CN210573414U - Radiator blasting test system - Google Patents

Abstract

The utility model relates to a radiator bursting test system, the filtration relief pressure valve is connected to the air supply, filter the relief pressure valve and connect the gas holder, the gas holder is connected electric proportional valve respectively, two-way solenoid valve and three-way solenoid valve, the accurate relief pressure valve of gas accuse is connected to the gas accuse, the booster pump is driven to medium case connection gas, gas drives the booster pump and connects high pressure and supply pressure valve and gas accuse pressure regulating valve respectively, the gas accuse air-vent valve is connected the low pressure and is supplied the pressure valve and connect relief valve and frock joint respectively, the frock joint is connected to the high pressure supply pressure valve, the frock articulate test piece, the utility model discloses carry out pressure performance and examine time.

Description

Radiator blasting test system

Technical Field

The utility model relates to a radiator class product pressure test field specifically indicates a radiator blasting test system.

Background

With the progress of modern industry, especially the rapid development of automobile industry, more and more novel devices and products emerge, and the performance and the service life of the products need to be detected and tested for users to discriminate and manufacturers to improve the products.

The pressure performance detection is one of important detection means, and the performance test is carried out on the product through different pressure performance curves, so that the product development process can be accelerated, the product updating speed can be accelerated, and the product quality can be improved.

With the continuous emergence of new processes and new materials, the product performance is continuously improved, and the pressure performance test needs to be carried out on the product when different products or processes are compared. In the past pressure tests, most of the pressure tests adopt an electric pump for direct pressurization, the pressure is directly output, the pressure dead zone is large, high-precision output is difficult to realize on the control precision, and the pressure range can not be covered in the full range, so that the actual pressure value of a product can not be accurately reflected when the product is subjected to a performance test, the actual measurement pressure value is inaccurate when the product is subjected to the performance test, and great influence is generated on the development of a new product.

SUMMERY OF THE UTILITY MODEL

Purpose of the utility model

In order to solve the direct output of current product pressure, the pressure blind spot is big, the utility model provides a radiator burst test system.

Technical scheme

A radiator bursting test system is characterized in that an air source is connected with an air inlet of a filter pressure reducing valve, the air storage tank is provided with five interfaces, a fourth interface of the air storage tank for draining water and a water outlet of the filter pressure reducing valve are connected with a discharge port of a medium box, an air outlet of the filter pressure reducing valve is connected with a fifth interface of the air storage tank for inlet air, a first interface of the air storage tank for exhaust air is connected with one end of an electric proportional valve, the three-way electromagnetic valve is provided with three interfaces, the other end of the electric proportional valve is respectively connected with one end of a two-way electromagnetic valve and a first interface of a three-way electromagnetic valve for inlet air, an air control pressure regulating valve is provided with three interfaces, the other end of the two-way electromagnetic valve is connected with a second interface of the air control pressure regulating valve for inlet air, a second interface of the air storage tank for, the second interface of the pneumatic control precise pressure reducing valve for air inlet is connected with the third interface of the air storage tank for air outlet, the pneumatic drive booster pump is provided with 5 interfaces, the third interface of the pneumatic control precise pressure reducing valve is connected with the first interface of the pneumatic drive booster pump, the fifth interface of the pneumatic drive booster pump for water inlet and the fourth interface of the pneumatic drive booster pump for water inlet are connected with the first interface of the medium box for water outlet, the second interface of the medium box for water outlet is connected with the discharge port of the medium box, the third interface of the medium box for water inlet is connected with the water outlet of the self-priming pump, and the water inlet of the self-priming pump is connected with the water pump;

after the second interface of the gas drive booster pump for water outlet and the third interface of the gas drive booster pump for water outlet are connected, the fourth interface of the gas control pressure regulating valve for water outlet and the low-pressure supply valve are connected respectively with one end of a high-pressure supply pressure valve for water inlet and the first interface of the gas control pressure regulating valve for water inlet, the other end of the high-pressure supply pressure valve is connected with a tool joint, the fourth interface of the gas control pressure regulating valve for water outlet and the low-pressure supply pressure valve are connected, the other end of the low-pressure supply pressure valve and one end of a first stainless steel pressure relief valve are connected respectively with the tool joint, the other end of the first stainless steel pressure relief valve, the other end of the pressure relief valve and the third interface of the gas control pressure regulating valve for water.

The medium box is provided with a liquid level indicator.

And a water tank is arranged below the tool joint and is respectively connected with the second stainless steel pressure release valve and the discharge port of the environment box.

The air circuit that low pressure supply valve and high pressure supply valve and frock articulate passes and is used for fixed connecting seat, and pressure sensor is connected with the connecting seat.

The advantages and effects are as follows:

the utility model provides a radiator class product in the past, at the in-process that steps up that pressure performance detected, the problem that pressure precision is poor, pressure can not whole cover, the utility model discloses carry out pressure performance and examine time measuring, can control pressure output, reach radiator pressure test's purpose, improve test efficiency.

Drawings

FIG. 1: diagram of radiator blasting test system

Description of reference numerals:

1. a gas source; 2. a filtering pressure reducing valve; 3. a gas storage tank; 4. a first interface of the gas storage tank; 5. a second interface of the gas storage tank; 6. a third interface of the gas storage tank; 7. a fourth interface of the gas storage tank; 8. a fifth interface of the gas storage tank; 9. an electric proportional valve; 10. a two-way solenoid valve; 11. a pneumatic control pressure regulating valve; 12. a low pressure supply valve; 13. a pressure relief valve; 14. a precision pressure regulating valve; 15. a three-way electromagnetic valve; 16. a three-way electromagnetic valve first interface; 17. a second connector of the three-way electromagnetic valve; 18. a third interface of the three-way electromagnetic valve; 19. a pneumatic control precise pressure reducing valve; 20. a first interface of the pneumatic control precision pressure reducing valve; 21. a second interface of the pneumatic control precision pressure reducing valve; 22. a third interface of the pneumatic control precision pressure reducing valve; 23. a gas-driven booster pump; 24. a first interface of the gas drive booster pump; 25. a second interface of the gas drive booster pump; 26. a third interface of the gas drive booster pump; 27. a fourth interface of the gas drive booster pump; 28. a fifth interface of the gas drive booster pump; 29. a media box; 30. a media box first interface; 31. a media box second interface; 32. a media box third interface; 33. a media tank discharge port; 34. a self-priming pump; 35. a first interface of the pneumatic control pressure regulating valve; 36. a second interface of the pneumatic control pressure regulating valve; 37. a third interface of the pneumatic control pressure regulating valve; 38. a fourth interface of the pneumatic control pressure regulating valve; 39. an environmental chamber vent; 40. a first stainless steel pressure relief valve; 41. an inlet of the water pump; 42. a tool joint; 43. a water tank; 44. a second stainless steel pressure relief valve; 45. a pressure sensor; 46. a liquid level indicator; 47. a connecting seat; 48. a high pressure supply valve.

Detailed Description

The invention will be further explained with reference to the drawings:

as shown in fig. 1, an air source 1 is connected with a stainless steel ball valve and then connected with an air inlet of a filter pressure reducing valve 2, the filter pressure reducing valve 2 adopts an SMC model AW20-02C-A, an air outlet of the filter pressure reducing valve 2 is connected with a quick-screwing connector and then connected with a quick-screwing connector on a fifth connector 8 of an air storage tank through an air pipe, five connectors of the air storage tank are the same, a fourth connector 7 of the air storage tank for draining water and a water outlet of the filter pressure reducing valve 2 are respectively connected with a three-way quick-screwing connector through the air pipe, the air pipe connected with the three-way quick-screwing connector is connected with an air pipe connected with a second connector 31 of a medium tank through the three-way quick-screwing connector and then connected with a discharge port 33 of the medium tank through the. The third interface 6 of the air storage tank for air outlet is connected with a hose through a quick-screwing joint and then is connected with the second interface 21 of a pneumatic control precision pressure reducing valve for air inlet, the second interface 21 of the pneumatic control precision pressure reducing valve is an air inlet of the pneumatic control precision pressure reducing valve 19, the pneumatic control precision pressure reducing valve 19 is used for flow amplification and flow regulation, the pneumatic control precision pressure reducing valve 19 is of an IR3120-04 model of an SMC brand, the second interface 5 of the air storage tank for air outlet is connected with an air inlet of a precision pressure regulating valve 14 through a quick-screwing joint, the precision pressure regulating valve 14 is of an ARP20-02 model of an SMC brand, an air outlet of the precision pressure regulating valve 14 is connected with a second interface 17 of a three-way electromagnetic valve for air inlet through an air pipe, the second interface 17 of the three-way electromagnetic valve is an inlet of the three-way electromagnetic valve 15, the three-way electromagnetic valve 15 is of an VT307-5DZ, the electric proportional valve 9 is of a model of PQ1EE-10 of Delauer brand, an outlet of the electric proportional valve 9 is connected with a quick-screwing connector port through a hose and is respectively connected with one end of a two-way electromagnetic valve 10 for air inlet and a first interface 16 of a three-way electromagnetic valve, the pneumatic control pressure regulating valve 11 is provided with three interfaces, the other end of the two-way electromagnetic valve 10 for air outlet is connected with a second interface 36 of the pneumatic control pressure regulating valve for air inlet, the second interface 36 of the pneumatic control pressure regulating valve is a driving port, the two-way electromagnetic valve 10 is of a model of SMC VX210EAXB, a third interface 18 of the three-way electromagnetic valve for air outlet is connected with a first interface 20 of the pneumatic control precision pressure reducing valve for air inlet through a quick-screwing connector, the first interface 20 of the pneumatic control precision pressure reducing valve is a driving port, the pneumatic control pressure boosting pump 23 is provided with 5 interfaces, the third interface 22 of the, the air-driven booster pump 23 is of a type SD39 of Seatt brand, the fourth interface 27 and the fifth interface 28 of the air-driven booster pump are water inlets of the air-driven booster pump 23, the fourth interface 27 and the fifth interface 28 of the air-driven booster pump are firstly connected with a three-way quick-screwing joint and then connected with a pre-water filter through a hose, the pre-water filter is connected with a stainless steel ball valve, the pre-water filter is the prior art, the stainless steel ball valve is connected with a first interface 30 of a medium box for water outlet through a water box joint, the fourth pressure fluctuation interface 27 and the fifth interface 28 of the air-driven booster pump 23 are simultaneously connected with the medium box 29, in order to reduce pulsation and reduce water level, the medium box 29 is provided with a liquid level indicator 46 for checking the water level of the medium box, the medium box is a stainless steel water box, the medium is purified water, and the second interface 31, after medium box second interface 31 connects the stainless steel ball valve, is connected with medium box discharge port 33 through the quick screwed joint of tee bend, and medium box discharge port 33 is used for the drainage for behind the medium box third interface 32 connection quick screwed joint of intaking, be connected with self priming pump 34, water pump inlet 41 is connected to self priming pump 34, and self priming pump is used for drawing water into medium box 29, and water pump inlet 41 is used for providing the water source of testing.

After the second interface 25 of the gas-driven booster pump for water outlet and the third interface 26 of the gas-driven booster pump for water outlet are connected with the three-way joint, the high-pressure supply valve 48 is connected with the water inlet of the high-pressure supply valve 48 and the first interface 35 of the pneumatic control pressure regulating valve for water inlet respectively, the outlet of the high-pressure supply valve 48 is connected with one end of the tool joint 42, the high-pressure supply valve 48 is a coaxial valve and is KB15 NC24VC model of German coax brand, after the third interface 37 of the pneumatic control pressure regulating valve is connected with the quick-screwing joint, the air pipe is connected with an environment tank discharge port 39, the environment tank discharge port 39 is used for discharging waste water, a fourth interface 38 of the pneumatic control pressure regulating valve is connected with an air inlet of a low-pressure supply valve 12, the low-pressure supply valve 12 is a coaxial valve and is of a KB15 NC24VC model of German coax brand, a second interface 36 of the pneumatic control pressure regulating valve is an air inlet of the pneumatic control pressure regulating valve 11, the pneumatic control pressure regulating valve 11 is of a 26-2065T26A370 model of American TESCOM brand, and the third interface 37 of the pneumatic control pressure regulating valve and the fourth interface 38 of the pneumatic control pressure regulating valve are water outlets of; the water outlet of the low-pressure supply valve 12 is respectively connected with the water inlet of a first stainless steel pressure release valve 40, the water inlet of the pressure release valve 13 and one end of a tool joint 42, the water outlet of the first stainless steel pressure release valve 40 is connected with an environment box discharge port 39 through a water pipe, the first stainless steel pressure release valve 40 is used for releasing the pressure in the equipment when power is off, the water outlet of the pressure release valve 13 is connected with the environment box discharge port 39 through a gas pipe, a pressure sensor 45 is arranged on a water way for connecting the low-pressure supply valve 12 and a high-pressure supply valve 48 with the tool joint 42, the pressure sensor 45 is used for pressure acquisition, the pressure sensor 45 is arranged on a connecting seat 47 for fixing, the connecting seat 47 is the prior art, the tool joint 42 is connected with the connecting seat 47 through a high-pressure hose, the tool joint 42 is used for connecting a, a second stainless steel pressure relief valve 44 is used for pressure relief.

The utility model discloses the working process is as follows:

connecting a test piece to be tested with a tool joint 42, allowing compressed air generated by an air source 1 to enter a filter pressure reducing valve 2, discharging water in the filter pressure reducing valve 2 to a medium box discharge port 33 through a water discharge port due to the water in the compressed air, allowing the compressed air passing through the filter pressure reducing valve 2 to enter an air storage tank 3, allowing the water in the air storage tank 3 to exit the medium box discharge port 33, allowing the compressed air in the air storage tank 3 to enter an electric proportional valve 9, a three-way electromagnetic valve 15 and a pneumatic control precision pressure reducing valve 19 respectively, allowing the compressed air to pass through the electric proportional valve 9 to adjust air pressure and then enter a two-way electromagnetic valve 10 and the three-way electromagnetic valve 15 respectively, allowing the two-way electromagnetic valve 10 to adjust and control an air control pressure adjusting valve 11, allowing the three-way electromagnetic valve 15 to adjust and control the pneumatic control precision pressure reducing valve 19, there is liquid level indicator 46 on the medium case 29, can read the liquid level in the medium case, the gas drives booster pump 23 and pressurizes the pure water, high-pressure rivers get into high pressure supply valve 48 and pneumatic control pressure regulating valve 11, after the pressure regulation of high pressure supply valve 48, carry out pressure acquisition from pressure sensor 45, when carrying out the pressure test, close low pressure supply valve 12, high-pressure rivers get into the test piece that awaits measuring through tool mounting joint 42, carry out the pressure test, when carrying out the pressurize test, close high pressure supply valve 48, high-pressure rivers get into after pneumatic control pressure regulating valve 11, get into low pressure supply valve 12 again and carry out the pressure regulation, carry out pressure acquisition from pressure sensor 45, low pressure rivers through the pressure regulation get into the test piece that awaits measuring through tool mounting joint 42, carry out the pressurize experiment, after.

Claims (4)

1. The utility model provides a radiator blasting test system which characterized in that: an air source (1) is connected with an air inlet of a filtering and reducing valve (2), an air storage tank (3) is provided with five interfaces, a fourth interface (7) of the air storage tank for draining water and a water outlet of the filtering and reducing valve (2) are connected with a discharge port (33) of a medium box, an air outlet of the filtering and reducing valve (2) is connected with a fifth interface (8) of the air storage tank for feeding air, a first interface (4) of the air storage tank for exhausting air is connected with one end of an electric proportional valve (9), a three-way electromagnetic valve (15) is provided with three interfaces, the other end of the electric proportional valve (9) is respectively connected with one end of a two-way electromagnetic valve (10) and a first interface (16) of the three-way electromagnetic valve for feeding air, an air control pressure regulating valve (11) is provided with three interfaces, the other end of the two-way electromagnetic valve (10) is connected with a second interface, the other end of the precision pressure regulating valve (14) is connected with a second interface (17) of a three-way electromagnetic valve for air inlet, a third interface (18) of the three-way electromagnetic valve for air outlet is connected with a first interface (20) of a pneumatic control precision pressure reducing valve for air inlet, a second interface (21) of the pneumatic control precision pressure reducing valve for air inlet is connected with a third interface (6) of an air storage tank for air outlet, the air-driven booster pump (23) is provided with 5 interfaces, the third interface (22) of the pneumatic control precision pressure reducing valve is connected with a first interface (24) of an air-driven booster pump, a fifth interface (28) of the air-driven booster pump for water inlet and a fourth interface (27) of the air-driven booster pump for water inlet are connected with a first interface (30) of a medium tank for water outlet, a second interface (31) of the medium tank for water outlet is connected with a discharge port (33) of the medium tank, and the third interface (32) of the medium, the water inlet of the self-priming pump (34) is connected with the water pump inlet (41);

after a second interface (25) of the gas-driven booster pump for water outlet and a third interface (26) of the gas-driven booster pump for water outlet are connected, is respectively connected with one end of a high-pressure supply valve (48) for water inlet and a first interface (35) of a pneumatic control pressure regulating valve for water inlet, the other end of the high-pressure supply valve (48) is connected with a tool joint (42), a water route that pneumatic control air-vent valve fourth interface (38) and low pressure supply valve (12) one end that is used for going out water is connected, the low pressure supply valve (12) other end and the one end of first stainless steel relief valve (40), the one end and the frock of relief valve (13) connect (42) respectively, the other end of first stainless steel relief valve (40), the other end and the pneumatic control air-vent valve third interface (37) that are used for the drainage of relief valve (13) are connected with environment case discharge port (39), low pressure supply valve (12) and high pressure supply valve (48) are connected with frock joint (42) is equipped with pressure sensor (45).

2. The heat sink burst test system of claim 1, wherein: the medium tank (29) is provided with a liquid level indicator (46).

3. The heat sink burst test system of claim 1, wherein: and a water tank (43) is arranged below the tool joint (42), and the water tank (43) is respectively connected with a second stainless steel pressure release valve (44) and an environment box discharge port (39).

4. The heat sink burst test system of claim 1, wherein: the air passage that low pressure supply valve (12) and high pressure supply valve (48) and frock connect (42) to be connected passes and is used for fixed connecting seat (47), and pressure sensor (45) are connected with connecting seat (47).

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