CN212567828U - Portable integrated air tightness test device - Google Patents

Abstract

The utility model relates to a portable integrated air tightness test device, which is provided with an integrated miniature two-way working air compressor, an inlet air supply low-pressure communicating shuttle valve, a safety valve, a pressure reducing valve, a stop valve, a digital display pressure relay and a pressure gauge, wherein the miniature two-way working air compressor is arranged in the middle of the body, the upper part of the body is provided with an air cavity f of an air storage unit, the air cavity f is connected with the digital display pressure relay, the air cavities at two sides of a two-way piston of the miniature two-way working air compressor are respectively connected with the air cavities f of the air storage unit through check valves, and the air cavities at two sides of the two-; the air cavity f is respectively connected with a safety valve with a forced opening and closing function arranged on one side of the body and a balanced type pressure reducing valve arranged on one side of the top of the body, the balanced type pressure reducing valve is communicated with a stop valve with a discharging function arranged on the other side of the body, the air inlet end and the air outlet end of the stop valve with the discharging function are respectively connected with a pressure gauge, and compressed air is supplied outwards through a connector.

Description

Portable integrated air tightness test device

Technical Field

The utility model relates to a well low pressure air tightness test device, especially a miniature well low pressure air tightness test device of integrated form.

Background

The air tightness test device is a test device for detecting the air tightness of elements or devices, and is widely applied to air tightness detection of pneumatic control element or device production sites and air tightness detection in field maintenance processes of practical application occasions. The existing middle-low pressure air tightness test devices mainly comprise two types, one type is an air tightness test device which utilizes a centralized air supply system or a mobile middle-low pressure air machine to form a pneumatic control loop by configuring pneumatic control elements such as a pressure reducing valve, a stop valve and the like on site, and the other type is an air tightness test device which designs the air machine, a pneumatic control valve and the like into a test bed. And the piston reciprocating type micro air compressor machine that uses in the existing market is the one-way structure of giving vent to anger, for example the piston reciprocating type micro air compressor machine that the bicycle that has the micro air compressor machine that patent publication No. CN201386544U disclosed, a portable micro air compressor machine that CN202091144U disclosed related to in the product is the one-way structure of giving vent to anger, and efficiency is lower, can't realize the compressed air function of piston reciprocating motion overall process. Therefore, it is necessary to design an integrated air tightness testing device which organically integrates a micro air compressor with high compression efficiency, an air control loop and is convenient to operate and carry.

SUMMERY OF THE UTILITY MODEL

To the defect that exists among the prior art, the utility model aims at providing a miniature middle and low pressure airtight test device of integrated form, with miniature air compressor machine and gas accuse return circuit organic integrated in a body, valve member structure in rational design miniature air machine and the gas accuse return circuit simultaneously makes it have the two-way function such as giving vent to anger of the miniature air machine of reciprocating piston, compressed air output pressure is controllable, can the independent operation.

In order to achieve the above purpose, the utility model adopts the following technical scheme: a portable integrated air tightness test device comprises a body integrating a miniature two-way working air compressor, an inlet air-supplementing low-pressure communicating shuttle valve, a safety valve with a forced opening and closing function, a balanced type pressure reducing valve, a stop valve with a discharging function, a digital display pressure relay and a pressure gauge, a miniature bidirectional working air compressor is arranged in the middle of the body and is connected with a motor driven by a control signal through a connecting rod mechanism, the upper part of the body is provided with an air cavity f of an air storage unit, the air cavity f is connected with a digital display pressure relay, the air cavities on two sides of a bidirectional piston of the miniature bidirectional working air compressor are respectively connected with the air cavity f of the air storage unit through one-way valves, a motor is driven by a control signal to drive a bidirectional piston reciprocating working cylinder in the air compressor to work, and compressed air media are stored in the air cavity f of the air storage unit through the two one-way valves; the air cavities on two sides of the bidirectional piston are respectively connected with air passages at two ends of an inlet air-supplementing low-pressure communicating shuttle valve arranged at the upper part of the body, the inlet air-supplementing low-pressure communicating shuttle valve supplements air to the low-pressure cavity of the miniature bidirectional working air compressor, and the digital display pressure relay is compared with an input control signal to realize the automatic start-stop function of the motor and realize the automatic air supply function; the air cavity f is respectively connected with a safety valve with a forced opening and closing function and a balanced type pressure reducing valve arranged on one side of the top of the body, the balanced type pressure reducing valve is communicated with a stop valve with a discharging function, the stop valve with the discharging function is arranged on the other side of the body, the air inlet end and the air outlet end of the stop valve are respectively connected with a pressure gauge, compressed air with required pressure is provided outwards through a connector, the stop valve with the discharging function controls an air path entering a test object and is provided with a forced discharging and exhausting function, the compressed air is provided for the airtight test object through the connector, after the stop valve with the discharging function is closed, the sealing performance of the tested object is judged through the pressure gauge, and the whole.

Furthermore, the check valve is composed of a check valve seat, a steel ball and a return spring, and the steel ball is connected in the check valve seat through the return spring.

Furthermore, the inlet air-supplementing low-pressure communicating shuttle valve consists of an air-supplementing screw plug, reed leaves and an ejector rod, wherein the two reed leaves are respectively arranged on two sides of the air passage and are connected through the ejector rod, and the air passages on the two sides are respectively communicated with air cavities on two sides of the bidirectional piston through the air passages in the air-supplementing screw plug.

Furthermore, a positioning pin is arranged between the air inlet screw plug and the body.

Further, the safety valve with the forced opening and closing function comprises a knob, a valve rod, an upper cover, a pressure regulating spring, an air blocking ring, a valve core and a valve body, wherein the valve core is arranged in the valve body, the rear end of the valve core is connected with the knob through the valve rod, the valve rod is connected with the upper cover through threads, the upper cover is connected with the valve body through threads, the pressure regulating spring is sleeved outside the valve rod, two ends of the pressure regulating spring are respectively connected with the inner end face of the upper cover and the outer end face of the valve core, the working pressure of the safety valve is set by adjusting the compression amount of the pressure regulating spring through the upper cover, and the valve rod is controlled by the.

Further, a locking nut is in threaded connection with the outer periphery of the upper cover.

Further, balanced type relief pressure valve comprises handle, regulation pole, pressure regulating spring, diaphragm, relief pressure valve disk seat, case, reset spring, be equipped with the diaphragm on the relief pressure valve disk seat up end, and the case that is equipped with reset spring is connected to diaphragm lower terminal surface, and the diaphragm up end passes through spring holder and pressure regulating spring and connects regulation pole and handle, and the output power through handle control pressure regulating spring transmits to the diaphragm to compare with relief pressure valve export medium pressure effort, and then the motion of control case.

Furthermore, the adjusting rod is in threaded connection with a locking nut.

Further, the stop valve with the release function comprises a main valve core, an inner valve core, a large knob and a small knob, wherein the main valve core is connected with the inner valve core in a threaded manner, the outer end of the inner valve core is connected with the small knob, the outer end of the main valve core is connected with the large knob, and the main valve core is connected with the body through threads; the big knob controls the movement of the main valve core to realize the on-off function of the inlet and outlet channels of the stop valve; the small knob controls the movement of the inner valve core to realize the on-off function of the air inlet channel of the stop valve and the external environment and realize the forced discharge function of the inlet medium of the stop valve.

The utility model has the advantages that:

compared with the prior art, the utility model, the airtight test device of design has integrateed functional part such as air compressor machine, relief valve, relief pressure valve, stop valve, pressure relay, manometer, is an airtight test system that can the independent operation, only needs outside supply power can accomplish airtight capability test, can satisfy the equipment and use on-the-spot airtight capability detection. Meanwhile, components such as an air compressor, a safety valve, a pressure reducing valve, a stop valve and the like integrated on the air tightness test device are not simply stacked on the existing product, but are organically integrated on the basis of optimizing the existing independent functional elements to form a complete portable integrated air tightness test device. The air compressor machine among the airtight test device designs into two-way work structure, has all designed on relief valve, the stop valve and has forced the function of releasing, and the relief pressure valve adopts balanced structure, and the performance of these functional unit has advantages such as work efficiency height, dependable performance, and then has guaranteed the whole high performance of airtight test device, can satisfy the equipment airtight test demand of special experimental place or field maintenance.

Drawings

FIG. 1 is a main sectional view of the portable integrated air tightness testing device structure of the present invention;

FIG. 2 is a cross-sectional view taken along A-A of FIG. 1;

FIG. 3 is a cross-sectional view taken along line B-B of FIG. 2;

FIG. 4 is a cross-sectional view taken along line C-C of FIG. 3;

FIG. 5 is a schematic diagram of the portable integrated air tightness testing device of the present invention;

FIG. 6 is a schematic structural diagram of a safety valve with a forced opening and closing function in the portable integrated air tightness testing device of the present invention;

FIG. 7 is a schematic view of a balanced type pressure reducing valve in the portable integrated air tightness testing device of the present invention;

fig. 8 is a schematic diagram of the stop valve with the release function in the portable integrated air tightness testing device of the present invention.

Detailed Description

The invention will be further described with reference to the accompanying drawings and specific embodiments.

As shown in fig. 1 to 4, a portable integrated air-tightness test device comprises a motor 1, a link mechanism 2, a body 3, a first air inlet plug screw 41, a first tongue plate 42, a first positioning pin 43, an ejector rod 44, a second positioning pin 45, a second tongue plate 46, a second air inlet plug screw 47, a piston 5, a first cylinder cover 6, a first one-way valve seat 71, a first steel ball 72, a first return spring 73, a digital display pressure relay 8, an air cavity cover 9, a second one-way valve seat 101, a second return spring 102, a second steel ball 103, a second cylinder cover 11, a safety valve 12, a pressure reducing valve 13, a stop valve 14, a quick-change connector 15, a first pressure gauge 16 and a second pressure gauge 17, wherein air passages a, b and c and air cavities d, e and.

As shown in fig. 5, the working principle of the portable air tightness testing device of the present invention is as follows: the control signal drives the motor 1 to drive the bidirectional piston reciprocating working cylinder C1 in the air machine to work, compressed air medium is stored in the air storage unit A1, namely the air cavity f in the body 3, through the one-way valve V2.1 or V2.2, meanwhile, the low-pressure communicating shuttle valve V1 in the air compressor supplies air to the low-pressure cavity of the cylinder C1, the automatic start-stop function of the motor is realized through the comparison of the pressure detection element P1, namely the pressure relay 8, and the input control signal, and the automatic air supply function is realized. The valve V4, namely the safety valve 12 with the function of forced opening and closing, prevents the compressed air pressure from being too high, and is provided with the function of forced discharging and exhausting, thereby improving the safety of the device. The pressure is reduced to the working pressure required by the airtight test through a valve V5, namely a balanced type pressure reducing valve 13, the air passage entering the test object is controlled through a valve V6, namely a stop valve 14 with a discharging function, a forced discharging and exhausting function is provided, finally, compressed air is provided for the airtight test object through a connector Q1, namely a quick-change connector 15, the valve V6 is closed, the sealing performance of the test object is judged through a pressure gauge P3, and the whole function of the airtight test device is realized.

The miniature two-way working air compressor comprises a motor 1, a link mechanism 2, a body 3, a piston 5, a cylinder cover I6, a digital display pressure relay 8, an air cavity cover 9, an inlet air supply low-pressure communication shuttle valve, two one-way valves and the like, wherein the two one-way valves respectively comprise a one-way valve seat I71, a steel ball I72, a return spring I73, a one-way valve seat II 101, a return spring II 102, a steel ball II 103 and the like, and the inlet air supply low-pressure communication shuttle valve comprises an air inlet screw plug I41, a tongue leaf I42, a positioning pin I43, a mandril 44, a positioning pin II 45, a tongue leaf II 46, an air inlet screw plug II. The motor 1 drives the link mechanism 2 to drive the piston 5 to compress the air in the air cavity d or the air cavity e, and the pressurized compressed air is stored in the air cavity f. When the piston 5 moves rightwards, air in the air cavity e is compressed, the air pressure rises, and the reed II 46 moves leftwards under the action of the air pressure to block the air passage c from the air inlet air passage a; the second reed 46 pushes the ejector rod 44 to move leftwards to drive the free end of the first reed 42 to move leftwards, so that the circulation of the air inlet air passage a and the air passage b is ensured, and external air freely enters the air cavity d; compressed air in the air cavity e pushes the second steel ball 103 away, and compressed air is stored in the air cavity f to establish a compressed air power source. On the contrary, when the piston 5 moves leftwards, the air in the air cavity d is compressed, the air passage b and the air inlet air passage a are cut off, the air inlet air passage a and the air passage c are communicated, and the compressed air enters the air cavity f from the air cavity d, so that the reverse air supply function is realized. The realization of miniature two-way work air compressor machine structure has improved work efficiency greatly.

As shown in fig. 6, the safety valve 12 with the forced opening and closing function is composed of a first knob 121, a valve rod 122, an upper cover 123, a first locking nut 124, a first pressure regulating spring 125, an air blocking ring 126, a first valve core 127, a valve body 128 and the like, the upper cover 123 is used for adjusting the compression amount of the first pressure regulating spring 125 to set the working pressure of the safety valve, and the first knob 121 can control the valve rod 122 to drive the first valve core 127 to overcome the action of the first pressure regulating spring 125 to forcibly drive the upper sealing surface of the first valve core 127 to leave the valve body 128, so that the.

As shown in fig. 7, the balanced type pressure reducing valve 13 is composed of a body 3, a handle 131, a second locking nut 132, an adjusting rod 133, a second pressure regulating spring 134, a diaphragm 135, a pressure reducing valve seat 136, a second valve core 137, a third return spring 138 and the like, the output force of the second pressure regulating spring 134 is controlled by the handle 131 to be transmitted to the diaphragm 135, and compared with the acting force of the outlet medium pressure of the pressure reducing valve, the movement of the second valve core 137 is further controlled, when the outlet pressure reaches the set pressure, the second valve core 137 moves upwards to reduce the size of the valve port so as to maintain the outlet pressure not to exceed the set pressure, and when the outlet pressure is smaller than the set pressure, the second valve core 137 moves downwards to increase; by designing a balance structure that the diameter of a sealing surface formed by the second valve core 137 and the pressure reducing valve seat 136 is equivalent to the diameter of the lower end surface of the second valve core 137 and the upper part and the lower part of the second valve core 137 are communicated, the action areas of the inlet medium and the outlet medium on the second valve core 137 are basically equivalent, the medium force generated on the second valve core is also basically equivalent, the influence of the pressure change of the inlet medium and the outlet medium is small, and the influence of the pressure change of the inlet medium and the outlet medium on the performance of the pressure reducing valve.

As shown in fig. 8, the stop valve 14 with the bleed function is composed of a body 3, a main valve core 141, an inner valve core 142, a large knob 143, a small knob 144, and the like, wherein the large knob 143 controls the movement of the main valve core 141 to realize the on-off function of the inlet and outlet passage of the stop valve; the movement of the inner valve core 142 is controlled by the small knob 144 to realize the on-off function of the air inlet channel of the stop valve and the external environment, and the inlet medium of the stop valve is forcibly discharged.

The utility model designs an integrated level is high, compressed air is efficient, output pressure medium control is convenient, portable just can the independent operation the airtight test device of integral type.

Functional components such as an air compressor, a safety valve, a pressure reducing valve, a stop valve, a pressure relay and a pressure gauge are designed in the air tightness test device, the air tightness test system can run independently, air tightness performance test can be completed only by supplying power to the outside, and air tightness performance detection of an equipment application field can be met. The air compressor in the air tightness test device is designed into a bidirectional working structure, the safety valve and the stop valve are both provided with a forced discharge function, the pressure reducing valve is provided with a balance structure, and the performance of the functional components has the advantages of high working efficiency, reliable performance and the like, so that the overall high performance of the air tightness test device is ensured.

The piston air outlet structure in the micro air compressor is a bidirectional working structure, fully utilizes the full stroke of the reciprocating motion of the piston, and greatly improves the working efficiency. The safety valve is arranged on the air outlet of the air compressor, so that the system pressure can be set and the motor can be prevented from being damaged due to overload. The air outlet of the air compressor is provided with a pressure-adjustable pressure relay, and the start and stop of the work of the motor can be automatically controlled through an electric control feedback system, so that the automatic air supply function is realized. The pressure chamber is arranged on the air compressor, so that the air supply or air supplement function of an airtight test can be met, the stability of air supply is improved, and the service life of the lifting device can be prevented from being frequently started by the motor.

The safety valve in the air-tight test device is designed to have a structure with a forced opening and closing function, the valve rod can be controlled by the knob to drive the valve core to overcome the acting force of the pressure regulating spring to forcibly drive the upper sealing surface of the valve core to leave the valve body, the forced discharging and exhausting function is realized, the emergency exhausting function of the device is met, and the safety of the device is improved.

The pressure reducing valve in the air-tight test device is designed into a balanced pressure reducing structure, the diameter of a sealing surface formed by a valve core and a valve seat of the pressure reducing valve is equivalent to the diameter of an outlet on the lower end surface of the valve core, and the balanced structure is communicated with the upper part and the lower part of the valve core, so that the acting areas of an inlet medium and an outlet medium on the valve core are basically equivalent, the medium force generated on the valve core is also basically equivalent, the influence of the pressure change of the inlet medium and the outlet medium is small, the influence of the pressure change of the inlet pressure and the outlet pressure on.

The stop valve of the air tightness test device is designed into a structure with a discharge function, the movement of the inner valve core is controlled through the knob to realize the on-off function of the air inlet channel of the stop valve and the external environment, the inlet medium of the stop valve is forcibly discharged, and the emergency or forced exhaust performance of the device is improved.

Claims (9)

1. The utility model provides a portable integral type air tightness test device, has the body that an integrated miniature two-way work air compressor machine, import tonifying qi low pressure communicate with each other shuttle valve, take the relief valve, the balanced type relief pressure valve of forced start-stop function, the stop valve of taking the function of releasing, digital display pressure relay, manometer, its characterized in that: the middle of the body is provided with a miniature bidirectional working air compressor, the miniature bidirectional working air compressor is connected with a motor driven by a control signal through a connecting rod mechanism, the upper part of the body is provided with an air cavity f of an air storage unit, the air cavity f is connected with a digital display pressure relay, the air cavities at two sides of a bidirectional piston of the miniature bidirectional working air compressor are respectively connected with the air cavity f of the air storage unit through one-way valves, the control signal drives the motor to drive a bidirectional piston reciprocating working cylinder in the miniature bidirectional working air compressor to work, and compressed air media are stored in the air cavity f of the air storage unit through the two one-way; the air cavities on two sides of the bidirectional piston are respectively connected with air passages at two ends of an inlet air-supplementing low-pressure communicating shuttle valve arranged at the upper part of the body, the inlet air-supplementing low-pressure communicating shuttle valve supplements air to the low-pressure cavity of the miniature bidirectional working air compressor, and the digital display pressure relay is compared with an input control signal to realize the automatic start-stop function of the motor and realize the automatic air supply function; the air cavity f is respectively connected with a safety valve with a forced opening and closing function and a balanced type pressure reducing valve arranged on one side of the top of the body, the balanced type pressure reducing valve is communicated with a stop valve with a discharging function, the stop valve with the discharging function is arranged on the other side of the body, the air inlet end and the air outlet end of the stop valve are respectively connected with a pressure gauge, compressed air with required pressure is provided outwards through a connector, the stop valve with the discharging function controls an air path entering a test object and is provided with a forced discharging and exhausting function, the compressed air is provided for the airtight test object through the connector, after the stop valve with the discharging function is closed, the sealing performance of the tested object is judged through the pressure gauge, and the whole.

2. The portable integrated air-tightness testing device according to claim 1, characterized in that: the check valve consists of a check valve seat, a steel ball and a return spring, and the steel ball is connected in the check valve seat through the return spring.

3. The portable integrated air-tightness testing device according to claim 1, characterized in that: the inlet air-supplementing low-pressure communicating shuttle valve consists of an air-supplementing screw plug, reed leaves and an ejector rod, wherein the two reed leaves are respectively arranged on two sides of an air passage and are connected through the ejector rod, and the air passages on the two sides are respectively communicated with air cavities on two sides of a bidirectional piston through the air passages in the air-supplementing screw plug.

4. A portable integrated air-tightness testing device according to claim 3, characterized in that: and a positioning pin is arranged between the air inlet screw plug and the body.

5. The portable integrated air-tightness testing device according to claim 1, characterized in that: the safety valve with the forced opening and closing function comprises a knob, a valve rod, an upper cover, a pressure regulating spring, an air blocking ring, a valve core and a valve body, wherein the valve core is arranged in the valve body, the rear end of the valve core is connected with the knob through the valve rod, the valve rod is connected with the upper cover through threads, the upper cover is connected with the valve body through threads, the pressure regulating spring is sleeved outside the valve rod, two ends of the pressure regulating spring are respectively connected with the inner end face of the upper cover and the outer end face of the valve core, the working pressure of the safety valve is set through the upper cover for regulating the compression of the pressure regulating spring, and the knob controls the valve rod to.

6. The portable integrated hermetic test apparatus according to claim 5, wherein: and the periphery of the upper cover is in threaded connection with a locking nut.

7. The portable integrated air-tightness testing device according to claim 1, characterized in that: the balanced type relief pressure valve comprises handle, regulation pole, pressure regulating spring, diaphragm, relief pressure valve disk seat, case, reset spring, be equipped with the diaphragm on the relief pressure valve disk seat up end, and the case that is equipped with reset spring is connected to diaphragm lower terminal surface, and the diaphragm up end passes through spring holder and pressure regulating spring and connects regulation pole and handle, and the output power through handle control pressure regulating spring transmits to the diaphragm to compare with relief pressure valve export medium pressure effort, and then the motion of control case.

8. The portable integrated hermetic test apparatus according to claim 7, wherein: and the adjusting rod is in threaded connection with a locking nut.

9. The portable integrated air-tightness testing device according to claim 1, characterized in that: the stop valve with the relief function consists of a main valve core, an inner valve core, a large knob and a small knob, wherein the main valve core is connected with the inner valve core in a threaded manner, the outer end of the inner valve core is connected with the small knob, the outer end of the main valve core is connected with the large knob, and the main valve core is connected with the body through threads; the big knob controls the movement of the main valve core to realize the on-off function of the inlet and outlet channels of the stop valve; the small knob controls the movement of the inner valve core to realize the on-off function of the air inlet channel of the stop valve and the external environment and realize the forced discharge function of the inlet medium of the stop valve.

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