embodiment. It is what is done.

The high-pressure gas filling device of the present invention described above can uniformly fill high-pressure gas into a plurality of tires at the same time, so that not only passenger cars, motorcycles and bicycles, but also vehicles with a large number of tires such as trucks can be branched. By simply increasing the number of branches after the coupler, the gas pressure of the tires of many vehicles can be efficiently and uniformly filled.

10, 10a, 10b High-pressure gas filling device 11 Switching valve 11a Supply port 11b First discharge port 11c Second discharge port 12a High-pressure cylinder 13 Branch coupler 14 Pressure gauge 15 Hose 16 Air chuck 17 Tire 17a Tire valve 18 Silencer 19 Switching valve 20 Vacuum pump 21 Hand valve
29 Housing 29a Middle partition plate 29b Bottom plate 29c Opening 29f Upper inclined surface 30 Changeover switch 33 Operation part

Claims

A first port having a supply port for mounting a cylinder filled with high-pressure gas, a first discharge port, and a second discharge port, the first discharge port communicating with the supply port; A second position in which the first discharge port, the second discharge port, and the supply port are not in communication with each other; and the first discharge port is the second position. A switching valve that can be switched to a third position that communicates with the discharge port of
A branching coupler for branching a plurality of the gases attached to the first exhaust port of the switching valve,
A pressure gauge mounted between the branching coupler and the first discharge port,
A plurality of hoses connected to the branch coupler in a plurality of branches,
A plurality of air chucks of a close type that are detachably attached to the valves of the plurality of tires that are respectively connected to the other ends of the plurality of hoses, and a clip-on type,
High-pressure gas filling device for a tire equipped with.
The high-pressure gas filling device for a tire according to claim 1, wherein a silencer that suppresses the discharge amount is attached to the second discharge port.
A switching valve capable of switching to at least two systems of exhaust ports is attached to the second exhaust port, and a silencer for suppressing the amount of exhaust is provided at the exhaust port of the one system of the switching valve, and the other exhaust port. The high pressure gas filling device for a tire according to claim 1, wherein a vacuum pump is attached to the tire.
The high pressure gas filling device for a tire according to any one of claims 1 to 3, wherein a hand valve that opens and closes each of the plurality of air chucks and the branching coupler is installed.
A first port having a supply port for mounting a cylinder filled with high-pressure gas, a first discharge port, and a second discharge port, the first discharge port communicating with the supply port; A second position in which the first discharge port, the second discharge port, and the supply port are not in communication with each other; and the first discharge port is the second position. A switching valve that can be switched to a third position that communicates with the discharge port of
A branching coupler for branching a plurality of the gases attached to the first exhaust port of the switching valve,
A pressure gauge mounted between the branching coupler and the first discharge port,
A plurality of hoses connected to the branch coupler in a plurality of branches,
A plurality of air chucks that are open type and are clip-on type that are detachably attached to valves of a plurality of tires that are respectively connected to the other ends of the plurality of hoses,
A hand valve which is mounted between the respective sub-ports of the branching coupler and the respective air chucks to perform an opening / closing operation, and
High-pressure gas filling device for a tire equipped with.
The high pressure gas filling device for a tire according to claim 5, wherein a silencer for suppressing a discharge amount is attached to the second discharge port.
A switching valve capable of switching to at least two systems of exhaust ports is attached to the second exhaust port, and a silencer for suppressing the amount of exhaust is provided at the exhaust port of the one system of the switching valve, and the other exhaust port. The high-pressure gas filling device for a tire according to claim 5, wherein a vacuum pump is mounted on the tire.
A first port having a supply port for mounting a cylinder filled with high-pressure gas, a first discharge port, and a second discharge port, the first discharge port communicating with the supply port. A position, a second position in which the first discharge port, the second discharge port, and the supply port are not in communication with each other; and the first discharge port is the second position. A switching valve that can be switched to a third position that communicates with the discharge port of
A branching coupler for branching a plurality of the gases attached to the first exhaust port of the switching valve,
A pressure gauge mounted between the branch coupler and the first discharge port,
A plurality of hoses connected to the branch coupler in a plurality of branches,
A plurality of air chucks of a clip-on type, which are closed types that are detachably attached to valves of a plurality of tires that are respectively connected to the other ends of the plurality of hoses.
The switching valve and the silencer are installed on a middle partition plate, the operation part including the changeover switch and the pressure gauge is installed on the upper inclined surface, and the branch connected to the first discharge port of the switching valve. Movable housing for accommodating the hose with the coupler for air and the air chuck mounted on the bottom plate,
High-pressure gas filling device for tires including.
The high-pressure gas filling device for a tire according to claim 8, wherein a silencer that suppresses a discharge amount is attached to the second discharge port.
A switching valve capable of switching to at least two systems of exhaust ports is mounted on the second exhaust port, and a silencer for suppressing the amount of exhaust is provided at the exhaust port of the one system of the switching valve and the other exhaust port. The high pressure gas filling device for a tire according to claim 8, wherein a vacuum pump is attached to the port.
11. The high pressure gas filling device for a tire according to claim 8, wherein a hand valve for opening and closing is installed between each of the plurality of air chucks and the branching coupler.
A first port having a supply port for mounting a cylinder filled with high-pressure gas, a first discharge port, and a second discharge port, the first discharge port communicating with the supply port; A second position in which the first discharge port, the second discharge port, and the supply port are not in communication with each other; and the first discharge port is the second position. A switching valve that can be switched to a third position that communicates with the discharge port of
A branching coupler for branching a plurality of the gases attached to the first exhaust port of the switching valve,
A pressure gauge mounted between the branching coupler and the first discharge port,
A plurality of hoses connected to the branch coupler in a plurality of branches,
A plurality of air chucks of an open type and a clip-on type that are detachably attached to the valves of a plurality of tires that are respectively connected to the other ends of the plurality of hoses,
A hand valve which is mounted between the respective sub-ports of the branching coupler and the respective air chucks to perform an opening / closing operation,
The switching valve and the silencer are installed on a middle partition plate, the operation part including the changeover switch and the pressure gauge is installed on the upper inclined surface, and the branch connected to the first discharge port of the switching valve. Movable housing for accommodating the hose with the coupler for air and the air chuck mounted on the bottom plate,
High-pressure gas filling device for tires including.
The high pressure gas filling device for a tire according to claim 12, wherein a silencer for suppressing the amount of discharge is attached to the second discharge port.
A switching valve capable of switching to at least two systems of exhaust ports is mounted on the second exhaust port, and a silencer for suppressing the amount of exhaust is provided at the exhaust port of the one system of the switching valve and the other exhaust port. The high pressure gas filling device for a tire according to claim 12, wherein a vacuum pump is attached to the port.