CN218409527U - Pressure boost gas storage equipment - Google Patents

Abstract

The utility model discloses a pressure boost gas storage equipment, it includes supercharging device, filter and a plurality of gas holder, supercharging device has air inlet and gas outlet, the both ends of filter be used for respectively connecting air supply feeding unit with the air inlet and with air supply feeding unit with supercharging device is linked together, a plurality of the gas holder all connect in the gas outlet and with supercharging device is linked together, a plurality of the gas holder is used for respectively to outside a plurality of machine platform air feed. The gas entering the supercharging device is filtered by the water filter through the filter, so that the moisture of the gas is absorbed, a drier air pressure is provided, and the problem of rusting of a product is effectively avoided; the pressure boosting device can achieve the effect of boosting pressure and control the pressure, and the product precision is further improved. Meanwhile, a plurality of air storage tanks are used for supplying air to a plurality of machines, so that the production requirements can be met, and the cost is greatly saved.

Description

Pressure boost gas storage equipment

Technical Field

The utility model relates to a pressure boost gas storage equipment.

Background

Whether the air pressure is stable or not directly affects the appearance and precision of the product during processing. In the prior art, the booster pump and the super-optical machine are designed in a one-to-one manner, and air pressure enters the booster pump and is directly output to the machine table of the super-optical machine for use. However, in actual production operation, since the booster pump and the ultra-optical engine are one-to-one, a large amount of resources are wasted. Meanwhile, air pressure is unstable, and air is not filtered, so that moisture in the air enters the machine table, the precision of a product is poor, the service life of a finished product is shortened, and customers are dissatisfied.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the above-mentioned not enough of existing now, the utility model provides a pressure boost gas storage equipment.

The utility model discloses a realize through following technical scheme:

the utility model provides a pressure boost gas storage equipment, its includes supercharging device, filter and a plurality of gas holder, supercharging device has air inlet and gas outlet, the both ends of filter be used for connecting respectively the air supply feeding device with the air inlet and with the air supply feeding device with supercharging device is linked together, a plurality of the gas holder all connect in the gas outlet and with supercharging device is linked together, a plurality of the gas holder is used for respectively to outside a plurality of machine platform air feed.

Further, supercharging device includes booster pump and first pressure measurement part, the air inlet with the gas outlet all is located on the booster pump, first pressure measurement part set up in gas outlet department is used for measuring gas pressure in the gas outlet.

Further, the supercharging device further comprises a second pressure detection component, and the second pressure detection component is arranged at the air inlet and is used for measuring the gas pressure in the air inlet.

Further, the first pressure detection part and the second pressure detection part are both pressure gauges.

Furthermore, the supercharging gas storage equipment further comprises a plurality of air pressure pipes, the plurality of air pressure pipes correspond to the plurality of gas storage tanks one to one, and two ends of each air pressure pipe are respectively connected to the gas storage tanks and the gas outlets and communicated with the gas storage tanks and the supercharging devices.

Furthermore, the pressurized gas storage device further comprises a plurality of valves, the plurality of valves correspond to the plurality of air pressure pipes one by one, and the valves are connected to the air pressure pipes and used for controlling the on-off of the air pressure pipes.

Further, the valve is a ball valve.

Further, the number of the air storage tanks is three.

The beneficial effects of the utility model reside in that: the gas entering the supercharging device is filtered by the water filter through the filter, so that the moisture of the gas is absorbed, a drier air pressure is provided, and the problem of rusting of a product is effectively avoided; the pressure boosting device can achieve the effect of boosting pressure and control the pressure, and the product precision is further improved. Meanwhile, a plurality of air storage tanks are used for supplying air to a plurality of machines, so that the production requirements can be met, and the cost is greatly saved.

Drawings

Fig. 1 is a schematic view of a pressurized gas storage device according to an embodiment of the present invention.

Fig. 2 is a schematic view of a partial structure of a pressurized gas storage device according to an embodiment of the present invention.

Description of the reference numerals:

supercharging device 1

Air intake 11

Air outlet 12

Filter 2

Gas storage tank 3

Air pressure pipe 4

Gas supply device 100

Machine 200

Detailed Description

The following description of the embodiments refers to the accompanying drawings, which are included to illustrate specific embodiments in which the invention may be practiced.

As shown in fig. 1 and fig. 2, the present embodiment discloses a pressurized air storage apparatus, which includes a pressurizing device 1, a filter 2, and a plurality of air tanks 3, wherein the pressurizing device 1 has an air inlet 11 and an air outlet 12, and two ends of the filter 2 are respectively used for connecting an air source supply device 100 and the air inlet 11 and are communicated with the air source supply device 100 and the pressurizing device 1. The gas supply device 100 is used for supplying gas, and the gas enters the filter 2, then flows into the gas inlet 11 through the filter 2 and enters the pressure boosting device 1. Make the gas that gets into supercharging device 1 through filter 2 will filter through the water purifier to absorb gaseous moisture, provided drier air pressure, effectively avoided the rusty problem of goods, improved the goods precision, prolonged off-the-shelf life-span.

The plurality of gas storage tanks 3 are connected to the gas outlet 12 and communicated with the supercharging device 1, and the plurality of gas storage tanks 3 are respectively used for supplying gas to a plurality of external machines 200. Supercharging device 1 will pressurize the gas that gets into supercharging device 1, through supercharging device 1's pressurization for the pressure of gas reaches required pressure, then enters into to a plurality of gas holder 3 by gas outlet 12, thereby realizes the air feed effect of a supercharging device 1 to a plurality of gas holder 3. The gas enters the supercharging device 1 to have a boosting effect, the gas pressure can be controlled, stable gas pressure can be provided, the product precision is further improved, and the service life of a finished product is prolonged. Simultaneously, realize providing gas to a plurality of gas holder 3 through a supercharging device 1, realize not only can satisfying the production demand to a plurality of board 200 air feed through a plurality of gas holder 3, still very big saving cost.

In the present embodiment, the number of the air tanks 3 is three. The purpose that one supercharging device 1 is used for providing three super-optical machines is achieved, and therefore cost is saved.

The supercharging device 1 includes a booster pump and a first pressure detection unit, the gas inlet 11 and the gas outlet 12 are both located on the booster pump, and the first pressure detection unit is disposed at the gas outlet 12 and is used for measuring the gas pressure in the gas outlet 12. The first pressure detection component is used for detecting the gas pressure in the gas port 12, so that the booster pump can provide stable and adjustable pressure, the gas pressure is accurately controlled, the booster gas storage device provides stable gas pressure, the product precision is improved, and the cost is reduced.

The supercharging device 1 also comprises second pressure detection means which are provided at the gas inlet 11 and serve to measure the gas pressure within the gas inlet 11. The second pressure detection component is used for detecting the gas pressure in the gas inlet 11, so that the booster pump can provide stable and adjustable pressure, the gas pressure can be accurately controlled, the booster gas storage device can provide stable gas pressure, the product precision is improved, and the cost is reduced. And the first pressure detection component and the second pressure detection component are both pressure gauges. The pressure value of the booster pump which needs to be regulated can be clearly seen through the pressure gauge.

The supercharging gas storage equipment further comprises a plurality of air pressure pipes 4, the air pressure pipes 4 are in one-to-one correspondence with the gas storage tanks 3, and two ends of each air pressure pipe 4 are connected to the gas storage tanks 3 and the gas outlet 12 respectively and are communicated with the gas storage tanks 3 and the supercharging device 1. The gas storage tank 3 is communicated with the supercharging device 1 through the air pressure pipe 4, and the supercharging gas storage equipment is high in stability. Of course, the connection between the pressure boosting device 1 and the filter 2 and the connection with other components may be achieved by using a pneumatic tube.

The pressurizing gas storage device further comprises a plurality of valves, the valves correspond to the air pressure pipes 4 one by one, and the valves are connected to the air pressure pipes 4 and are used for controlling the air pressure pipes 4 to be switched on and off. The on-off of the air compression pipe 4 is conveniently controlled through the valve, and the safety and stability of the pressurization air storage equipment are greatly improved. Wherein, the valve can be a ball valve.

In this embodiment, each component in the pressurized gas storage device may be connected by using a quick coupling, so that the two ends of the air pressure pipe 4 are connected with the component by using the quick coupling, and the installation and the connection are very convenient.

The pressurization gas storage equipment can provide stable air pressure, and realize that a booster pump provides three super bare engine simultaneously and use, the gas through filter 2 will get into the booster pump in, promote gas pressure, then get into and store in the gas holder 3, when treating that former pressure is not enough, directly provide pressure by the gas holder 3, with the normal work of realization board 200. Wherein, the booster pump can use small-size portable. The booster pump used has sufficient boosting capability to provide sufficient service pressure.

The above disclosure is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the scope of the invention, which is defined by the appended claims.

Claims (8)

1. The utility model provides a pressure boost gas storage equipment, its characterized in that, it includes supercharging device, filter and a plurality of gas holder, supercharging device has air inlet and gas outlet, the both ends of filter be used for respectively connect the air supply feeding device with the air inlet and with the air supply feeding device with supercharging device is linked together, a plurality of the gas holder all connect in the gas outlet and with supercharging device is linked together, a plurality of the gas holder is used for respectively to outside a plurality of machine platform air feed.

2. The pressurized gas storage device according to claim 1, wherein said pressurizing means comprises a pressurizing pump and a first pressure detecting member, said gas inlet and said gas outlet are both located on said pressurizing pump, and said first pressure detecting member is disposed at said gas outlet and is used for measuring the gas pressure in said gas outlet.

3. The supercharged air storage device of claim 2, wherein said supercharging device further comprises a second pressure detecting means provided at said air inlet for measuring the pressure of the gas in said air inlet.

4. The pressurized gas storage device according to claim 3, wherein the first pressure detecting means and the second pressure detecting means are pressure gauges.

5. The pressurized air storage device according to claim 1, further comprising a plurality of air pressure pipes, wherein a plurality of air pressure pipes correspond to a plurality of air storage tanks one to one, and two ends of each air pressure pipe are connected to the air storage tank and the air outlet respectively and are communicated with the air storage tank and the pressurization device.

6. The pressurized air storage device of claim 5, further comprising a plurality of valves, wherein a plurality of said valves correspond one-to-one to a plurality of said air pipes, and wherein said valves are connected to said air pipes and are configured to control the opening and closing of said air pipes.

7. The pressurized gas storage device of claim 6, wherein the valve is a ball valve.

8. The pressurized air storage device of claim 1, wherein the number of said air storage tanks is three.

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