JP2000055767A - Device and method for testing gas valve for cylinder - Google Patents

Abstract

PROBLEM TO BE SOLVED: To open a road to reuse of a gas valve being mounted to a gas cylinder that has already been used. SOLUTION: A device consists of a screw cleaner A of a gas valve that is driven pneumatically, an airtightness testing device B of the cleaned gas valve, and a control device C. In this case, in a testing chamber 18, the gas valve under testing is placed, water is raised from a water tank 17 at a lower part for covering an object to be tested, and then a ground valve test and a safety valve test are successively and automatically performed by nitrogen gas.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus for performing a function test of a gas valve mounted on a cylinder and a test method using the same.

[0002]

2. Description of the Related Art A valve conventionally used for a gas cylinder of propane gas or the like has been discarded together with a reexamination of the cylinder, and has not been reused at all.

[0003]

However, with the recent increase in the amount of waste, it is extremely troublesome to dispose of the waste, and at present it is possible to dispose of even those that do not cause performance concerns. Therefore, upon reviewing this point, it has been found that at least the gas valve attached to the cylinder has hardly failed, and most can be reused. The problem is a means for selecting good or bad for re-use, and there has been a long-awaited demand for an apparatus that can be easily and accurately tested.

[0004]

SUMMARY OF THE INVENTION The present invention has been made in view of such a situation, and as a result of intensive studies, it has been found that inspection can be performed with an extremely simple and completely automated apparatus by a single person in a short time. . That is, the outline of the present invention is a screw cleaner A having a rotary wire brush driven by air to clean a thread portion of a gas valve to be tested, and an airtightness test device B of a gas valve to be cleaned to be tested. The airtightness tester B is provided with a gas valve test chamber in the upper part of the water tank, and the lower part is controlled by air pressure during the test. Transfer the water in the water tank to an extent that covers the valve in the upper test chamber.In this state, press and fix the gas valve with the air cylinder for engraving and fixing, and send nitrogen gas to the input port of the gas valve to perform the ground valve test. A safety valve test was conducted by sending nitrogen gas to the output port of the gas valve, and then the water was returned to the water tank to raise the cylinder for engraving after the stamping. Therefore, the driving of the screw cleaner, the driving of the cylinder for engraving and fixing, and the movement between the water tank and the test chamber are all performed by controlling the pressure of air pressure, and the leak test of the valve by nitrogen gas is all sent from the nitrogen gas cylinder. It is an object of the present invention to provide an apparatus and a method for controlling the nitrogen gas pressure to be controlled, and combining them to automatically and safely perform the operation safely with only one person in a short time.

[0005]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A gas valve test apparatus according to the present invention will be described with reference to one embodiment. FIG. 1 is a front view of a test apparatus according to one embodiment of the present invention, FIG. 2 is a left side view, and FIG.
FIG. 4 is a right side view, FIG. 4 is a top view showing a state in which a gas valve to be tested is mounted in a test chamber of the test apparatus, FIG. 5 is a circuit diagram of a control mechanism of the apparatus of the present invention, and FIG. FIG. 7 is a perspective view of the gas valve with the engraved side facing the front.

First, the structure of a valve to be tested is shown in FIGS.
This will be described below. The valve 120 constitutes a ground valve 107 with a handle 101, a ground nut 102, a spindle (valve rod) 103, a valve stem 104, a valve body 105, a seat packing (valve seat) 106, and the like. 10
8 is a body (main body), 109 is a screw part. Also,
110 is a gas output port, 111 is a gas input port (filling port)
112 is a safety valve seat, 113 is a safety valve body, 114
Is a spring, and 115 is a spring press to form the safety valve 117 as a whole. 116 is a waterproof cap. Reference numeral 119 denotes an engraving portion for engraving the test date.

In order to test the above-mentioned gas valve, the used gas valve is removed from the used cylinder. Usually, a sealing tape, a sealing agent or the like is attached to the screw portion 109 for mounting the cylinder. As is apparent from FIGS. 1 to 4, the apparatus according to the present invention tests the presence or absence of an abnormality in the gas valve including the screw cleaner A. The test apparatus of the present invention is compactly configured as a whole including the screw cleaner A, and is a front view of FIG.
As shown in the left side view of FIG. 2 and the right side view of FIG. 3, a screw cleaner A, a test apparatus B, and a control apparatus C are provided on a gantry 12 having casters 11. The screw cleaner A grips the gas valve 5 to be tested from the valve insertion port 3 provided on the operation surface 1 with a wire brush (puff) 2 which rotates by air pressure, inserts the screw portion 109 thereof, and operates the operation button. 4
When the is pressed, the sealing tape, the sealing agent, etc. adhered to the rotating wire puff 2 can be neatly removed only by one or two rotations.

In the present invention, the thus cleaned valve is fixed to the test chamber 18 of the test apparatus B. Test room 18
As shown in FIG. 4, the state shown in FIG. 4 is set in a predetermined state in a mold 14 having a shape corresponding to the shape of the valve to be tested. The gas input port 111 of the gas valve 120 is connected to the cylinder 15 for the ground valve test, and the gas valve The gas output port 110 of 120 is securely attached to the safety valve test cylinder 16. Note that the ground valve test cylinder 1
5 is a gland valve test nozzle (spindle) 15a
, A joint 15b for a nitrogen gas tube is provided, and the nitrogen gas tube is attached. Further, a tip packing 15c is attached to a tip of the nozzle 15a, so that the nozzle 15a is air-tightly joined to the gas input port 111 of the valve. The safety valve test cylinder 16 has a safety valve test nozzle (spindle).
16a to which a joint 16 of a nitrogen gas tube is attached.
b is provided to attach the nitrogen gas tube. A tip O-ring 16c is attached to the tip of the nozzle 16b, and the gas output port 110 of the valve is provided.
It is designed to be air-tightly joined to. The nozzles 15a and 16a attached to these cylinders function as spindles, respectively. When nitrogen gas is not conducted, the internal passage of the valve is sealed by the spindle so that water cannot enter the valve. .

The pressure of the nitrogen gas is measured by a nitrogen gas pressure gauge 21,
Measured at 1. In the test, a water tank 17 provided on the lower side of the gantry 12 and a test chamber 18 above the water tank 17 are connected by a water passage 17-1 as shown in FIG. When a valve to be tested is attached to the valve 18, as shown in FIGS. 1 and 2, the air cylinder 19 for fixing the mark is lowered to fix the valve 120 to be tested, and the marking member 20 is cut into the portion of the valve to be marked. Then, the water in the water tank 17 is raised and filled with air pressure so as to cover the valve installed in the test chamber 18. In FIG. 4, reference numeral 17-2 denotes a nozzle of a water passage 17-1, and reference numeral 14-a denotes a mounting bolt for a mold of a valve to be tested. The engraving attached to the air cylinder 19 for embossing can be replaced. However, since there may be some misalignment, the test chamber is configured so as to be able to move back and forth in the direction of the arrow as a whole in response to a change in the marking position. In addition, 14-b shows a mold water tank.

In this state, the tubes for supplying nitrogen gas in advance are connected to the ground valve test cylinder 1 respectively.
5 and a safety valve test cylinder 16 are connected to joints 15b and 16b of a nitrogen gas tube so that the cylinder can be pressurized. If nitrogen gas is sequentially supplied to the ground valve test cylinder 15 and the safety valve test cylinder 16 in this manner, if there is a leak in the valve of the gas valve to be tested, bubbles will come out of the water, so that good or bad can be easily determined. Can be determined. When the air-tightness test of each valve is completed, the nitrogen gas sent to each valve is released sequentially, and air is applied so that the air pressure of the water in the water tank 17 is reduced.
The water in 8 returns to the water tank 7, and then the air cylinder 19 for embossing and fixing the engraving member 20 is raised,
The gas valve can be taken out with the test date stamped on a predetermined position of the tested gas valve. At this time, the quality of the valve is visually determined, so that the defective product can be discarded and the non-defective product can be reused.

Reference numeral 24 denotes a silencer, which has the function of reducing the noise of exhaust of nitrogen gas, 25 denotes a high-pressure nitrogen switching valve,
26 is a speed control valve, and 27 is a small amount relief valve. More specifically, as shown in FIG.
V-3, SV-4, SV-2, SV-1, and SV-5 are provided. Although not shown, the nitrogen gas cylinder is provided with a semicircular support member on the back side of the control room C so that the cylinder can be leaned. Reference numeral 21 denotes a nitrogen gas pressure gauge which is supplied to the ground valve test cylinder 15 and the safety valve test cylinder 16, and reference numeral 22 denotes a pressure gauge socket thereof.

This test is activated when the left and right start pushbutton switches C1 and C2 are simultaneously pressed, so that both hands do not play, and in the case of an emergency, the release pushbutton switch C3 must be pressed. Emergency stop. As shown in FIGS. 1 to 3, the entire control device C is provided with a start push button switch C2 and a release push button switch C3. Each control mechanism is automatically controlled by a micro sequencer, and the inspection is completed in a very short time.

This test method will be described with reference to the circuit diagram of FIG. 5. The stamping and fixing air cylinder system K, the ground valve system G, the safety valve system S, and the water system W for movement between the water tank and the test chamber are filtered. It is controlled by the regulator 515. In addition, nitrogen N ₂ is supplied from the nitrogen gas cylinder at a pressure of about 24.0 kg / cm ^2. The cylinder for the gland valve airtightness test, the safety valve airtightness is supplied through a control mechanism such as a timer and a switch mechanism. Each is connected to a test cylinder, and can be tested by the following sequencer operation procedure. 516 is a pressure gauge of a nitrogen cylinder.

In FIG. 5, 17 is a water tank, 18 is a test chamber, 17-1 is a water channel, 51 is an air cylinder for stamping and fixing, 52 is a cylinder for testing a safety valve, 53 is a cylinder for testing a ground valve, 54 Is a high pressure nitrogen switching valve, 5
5 is a connection type air changeover valve, 56 is a pressure switch that stops blowing, 57 is a silencer, and 58 is a grinder ON-OFF.
Valve, 59 is a speed control valve, 510 is a speed control valve, 511 is a push button switch for operation,
512 is a pressure gauge for nitrogen gas, 513 is a pressure gauge socket,
514 is a small relief valve, 515 is a filter regulator, 516 is a nitrogen gas pressure gauge of a nitrogen gas cylinder, 51
7 is a low pressure regulator, and 518 is a water tank exhaust valve. Also, K
Denotes a stamping fixed system, G denotes a ground valve system, S denotes a safety valve system, W denotes a test water system, and X1 and X3 denote proximity switches.
SV is a servo valve.

In FIG. 5, the sequencer operation procedure is such that if the green push buttons C1 and C2 are simultaneously pressed,
The stamping / fixing cylinder 51 is lowered by the action of air to perform stamping on the gas valve and fix the valve. When the proximity switch X1 is turned on and the timer is turned on for one second, the ground valve system G is turned on, and the ground valve test cylinder comes out. Next, the safety valve system S is turned on, and the safety valve test cylinder comes out. After turning on for 1 second by the timer, when the water system W is turned on, the test chamber is filled with water,
After turning on the timer for 1 second, the servo valve SV-1
It becomes N, and the ground part airtightness test starts. The timer is turned on for 31 seconds, the servo valve SV-1 is turned off, and the gland valve airtight test ends. Servo valve SV-5
Is turned ON, and the hermetic nitrogen in the ground portion is discharged. When the timer is turned on for 1 second, the ground valve system G is turned off and the ground valve test cylinder returns. Next, the servo valve S
V-2 is turned on, the safety valve test starts, the proximity switch X3 is turned on, the servo valve SV-2 is turned off after the timer is turned on for about 2 seconds, and the safety valve test ends. Then, the servo valve SV-3 is turned on, a small amount of nitrogen gas for safety valve test is released, and the timer is turned on for 3 seconds. Then, the servo valve SV-4 is turned on, and a large amount of nitrogen gas for safety valve test is released. Then, the timer is turned on for one second, the water system W is turned off, and the water is reduced from the test chamber by decompression. The timer is turned on for 1 second and the rear safety valve test cylinder returns. After 1 second, the air cylinder system K for embossing is turned off and the air cylinder for embossing rises, and the proximity switch X1 is activated. finish.

[0016]

According to the present invention, with a very simple device,
It can be easily carried out by one person without any danger, there is no need to dispose of the gas valve attached to the gas cylinder as before, and those that pass the simple test as described above are reused It can be used, and considering the number of tests and the pass rate of the tests, it is possible to use resources and materials effectively because it is on a profitable basis. In addition, since the test is fully automated and can be performed in a short time, it is sufficiently efficient, and the operation is started by operating the buttons with both hands, which is preferable from the viewpoint of occupational safety. .

[Brief description of the drawings]

FIG. 1 is a front view of an embodiment of the present invention.

FIG. 2 is a left side view of the embodiment of the present invention.

FIG. 3 is a right side view of the embodiment of the present invention.

FIG. 4 is a top view of a test chamber according to the present invention.

FIG. 5 is a schematic circuit diagram of a control mechanism of the apparatus of the present invention.

FIG. 6 is a longitudinal sectional view showing the structure of a gas valve to which the present invention is applied.

FIG. 7 is a perspective view of the gas valve as an object of the present invention, with the engraved side facing the front.

[Explanation of symbols]

 Reference Signs List A screw cleaner B airtightness test device C automatic control device 1 operation surface 2 wire brush (puff) 3 valve insertion port 4 operation button 5 gas valve to be tested 11 caster 12 gantry 13 valve test chamber 14 mold 14-a mounting bolt 14-b Mold tank 15 Ground valve test cylinder 15a Ground valve test nozzle (spindle) 15b Nitrogen gas tube joint 15c Tip packing 16 Safety valve test cylinder 16a Safety valve test nozzle (spindle) 16b Nitrogen gas tube joint 16c Tip O-ring 17 water tank 17-1 water path 17-2 water path nozzle 18 test chamber 19 stamping and fixing air cylinder 20 marking member 21 nitrogen gas pressure gauge 22 pressure gauge socket 24 silencer 25 high pressure nitrogen switching valve 26 speed control valve 2 Small amount relief valve C1, C2 Push button switch C3 Release push button switch 101 Handle 102 Ground nut 103 Spindle (valve rod) 104 Valve stem 105 Valve body 106 Seat packing (valve seat) 107 Ground valve 108 Body (body) 109 Screw part 110 Gas output port 111 Gas input port (filling port) 112 Safety valve seat 113 Safety valve element 114 Spring 115 Spring holding 116 Waterproof cap 117 Safety valve 119 Engraved part 120 Gas valve K Air cylinder system for stamping and fixing G Ground valve system S Safety valve system W Water system 51 Air cylinder for embossing and fixing 52 Cylinder for safety valve test 53 Cylinder for ground valve test 54 High pressure nitrogen switching valve 55 Continuous air switching valve 56 Blow-off pressure switch 57 Silence Instrument 58 Grinder ON / OFF valve 59 Speed control valve 510 Speed control valve 511 Operation push button switch 512 Nitrogen gas pressure gauge 513 Pressure gauge socket 514 Small relief valve 515 Filter regulator 516 Nitrogen gas cylinder nitrogen gas pressure gauge 517 Low pressure regulator 518 Water tank exhaust valve SV Servo valve SV-1 Safety airtight end valve SV-2 Safety valve test valve SV-3 Small relief valve SV-4 Large relief valve SV-5 Ground test air release valve X1, X3 Proximity switch

Claims (4)

[Claims] 1. A screw cleaner A having a rotary wire brush driven by air to clean a thread of a gas valve to be tested, a gas tightness test device B of a cleaned gas valve to be tested, and a control device. The airtightness test apparatus B comprises a water tank, a test chamber mounted on the upper part of the water tank, a lower water tank connected to the lower water tank by a water transfer pipe, and a mold for installing a gas valve to be tested. A test chamber equipped with a ground valve test cylinder, a safety valve test cylinder, and a cylinder that can supply nitrogen gas to a gas input port and a gas output port of a gas valve to be tested that is mounted on a mold of the test chamber; A test nozzle provided in the
When a pressure gauge indicating the pressure of nitrogen gas supplied for the airtightness test of the gland valve and the safety valve and a gas valve to be tested are installed above the gas valve to be tested placed in the mold of the test chamber. The stamped portion is pressed and stamped from above, and the valve is fixed during the test. After the test is completed, the stamping and fixing air cylinder is lifted and released from the pressurized state. An air drive device configured to move water from a water tank so as to cover a gas valve to be tested placed in a test chamber, to reduce the pressure after the test is completed, and to return the water from the test chamber to the water tank. Device C automatically controls the insertion and removal of the test nozzles of the screw cleaner, the gland valve test cylinder, the safety valve test cylinder, and the movement of water between the water tank and the test chamber by driving air. A control device for automatically controlling the feeding and stopping of nitrogen gas introduced into the ground valve test cylinder and the safety valve test cylinder, and a test start and emergency stop button for the control mechanism. A testing device for gas valves for cylinders. 2. The test apparatus for a gas valve for a cylinder according to claim 1, wherein the operation button comprises two buttons arranged on the left and right sides, and when the buttons are simultaneously pressed, the test is started. 3. A step of cleaning a screw portion of a gas valve to be tested by a screw cleaner A equipped with a rotary wire brush driven by air, and a step of removing the cap of the safety valve from the cleaned gas valve to be tested and hermetically sealing the gas valve. A step of installing the test apparatus B on a mold in a test chamber above a water tank and performing an airtight test. Pressing a start button, the stamped portion of the stamping and fixing air cylinder hits a predetermined position of a gas valve to be tested. Release the release button when the start button is released, operate the safety valve and gland valve airtightness test cylinder, insert the test nozzle (spindle) into each part, pressurize the water in the water tank with air, and test the gas valve in the test chamber. And fill it with water to cover it, pressurize the pressurized nitrogen gas and operate the gland valve test cylinder to visually check the airtightness of the gland valve, After releasing the pressurized nitrogen, the cylinder is retracted, pressurized nitrogen gas is injected and the safety valve test cylinder is operated to visually check the airtightness of the safety valve. Retract, reduce the water tank in the test chamber to expose the gas valve tested, raise the air cylinder for engraving, remove the gas valve tested from the mold, remove the process of operating the screw cleaner and the airtight test. A method for testing a gas valve for a cylinder, wherein the process is automatically controlled, and an emergency button is used to set an initial state in an emergency. 4. The method for testing a gas valve for a cylinder according to claim 3, wherein the test is started by simultaneously operating the left and right push buttons.