CN104417288A - High-pressure air energy recovering system - Google Patents

Abstract

The invention discloses a high-pressure air energy recovering system which is characterized by comprising an exhaust valve, a one-way valve I, an air storing tank I, a supercharger, an air storing tank II, a stop valve II and a one-way valve II which are sequentially communicated, wherein an air path between the one-way valve I and the exhaust valve is communicated with a first outlet of a two-position three-way valve, and the one-way valve II is simultaneously communicated with an air source and a second outlet of the two-position three-way valve. The high-pressure air energy recovering system is used for effectively recovering waste air after a tire pressure is tested and facilitating that a tire is inflated when a subsequent tire pressure is tested, thereby saving energy and protecting an environment; the recovered air is supercharged by the supercharger, so that the recovered air can be recycled when the tire pressure is tested; due to a design of the one-way valve I and the air storing tank I, the recovering rate of the air is effectively improved; by adopting a filter II, a filter III and a fourth filter IV, most of impurities in the air are effectively removed, the circulating performance of the recovering system is enhanced, and the wettability of the air is increased due to adoption of an oil mist device, so that the service life of the recovering system is prolonged.

Description

High pressure air energy-recuperation system

Technical field

The present invention relates to tire checking field, particularly relate to a kind of high pressure air energy-recuperation system.

Technical background

At present, along with increasing rapidly of private car, the market of tire is also increasing, and the quality of tire quality is very large on car impact, therefore, it is very general for testing by tire pressure the quality detecting tire, as those skilled in the art, knowing very well that pressure of tire is tested is the highest link of air compressor energy consumption, the high pressure air that usual air compressor generates directly is discharged in air after completing pressure of tire test, cause the waste of a large amount of high pressure air, but also great impact is caused on environment, destroy the environment that the mankind depend on for existence, this and low-carbon environment-friendly, the theory of energy-saving and emission-reduction runs in the opposite direction.

Although high pressure air is directly discharged in air both wasted resource as you know, affect environment again, still there is no actv. terms of settlement so far.

 

Summary of the invention

The present invention is directed to the problems referred to above, propose a kind of high pressure air energy-recuperation system.

To achieve these goals, the present invention is realized by following scheme:

A kind of high pressure air energy-recuperation system, it is characterized in that, this system comprises the blow off valve, check valve one, storage tank one, blwr, storage tank two, shutoff valve two and the check valve two that are interconnected successively.

Described blow off valve before system is used for the test of follow-up tire pressure not having the gas of recovery to enter air.

Described check valve one stops the gas backstreaming in storage tank one to enter in air when blow off valve is opened.

Described storage tank one discharges the impact of high pressure gas for buffering tyre, prevents from impacting the life-span shortening blwr, can store a certain amount of gas to increase the efficiency of recovery simultaneously.

Described blwr is twice supercharging, because the gaseous tension reclaimed is less than the pressure of source of the gas, want just the gas of recovery to be carried out supercharging in recycle to Tire testing, when the pressure of the gaseous tension >=source of the gas after supercharging, the gas of recovery just can utilize again.

Described storage tank two is by the atmosphere storage after supercharging and to maintain pressure relatively stable, if blwr is directly connected in source of the gas, have certain difference of pressure, certain impact can be produced on the pressure stability of source of the gas, and the maintenance of unfavorable follow-up system and maintenance.

Described shutoff valve two, for cutting off recovery gas circuit, conveniently overhauls and maintenance recovery system.

Described check valve two flows in recovery system to prevent the gas of source of the gas when the pressure of the pressure in recovery system lower than source of the gas.

As preferably, the gas circuit between described check valve one and blow off valve exports with first of two position three-way valve and is connected, described check valve two simultaneously with the second outlet of source of the gas and two position three-way valve.

Filter one and the manometric pressure regulating valve one of band is provided with between described check valve two and the second outlet.

First outlet of described two position three-way valve, after tire pressure is completed, is exhausted, and the second outlet is inflated tire before tire pressure test.

As preferably, between described check valve two and source of the gas, be also provided with check valve three and shutoff valve one.

Described check valve three flows toward source of the gas to prevent the gas when the pressure of the pressure in recovery system higher than source of the gas in recovery system.

Described shutoff valve one, for cutting off inflation gas circuit, is convenient to the maintenance to inflation gas circuit and maintenance.

As preferably, between described blow off valve and check valve one, be provided with filter four, between check valve one and storage tank one, be provided with filter three.

As preferably, described filter three is 40u filter.

Because the gas in tire is messy and have partial particulate shape impurity; filter four is mainly in order to filter particle little a bit; prevent these particulate contamination from blocking recovery system; affect stability and the service life of recovery system; described filter three is in order to the impurity in filtered air, thus protection blwr, extend the life-span of blwr; according to the mean size of impurity in air, 40u filter is preferably adopted to carry out coarse filtration.

As preferably, between described storage tank one and blwr, be disposed with filter two and oil sprayer.

As preferably, described filter two is 5u filter.

Described filter two is in order to the impurity in filtered air, thus protection blwr, extend the life-span of blwr, according to the mean size of impurity in air, preferably adopt 5u filter to carry out essence and filter.

Described oil sprayer is that the gas entering blwr increases appropriate mist of oil, strengthens the wettability in blwr, extends the life-span of blwr.

As preferably, between described shutoff valve two and check valve two, be provided with pressure regulating valve two.

As preferably, described pressure regulating valve two is with manometric pressure regulating valve.

Described pressure regulating valve two is the sizes in order to regulate recovery system internal pressure, according to manometric display, conveniently observes and records pressure size when recovery system utilizes.

As preferably, described storage tank two is provided with exhaust outlet mouth.

Portion gas is had not to be essentially completely recovered utilization when equipment stops maintenance in storage tank two, the convenient gas of draining in time in storage tank two of exhaust outlet mouth is set in order to maintenance, these gases (gas of source of the gas and recovery) are tested for the tire pressure of tire in addition, cleanliness for gas does not have too high requirement, namely the equipment such as drier are not needed, so containing certain moisture (air humidity) in these gases, when time-based maintenance or maintenance, open the stable and service life of moisture this system favourable that exhaust outlet mouth is drained in storage tank two.

Beneficial effect of the present invention is as follows:

1, the present invention effectively reclaimed tire pressure test after waste gas, be convenient to follow-up tire pressure test time tire is inflated, energy-conserving and environment-protective;

2, by blwr, the gas of recovery is carried out supercharging, thus the gas of recovery is utilized again when tire pressure is tested;

3, the design of check valve one and storage tank one, effectively increases the percent recovery of gas;

4, filter two, filter three and filter four effectively eliminate the most of impurity in gas, enhance the trafficability performance of recovery system, and oil sprayer adds the wettability of gas, extend the service life of recovery system.

Accompanying drawing explanation

Fig. 1 is the present invention's schematic diagram in use;

In figure: 1. filter four, 2. check valve one, 3. filter three, 4. storage tank one, 5. filter two, 6. oil sprayer, 7. blwr, 8. storage tank two, 9. shutoff valve two, 10. pressure regulating valve two, 11. check valve two, 12. sources of the gas, 13. shutoff valve one, 14. check valve three, 15. filters one, 16. pressure regulating valve one, 17. two position three-way valves, 18. second outlets, 19. first outlets, 20. tires, 21. blows off valve.

Detailed description of the invention

Below in conjunction with accompanying drawing, embodiments of the invention are further elaborated:

As shown in Figure 1, a kind of high pressure air energy-recuperation system that the present invention mentions, is characterized in that, this system comprises the blow off valve 21, check valve 1, storage tank 1, blwr 7, storage tank 28, shutoff valve 29 and the check valve 2 11 that are interconnected successively.

Described blow off valve 21 before system is used for the test of follow-up tire pressure not having the gas of recovery to enter air.

Described check valve 1 stops the gas backstreaming in storage tank 1 to enter in air when blow off valve is opened.

Described storage tank 1 discharges the impact of high pressure gas for buffering tyre, prevents from impacting the life-span shortening blwr 7, can store a certain amount of gas to increase the efficiency of recovery simultaneously.

Described blwr 7 is twice supercharging, because the gaseous tension reclaimed is less than the pressure of source of the gas 12, want just the gas of recovery to be carried out supercharging in recycle to Tire testing, when the pressure of the gaseous tension >=source of the gas 12 after supercharging, the gas of recovery just can utilize again.

Described storage tank 28 is by the atmosphere storage after supercharging and to maintain pressure relatively stable, if blwr 7 is directly connected in source of the gas 12, have certain difference of pressure, certain impact can be produced on the pressure stability of source of the gas 12, and the maintenance of unfavorable follow-up system and maintenance.

Described shutoff valve 29, for cutting off recovery gas circuit, conveniently overhauls and maintenance recovery system.

Described check valve 2 11 flows in recovery system to prevent the gas of source of the gas 12 when the pressure of the pressure in recovery system lower than source of the gas 12.

Gas circuit between described check valve 1 and blow off valve 21 exports 19 with first of two position three-way valve 17 and is connected, and described check valve 2 11 exports 18 with source of the gas 12 with second of two position three-way valve 17 simultaneously and is communicated with.

Filter 1 and the manometric pressure regulating valve 1 of band is provided with between described check valve 2 11 and the second outlet 18.

First outlet 19 of described two position three-way valve 17, after tire pressure is completed, is exhausted, and the second outlet 18 is inflated tire before tire pressure test.

Check valve 3 14 and shutoff valve 1 is also provided with between described check valve 2 11 and source of the gas 12.

Described check valve 3 14 flows toward source of the gas 12 to prevent the gas when the pressure of the pressure in recovery system higher than source of the gas 12 in recovery system.

Described shutoff valve 1, for cutting off inflation gas circuit, is convenient to the maintenance to inflation gas circuit and maintenance.

Be provided with filter 41 between described blow off valve 21 and check valve 1, between check valve 1 and storage tank 1, be provided with filter 33.

Described filter 33 is 40u filter.

Because the gas in tire is messy and have partial particulate shape impurity; filter 41 is mainly in order to filter particle little a bit; prevent these particulate contamination from blocking recovery system; affect stability and the service life of recovery system; described filter 33 is in order to the impurity in filtered air, thus protection blwr 7, extend the life-span of blwr 7; according to the mean size of impurity in air, 40u filter is preferably adopted to carry out coarse filtration.

Filter 25 and oil sprayer 6 is disposed with between described storage tank 1 and blwr 7.

Described filter 25 is 5u filter.

Described filter 25 is in order to the impurity in filtered air, thus protection blwr 7, extend the life-span of blwr 7, according to the mean size of impurity in air, preferably adopt 5u filter to carry out essence and filter.

Described oil sprayer 6 increases appropriate mist of oil for the gas entering blwr 7, strengthens the wettability in blwr 7, extends the life-span of blwr 7.

Pressure regulating valve 2 10 is provided with between described shutoff valve 29 and check valve 2 11.

Described pressure regulating valve 2 10 is with manometric pressure regulating valve.

Described pressure regulating valve 2 10 is the sizes in order to regulate recovery system internal pressure, according to manometric display, conveniently observes and records pressure size when recovery system utilizes.

Described storage tank 28 is provided with exhaust outlet mouth.

Portion gas is had not to be essentially completely recovered utilization when equipment stops maintenance in storage tank 28, the convenient gas of draining in time in storage tank 28 of exhaust outlet mouth is set in order to maintenance, these gases (gas of source of the gas and recovery) are tested for the tire pressure of tire in addition, cleanliness for gas does not have too high requirement, namely the equipment such as drier are not needed, so containing certain moisture (air humidity) in these gases, when time-based maintenance or maintenance, open the stable and service life of moisture this system favourable that exhaust outlet mouth is drained in storage tank 28.

The working process of the present embodiment is as follows:

After tire pressure is completed, open the first outlet of two position three-way valve, waste gas is imported in recovery system, waste gas is first through filter four, by filter four, the particulate contamination of taking out of in tire is filtered, enter in filter three by check valve again, impurity in filter three pairs of waste gas carries out coarse filtration, the later waste gas of coarse filtration enters in storage tank one, waste gas flows out from storage tank one again, by filter two, impurity in filter two pairs of waste gas carries out essence and filters, essence is filtered later waste gas and is passed through oil sprayer, mist of oil in appropriate increase waste gas, waste gas after oil sprayer is moistening is again by carrying out supercharging in blwr, enter in storage tank two after exhaust gas, after supercharging is complete, open blow off valve, discharge the waste gas do not reclaimed, if during the pressure of the gaseous tension >=source of the gas in storage tank two, the gas reclaimed will utilize again, if during the pressure of the gaseous tension < source of the gas in storage tank two, need again to reclaim, until the pressure of gaseous tension >=source of the gas in storage tank two just can utilize again.

Above-described is only the preferred embodiment of the present invention; it should be pointed out that for those of ordinary skill in the art, under the prerequisite not departing from core technical features of the present invention; can also make some improvements and modifications, these improvements and modifications also should be considered as protection scope of the present invention.

Claims (10)

1. a high pressure air energy-recuperation system, it is characterized in that, this system comprises the blow off valve (21), check valve one (2), storage tank one (4), blwr (7), storage tank two (8), shutoff valve two (9) and the check valve two (11) that are interconnected successively.

2. high pressure air energy-recuperation system according to claim 1, it is characterized in that, gas circuit between described check valve one (2) and blow off valve (21) exports (19) with first of two position three-way valve (17) and is connected, and described check valve two (11) exports (18) with source of the gas (12) with second of two position three-way valve (17) simultaneously and is communicated with.

3. high pressure air energy-recuperation system according to claim 2, is characterized in that, is also provided with check valve three (14) and shutoff valve one (13) between described check valve two (11) and source of the gas (12).

4. the high pressure air energy-recuperation system according to claim 1 or 2 or 3, it is characterized in that, be provided with filter four (1) between described blow off valve (21) and check valve one (2), between check valve one (2) and storage tank one (4), be provided with filter three (3).

5. high pressure air energy-recuperation system according to claim 4, is characterized in that, described filter three (3) is 40u filter.

6. high pressure air energy-recuperation system according to claim 4, is characterized in that, is disposed with filter two (5) and oil sprayer (6) between described storage tank one (4) and blwr (7).

7. high pressure air energy-recuperation system according to claim 6, is characterized in that, described filter two (5) is 5u filter.

8. high pressure air energy-recuperation system according to claim 6, is characterized in that, is provided with pressure regulating valve two (10) between described shutoff valve two (9) and check valve two (11).

9. high pressure air energy-recuperation system according to claim 8, is characterized in that, described pressure regulating valve two (10) is with manometric pressure regulating valve.

10. high pressure air energy-recuperation system according to claim 9, is characterized in that, described storage tank two (8) is provided with exhaust outlet mouth.