CN220567086U - Compressed air system - Google Patents

Abstract

The utility model relates to the technical field of air conveying, and provides a compressed air system, which comprises: the gas storage device is suitable for introducing and storing gas; the gas transmission pipeline is communicated with the gas storage device and is also suitable for being communicated with an external gas utilization unit; the drying device is arranged on the gas transmission pipeline and is suitable for drying gas; the filtering device is arranged on the gas pipeline and is suitable for filtering water and/or oil in the gas pipeline; the drainage structure is at least arranged on the gas storage device and comprises a drainage switch piece and a drainage outlet, wherein the drainage switch piece is connected with the gas transmission pipeline and is in a drainage state that the drainage outlet is opened under the action of the gas pressure of the gas transmission pipeline and the water pressure of the device where the drainage structure is arranged. The automatic condensate water discharge device has the advantages that the automatic condensate water discharge of the compressed air system is realized, the water discharge efficiency is improved, condensate water on at least the air storage device in the compressed air system can be timely discharged, and the problems of low efficiency and untimely discharge of the condensate water manually and regularly in the prior art are effectively overcome.

Description

Compressed air system

Technical Field

The utility model relates to the technical field of gas delivery, in particular to a compressed air system.

Background

At present, in the technical field of gas delivery, the application of compressed air is more and more extensive, the compressed air is widely required in industrial places such as power plants, chemical plants, steel plants and the like, and the requirements on quality, design pressure, gas stability and the like are higher.

At present, in order to meet the safety and stability of gas consumption, the condensed water generated in the operation process of a compressed air system needs to be effectively discharged, in the prior art, a manual valve is mainly added below a gas storage structure of the compressed air system, and through manual periodic manual water discharge, on one hand, the water discharge efficiency is lower, on the other hand, the influence of quality of operators is larger, the condensed water is easy to discharge untimely, the problems of excessive accumulated water of equipment and shutdown of partial structures of the system are caused, and the quality of a gas source is also reduced.

Disclosure of Invention

In view of the above, the utility model provides a compressed air system to solve the problems of low efficiency and untimely discharge of the manually-operated condensate water at regular intervals.

In a first aspect, the present utility model provides a compressed air system comprising: the gas storage device is suitable for introducing and storing gas; the gas transmission pipeline is communicated with the gas storage device and is also suitable for being communicated with an external gas utilization unit; the drying device is arranged on the gas transmission pipeline and is suitable for drying gas; the filtering device is arranged on the gas transmission pipeline and is suitable for filtering water and/or oil in the gas transmission pipeline; the drainage structure is at least arranged on the gas storage device and comprises a drainage switch piece and a drainage outlet, wherein the drainage switch piece is connected with the gas transmission pipeline and is in a drainage state that the drainage outlet is opened under the action of the gas pressure of the gas transmission pipeline and the water pressure of the device where the drainage structure is arranged.

The beneficial effects are that:

at least, the drainage structure is arranged on the gas storage device, the drainage switch piece of the drainage structure is connected to the gas transmission pipeline, the drainage switch piece is under the combined action of the gas transmission pipeline and the water pressure of condensed water of the device where the drainage structure is arranged, when the gas transmission pipeline is increased in gas pressure or the condensed water of the device where the drainage structure is arranged is more in water storage, the drainage switch piece can be driven to open the drainage port, so that the drainage of condensed water is realized, the automatic drainage of the condensed water of the compressed air system is realized, the drainage efficiency is improved, the condensed water on at least the gas storage device in the compressed air system can be timely drained, the problems that in the prior art, the manual periodic manual drainage of the condensed water is low in efficiency, the drainage is untimely, excessive equipment ponding and the system part structure is stopped are solved, and the quality of a gas source is also reduced are effectively solved.

In an alternative embodiment, a plurality of drainage structures are respectively connected with the drying device, the gas storage device and the filtering device correspondingly.

The beneficial effects are that:

the arrangement can lead the drainage structure to be widely distributed in the gas storage device, the drying device and the filtering device of the compressed air system, realize the timely discharge of condensed water in each structure of the compressed air system, and avoid the problems of excessive accumulated water of equipment and structural shutdown.

In an alternative embodiment, the drainage structure is provided at the bottoms of the drying means, the gas storage means and the filtering means.

In an alternative embodiment, the drain structure is a mechanical automatic drain valve.

In an alternative embodiment, the compressed air system further comprises: and the water guide pipeline is respectively connected with the water outlets of the drying device, the gas storage device and the filtering device and is suitable for discharging accumulated water.

In an alternative embodiment, the filter device comprises: the first filtering structure is arranged on the gas transmission pipeline between the drying device and the gas storage device and is suitable for filtering oil in gas; the second filtering structure is arranged on the gas transmission pipeline between the drying device and the gas storage device and is arranged on the downstream side of the gas path of the first filtering structure, and is suitable for filtering water and oil in gas; and the third filtering structure is arranged on the gas transmission pipeline between the drying device and the external gas unit and is suitable for filtering water and oil in the gas.

In an alternative embodiment, the compressed air system further comprises: the first safety pipeline is provided with a first safety valve, two ends of the first safety pipeline are connected with gas pipelines arranged on two sides of the first filtering structure, and the first safety valve is connected with the first filtering structure in parallel; the second safety pipeline is provided with a second safety valve, two ends of the second safety pipeline are connected with gas pipelines arranged on two sides of the second filtering structure, and the second safety valve is connected with the second filtering structure in parallel; and the third safety pipeline is provided with a third safety valve, two ends of the third safety pipeline are connected with gas transmission pipelines arranged on two sides of the third filtering structure, and the third safety valve is connected with the third filtering structure in parallel.

In an alternative embodiment, the compressed air system further comprises: and the fourth safety pipeline is provided with a fourth safety valve, two ends of the fourth safety pipeline are connected with gas pipelines arranged on two sides of the drying device, and the fourth safety valve is connected with the drying device in parallel.

In an optional implementation manner, the compressed air system is arranged on the air transmission pipeline, and the air paths of the first filtering structure, the second filtering structure, the third filtering structure and the drying device are respectively and correspondingly provided with an air inlet valve and an air outlet valve which are connected with various safety pipelines in parallel, the first safety pipeline and the second safety pipeline are arranged in a staggered manner, and the third safety pipeline and the fourth safety pipeline are arranged in a staggered manner.

In an alternative embodiment, the first filtering structure is an oil-removing type oil-water filter, the second filtering structure is a basic type oil-water filter, and the third filtering structure is a precision type oil-water filter.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are needed in the description of the embodiments or the prior art will be briefly described, and it is obvious that the drawings in the description below are some embodiments of the present utility model, and other drawings can be obtained according to the drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of a compressed air system according to an embodiment of the present utility model;

reference numerals illustrate:

1. a gas storage device; 2. a gas transmission pipeline; 21. a first safety line; 22. a second safety line; 23. a third safety line; 24. a fourth safety line; 3. an external gas unit; 4. a drying device; 5. a filtering device; 51. a first filtering structure; 52. a second filter structure; 53. a third filter structure; 6. a drainage structure; 7. a water guide pipeline; 8. and the gas circuit switch.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model, and it is apparent that the described embodiments are some embodiments of the present utility model, but not all embodiments of the present utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

An embodiment of the present utility model is described below with reference to fig. 1.

According to an embodiment of the present utility model, there is provided a compressed air system including: the device comprises a gas storage device 1, a gas transmission pipeline 2, a drying device 4, a filtering device 5 and a drainage structure 6.

The gas storage device 1 is specifically a gas storage tank, is connected and arranged on the gas transmission pipeline 2, is suitable for introducing and storing gas, can be introduced laterally from the gas storage tank, and can be used as a changeable implementation mode, and the gas storage tank can be used as a finished product structure for storing gas only.

The gas transmission pipeline 2 is communicated with the gas storage device 1 and is also suitable for being communicated with an external gas utilization unit 3, and the specific type of the external gas utilization unit 3 is not limited.

The drying device 4 is specifically a drying tower, the drying device 4 is arranged on the gas transmission pipeline 2 and is suitable for drying gas, the filtering device 5 is arranged on the gas transmission pipeline 2 and is suitable for filtering water and oil in the gas transmission pipeline 2, and condensed water can be filtered;

the drainage structure 6 is at least arranged on the gas storage device 1 and comprises a drainage switch piece and a drainage port, wherein the drainage switch piece is connected with the gas pipeline 2 and is in a drainage state that the drainage port is opened under the action of the compressed air pressure of the gas pipeline 2 and the water pressure of condensed water of the device where the drainage structure 6 is arranged. In this embodiment, the pressure value of the drain opening of the drain switch member of the drain structure 6 can be correspondingly adjusted according to the design pressure of the external air unit 3, for example, the external air unit 3 can be a pulse bag-type dust collector, the design pressure is 0.6-0.8Mpa, and the pressure opening pressure value of the drain switch member is set at 1.0Mpa. In this embodiment, the drain switch is preferably a mechanical automatic drain valve, and as an alternative embodiment, the drain switch may be another type of pressure relief valve.

At least, the drainage structure 6 is arranged on the gas storage device 1, and the drainage switch piece of the drainage structure 6 is connected to the gas transmission pipeline 2, so that the drainage switch piece is under the combined action of the gas pressure of the gas transmission pipeline 2 and the water pressure of condensed water of the device where the drainage structure 6 is arranged, when the gas pressure of the gas transmission pipeline 2 is increased or the condensed water of the device where the drainage structure 6 is arranged is more, the drainage switch piece can be driven to open a drainage port, so that the drainage of the condensed water is realized, the automatic drainage of the condensed water of the compressed air system is realized, the drainage efficiency is improved, the condensed water on at least the gas storage device 1 in the compressed air system can be timely drained, the problems that in the prior art, the efficiency of manually draining the condensed water is low, the drainage is not timely, excessive accumulated water of equipment is caused, the structure of the system is stopped are solved, and the quality of the gas source 1 is also reduced are effectively solved.

In this embodiment, three drainage structures 6 are also provided in corresponding connection with the drying device 4, the gas storage device 1 and the filtering device 5, respectively. By the arrangement, the drainage structures 6 can be widely distributed in the air storage device 1, the drying device 4 and the filtering device 5 of the compressed air system, so that the timely discharge of condensed water in each structure of the compressed air system is realized, and the problems of excessive accumulated water of equipment and structural shutdown are avoided.

Specifically, the drainage structure 6 is disposed at the bottoms of the drying device 4, the gas storage device 1 and the filtering device 5, so as to facilitate drainage, and may be disposed at the side wall or the like of each device as an alternative embodiment.

The compressed air system also comprises a water guide pipeline 7, and the water guide pipeline 7 is respectively connected with the water outlets of the drying device 4, the gas storage device 1 and the filtering device 5 and is suitable for discharging accumulated water. In this embodiment, the water guide pipeline 7 is connected to the drying device 4, the gas storage device 1 and the filtering device 5 through a plurality of branch pipes, respectively.

Preferably, the filtering device 5 comprises: a first filter structure 51, a second filter structure 52 and a third filter structure 53.

The first filtering structure 51 is arranged on the gas transmission pipeline 2 between the drying device 4 and the gas storage device 1 and is suitable for filtering oil in gas; the second filtering structure 52 is arranged on the gas transmission pipeline 2 between the gas storage device 1 and the drying device 4 and is arranged on the downstream side of the gas path of the first filtering structure 51, and is suitable for filtering water and oil in the gas; the third filtering structure 53 is disposed on the gas line 2 between the drying device 4 and the external gas unit 3, and is adapted to filter water and oil in the gas. In the present embodiment, the first filter structure 51 is an oil-removing type oil-water filter, the second filter structure 52 is a basic type oil-water filter, and the third filter structure 53 is a precision type oil-water filter.

The compressed air system further comprises: the first safety pipeline 21 is provided with a first safety valve, two ends of the first safety pipeline 21 are connected with the gas pipeline 2 arranged at two sides of the first filtering structure 51, and the first safety valve is connected with the first filtering structure 51 in parallel; the second safety pipeline 22 is provided with a second safety valve, two ends of the second safety pipeline 22 are connected with the gas pipeline 2 arranged at two sides of the second filtering structure 52, and the second safety valve is connected with the second filtering structure 52 in parallel; the third safety pipeline 23 is provided with a third safety valve, two ends of the third safety pipeline 23 are connected with the gas pipeline 2 arranged at two sides of the third filtering structure 53, and the third safety valve is connected with the third filtering structure 53 in parallel.

And a fourth safety pipeline 24, on which a fourth safety valve is arranged, wherein two ends of the fourth safety pipeline 24 are connected with the gas pipeline 2 arranged at two sides of the drying device 4, and the fourth safety valve is connected with the drying device 4 in parallel.

On the gas transmission pipeline 2, the gas circuit of the first filtering structure 51, the second filtering structure 52, the third filtering structure 53 and the drying device 4 is respectively and correspondingly provided with a gas circuit switch 8 connected with various safety pipelines in parallel, the first safety pipeline 21 and the second safety pipeline 22 are arranged in a staggered way, and the third safety pipeline 23 and the fourth safety pipeline 24 are arranged in a staggered way. This arrangement can reduce the use of the air passage switch 8.

Although embodiments of the present utility model have been described in connection with the accompanying drawings, various modifications and variations may be made by those skilled in the art without departing from the spirit and scope of the utility model, and such modifications and variations fall within the scope of the utility model as defined by the appended claims.

Claims (10)

1. A compressed air system, comprising:

a gas storage device (1) adapted to introduce and store a gas;

the gas transmission pipeline (2) is communicated with the gas storage device (1) and is also suitable for being communicated with an external gas utilization unit (3);

the drying device (4) is arranged on the gas transmission pipeline (2) and is suitable for drying gas;

the filtering device (5) is arranged on the gas transmission pipeline (2) and is suitable for filtering water and/or oil in the gas transmission pipeline (2);

the drainage structure (6) is at least arranged on the gas storage device (1) and comprises a drainage switch piece and a drainage outlet, wherein the drainage switch piece is connected with the gas pipeline (2) and is in a drainage state that the drainage outlet is opened under the action of the gas pressure of the gas pipeline (2) and the water pressure of the device where the drainage structure (6) is arranged.

2. Compressed air system according to claim 1, characterized in that several drainage structures (6) are arranged in correspondence of the gas storage means (1), the drying means (4) and the filtering means (5), respectively.

3. Compressed air system according to claim 2, characterized in that the drainage structure (6) is arranged at the bottom of the gas storage means (1), the drying means (4) and the filtering means (5).

4. Compressed air system according to claim 1, characterized in that the drain structure (6) is a mechanical automatic drain valve.

5. The compressed air system of claim 2, further comprising:

and the water guide pipeline (7) is respectively connected with the water outlets of the gas storage device (1), the drying device (4) and the filtering device (5) and is suitable for draining accumulated water.

6. A compressed air system according to any one of claims 1-5, wherein the filtering device (5) comprises:

the first filtering structure (51) is arranged on the gas transmission pipeline (2) between the gas storage device (1) and the drying device (4) and is suitable for filtering oil in gas;

the second filtering structure (52) is arranged on the gas transmission pipeline (2) between the gas storage device (1) and the drying device (4) and is arranged on the downstream side of the gas path of the first filtering structure (51) and is suitable for filtering water and oil in gas;

and the third filtering structure (53) is arranged on the gas transmission pipeline (2) between the drying device (4) and the external gas unit (3) and is suitable for filtering water and oil in gas.

7. The compressed air system of claim 6, further comprising:

the gas transmission pipeline comprises a first safety pipeline (21), wherein a first safety valve is arranged on the first safety pipeline, two ends of the first safety pipeline (21) are connected with gas transmission pipelines (2) arranged on two sides of a first filtering structure (51), and the first safety valve is connected with the first filtering structure (51) in parallel;

the second safety pipeline (22) is provided with a second safety valve, two ends of the second safety pipeline (22) are connected with the gas transmission pipelines (2) arranged at two sides of the second filtering structure (52), and the second safety valve is connected with the second filtering structure (52) in parallel;

the third safety pipeline (23) is provided with a third safety valve, two ends of the third safety pipeline (23) are connected with the gas transmission pipeline (2) arranged at two sides of the third filtering structure (53), and the third safety valve is connected with the third filtering structure (53) in parallel.

8. The compressed air system of claim 7, further comprising:

and a fourth safety pipeline (24) is provided with a fourth safety valve, two ends of the fourth safety pipeline (24) are connected with gas pipelines (2) arranged at two sides of the drying device (4), and the fourth safety valve is connected with the drying device (4) in parallel.

9. The compressed air system according to claim 8, wherein,

on the gas transmission pipeline (2), the gas circuit of first filtration (51), second filtration (52), third filtration (53) and drying device (4) is respectively provided with respectively around corresponding gas circuit switch (8) parallelly connected with all kinds of safety pipeline, first safety pipeline (21) with second safety pipeline (22) are crisscross to be set up, third safety pipeline (23) with fourth safety pipeline (24) are crisscross to be set up.

10. The compressed air system according to claim 6, wherein the first filter structure (51) is an oil-water filter, the second filter structure (52) is a basic oil-water filter, and the third filter structure (53) is a precision oil-water filter.