KR101720597B1 - Pressure control method and system for drilling rig's air systems - Google Patents

Abstract

The present invention provides an air pressure control method and a control system for a drill air compressor, wherein the air pressure of the drill air compressor has a working pressure state and an unloading state, and an air pressure in a working pressure state is an air pressure in an unloaded state Wherein the working pressure state includes at least a first working pressure state and a second working pressure state and wherein the air pressure at the second working pressure state is less than the air pressure at the first working pressure state, A first pressure regulating branch, a second pressure regulating branch and an unloading branch are provided in parallel between the air compressors to control on / off of the first working pressure state, the second working pressure state and the unloading state, respectively. The present invention can prevent unnecessary power from being excessively consumed, thereby reducing wear of the associated member, reducing the burden on the cooling system and other systems, extending the life of the associated member, and simultaneously conserving energy.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a pressure control method and system for a drill air compressor,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an air pressure control method and a control system for an air compressor, and more particularly to an air pressure control of a drill air compressor.

In order to ensure the normal operation of the drill, the drill includes an auxiliary device such as an air compressor (hereinafter referred to as an air compressor) that generally compresses the air. Almost half of the power consumed by the drill is consumed by the air compressor. When the displacement of the air compressor is constant, the power consumed by the air compressor and the air pressure output by the air compressor form an exponential relation. When the air pressure output by the air compressor increases, the power consumption also increases. When the air pressure output by the air compressor is low, the power consumption is also low. For example, if the air pressure output by the air compressor is reduced from 10.5 bar to 7 bar, the power of the air compressor can be lowered by 20%.

As shown in FIG. 1, the air pressure of a conventional drill air compressor has a working pressure state in the drilling operation mode and an unloading state in the drill unloading state, and in the working pressure state, the air compressor compresses the maximum air pressure And in the unloaded state, the air compressor outputs a minimum air pressure. The air pressure of the drill air compressor is in an unloaded state when the drill is in the perforation, the opening and the rod replacement state, the air pressure of the drill air compressor is in the working pressure state, and in other working conditions such as the running state and the standby state.

However, during the actual operation, the drilling operation condition is very complicated, and the compressed air required differs depending on the operation state. For example, in the standby state and the running state, no air pressure is required at all, and when the rod is in the replacement state and in the open state, the maximum air pressure is not required. Also, even in the same working condition, the air pressure required for the operation is related to the actual situation.

Setting the working pressure to one in the prior art allows a large amount of unnecessary power to be wasted in some working conditions. Such unneeded power ultimately consumes some members, which causes a lot of vibration to cause unnecessary wear, and also increases the burden on the cooling system and other systems because such members generate a large amount of heat.

SUMMARY OF THE INVENTION The present invention has been made to overcome the above-described problems in the prior art due to the single working pressure of a drill air compressor. It is possible to add one or a plurality of working pressure states, And an object of the present invention is to provide an air pressure control method and a control system of a drill air compressor that prevent excessive consumption of the air.

The present invention, on the other hand, provides a method for controlling the air pressure of a drill air compressor, wherein the air pressure of the drill air compressor has a working pressure state in a drilling operation mode and an unloading state in a drill unloading state, A method of controlling air pressure in a drill air compressor in which an air pressure in a pressure state is greater than an air pressure in the unloaded state, the working pressure state including at least a first working pressure state and a second working pressure state, The air pressure in the second working pressure state is smaller than the air pressure in the first working pressure state. A first pressure regulating branch, a second pressure regulating branch and an unloading branch are installed in parallel between the air storage tank and the drill air compressor, and the first pressure regulating branch, the second pressure regulating branch and the on / off branch of the unloading branch Off state of the first working pressure state, the second working pressure state, and the unloading state, respectively.

Further, when the drill is in a pierced state, the first pressure regulating branch is turned on and the second pressure regulating branch and the unloading branch are turned off so that the air pressure of the drill air compressor is maintained at the first working pressure state The second pressure regulating branch is turned on and the first pressure regulating branch and the unloading branch are turned off when the drill is in the rod replacement state or in the open state so that the air pressure of the drill air compressor reaches the second The unloading branch is turned on and the first pressure regulating branch and the second pressure regulating branch are turned off when the drill is in the standby state or the running state so that the air pressure of the drill air compressor is unloaded .

Preferably, the working pressure state further includes a third working pressure state, wherein the air pressure in the third working pressure state is less than the air pressure in the first working pressure state, and the air storage tank and the drill air A third pressure regulating branch connected in parallel with the first pressure regulating branch, the second pressure regulating branch and the unloading branch is provided between the compressor and the third pressure regulating branch, Off of the drill air compressor, and when the drill is in the drilled state, the first pressure regulating branch is turned on and the second pressure regulating branch, the third pressure regulating branch and the unloading branch are turned off, The second pressure regulating branch is turned on when the drill is in the load exchange state, and the first pressure regulating branch, the third pressure regulating branch, The unloading branch is turned off to bring the air pressure of the drill air compressor into the second working pressure state and when the drill is in the open state, the third pressure regulating branch is turned on and the first pressure regulating branch, Turning off the branch and unloading branch to bring the air pressure of the drill air compressor to the third working pressure state and turning the unloading branch on when the drill is in the standby or running state, The second pressure regulating branch and the third pressure regulating branch are turned off so that the air pressure of the drill air compressor becomes unloaded.

Preferably, the working pressure state further includes a third working pressure state and a fourth working pressure state, and all of the air pressures in the third working pressure state and the fourth working pressure state are all in the first working pressure state Lt; / RTI > A third pressure regulating branch and a fourth pressure regulating branch which are connected in parallel with the first pressure regulating branch, the second pressure regulating branch and the unloading branch are provided between the air storage tank and the drill air compressor, and the third pressure regulating branch And on / off of the third working pressure state and the fourth working pressure state through ON / OFF of the fourth pressure regulating branch. Wherein when the drill is in a drilled state, the first pressure regulating branch is turned on and the second pressure regulating branch, the third pressure regulating branch, the fourth pressure regulating branch and the unloading branch are turned off, When the drill is in the load exchange state, the second pressure regulating branch is turned on and the first pressure regulating branch, the third pressure regulating branch, the fourth pressure regulating branch and the unloading The branch is turned off to bring the air pressure of the drill air compressor to the second working pressure state and when the drill is in the open state, the third pressure regulating branch is turned on and the first pressure regulating branch, , The fourth pressure regulating branch and the unloading branch are turned off to bring the air pressure of the drill air compressor to the third working pressure state and when the drill is in the inspection waiting state, The fourth pressure regulating branch is turned on and the first pressure regulating branch, the second pressure regulating branch, the third pressure regulating branch and the unloading branch are turned off so that the air pressure of the drill air compressor becomes the fourth working pressure state, The unloading branch is turned on and the first pressure regulating branch, the second pressure regulating branch, the third pressure regulating branch and the fourth pressure regulating branch are turned off when the drill is in the running state or the standby state, Allow air pressure to become unloaded.

The present invention, on the other hand, provides an air pressure control system for a drill air compressor. The system includes a first pressure regulating branch, a second pressure regulating branch and an unloading branch disposed in parallel between an air storage tank and an air compressor, wherein the first pressure regulating branch includes a first pressure regulating valve, Wherein the set pressure of the first pressure regulating valve is a first working pressure of the air compressor and the second pressure regulating branch includes a second solenoid valve and a second pressure regulating valve connected in series and the second solenoid valve is connected to the second pressure Wherein the set pressure of the second pressure regulating valve is a second working pressure of the air compressor and the second working pressure is smaller than the first working pressure. The unloading branch includes a fifth solenoid valve, and the fifth solenoid valve controls on / off of the unloading branch.

Further, the first pressure regulating branch is set to be turned on when the drill is in a pierced state, and to be turned off when the drill is in the other working state. The second pressure regulating branch is set to be on when the drill is in the load exchange or open state and off when the drill is in the other working state. The unloading branch is set to turn on when the drill is in the standby state or running state, and off when the drill is in the other working state.

Preferably, the system further comprises a third pressure regulating branch connected in parallel with the first pressure regulating branch, the second pressure regulating branch and the unloading branch, wherein the third pressure regulating branch comprises a third solenoid valve connected in series, Wherein the third solenoid valve controls on / off of the third pressure regulating branch, the set pressure of the third pressure regulating valve is a third working pressure of the air compressor, 3 The working pressure is smaller than the first working pressure.

Further, the first pressure regulating branch is set to be on when the drill is in the pierced state and off when the drill is in the other working state, and the second pressure regulating branch is on when the drill is in the rod replacement state, And is set to be off when in the work state. The third pressure regulating branch is set to be on when the drill is in the open state and off when the drill is in the other operation state. The unloading branch is set to turn on when the drill is in the standby state or running state, and off when the drill is in the other working state.

Preferably, the system further comprises a third pressure regulating branch and a fourth pressure regulating branch connected in parallel with the first pressure regulating branch, the second pressure regulating branch and the unloading branch, respectively, wherein the third pressure Wherein the control branch includes a third solenoid valve connected in series and a third pressure regulating valve, the third solenoid valve controls on / off of the third pressure regulating branch, and the set pressure of the third pressure regulating valve is an air The third working pressure of the compressor, and the third working pressure is less than the first working pressure. The fourth pressure regulating branch includes a fourth solenoid valve and a fourth pressure regulating valve connected in series, the fourth solenoid valve controlling on / off of the fourth pressure regulating branch, and the fourth pressure regulating branch The set pressure is a fourth working pressure of the air compressor, and the fourth working pressure is smaller than the first working pressure.

Further, the first pressure regulating branch is set to be turned on when the drill is in a pierced state, and to be turned off when the drill is in the other working state. The second pressure regulating branch is set to be on when the drill is in the load change state and off when the drill is in the other work state. The third pressure regulating valve is set to be on when the drill is in the open state and off when the drill is in the other operation state. The fourth pressure regulating branch is set to be turned on when the drill is in the inspection waiting state, and is set to be off when the drill is in the other working state. The unloading branch is set to turn on when the drill is in the standby state or running state and to turn off when the drill is in the other working state.

Compared with the prior art, the present invention can set a plurality of working pressure states and can be adjusted as needed according to actual work, so that unnecessary power can be prevented from being excessively consumed, Reduce the burden on the system and other systems, prolong the life of the associated member, and save energy at the same time.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic diagram showing a method of controlling the air pressure of a drill air compressor in the prior art; FIG.
2 is a schematic view showing a first embodiment of the air pressure control method of the drill air compressor of the present invention.
3 is a schematic view showing a second embodiment of the air pressure control method of the drill air compressor of the present invention.
4 is a schematic view showing a third embodiment of the air pressure control method of the drill air compressor of the present invention.
5 is a schematic view showing the connection state of the system corresponding to the third embodiment of the air pressure control method of the drill air compressor of the present invention.
6 is a schematic view showing the structure of a system corresponding to the third embodiment of the air pressure control method of the drill air compressor of the present invention.

The air pressure control method and control system of the drill air compressor of the present invention will be described in more detail in connection with the drawings and specific embodiments. However, the present invention is not limited thereto.

First Embodiment

Referring to FIG. 2, FIG. 2 is a schematic view showing a first embodiment of a method for controlling air pressure in a drill air compressor according to the present invention. In this embodiment, the air pressure of the drill air compressor has a first working pressure state, a second working pressure state and an unloading state, and the air pressure in the first working pressure state and the second working pressure state is in the unloaded state And the air pressure in the second working pressure state is smaller than the air pressure in the first working pressure state.

When the drill is in a pierced state, the air pressure of the drill air compressor is in a first working pressure state. The air pressure of the drill air compressor is in a second working pressure state when the drill is in a rod replacement state or in an open state. When the drill is in the standby state or running state, the air pressure of the drill air compressor is unloaded.

Second Embodiment

Referring to FIG. 3, FIG. 3 is a schematic view showing a second embodiment of the air pressure control method of the drill air compressor of the present invention. In this embodiment, the air pressure of the drill air compressor has a first working pressure state, a second working pressure state, a third working pressure state, and an unloading state, and the first working pressure state, the second working pressure state, The air pressure in the working pressure state is larger than the air pressure in the unloading state and the air pressure in the second working pressure state and the third working pressure state is smaller than the air pressure in the first working pressure state.

When the drill is in a pierced state, the air pressure of the drill air compressor is in a first working pressure state. When the drill is in the load exchange state, the air pressure of the drill air compressor is in the second working pressure state. When the drill is in the open state, the air pressure of the drill air compressor is in the third working pressure state. When the drill is in the standby state or running state, the air pressure of the drill air compressor is unloaded.

Third Embodiment

4 is a schematic view showing a third embodiment of the air pressure control method of the drill air compressor of the present invention. In the present embodiment, the air pressure of the drill air compressor has a first working pressure state, a second working pressure state, a third working pressure state, a fourth working pressure state and an unloading state, The air pressures in the working pressure state, the third working pressure state and the fourth working pressure state are larger than the air pressure in the unloading state, and the air pressure in the second working pressure state, the third working pressure state, The pressure is smaller than the air pressure in the first working pressure state.

When the drill is in a pierced state, the air pressure of the drill air compressor is in a first working pressure state. When the drill is in the load exchange state, the air pressure of the drill air compressor is in the second working pressure state. When the drill is in the open state, the air pressure of the drill air compressor is in the third working pressure state. When the drill is in the inspection standby state, the air pressure of the drill air compressor is in the fourth working pressure state. When the drill is in the standby state or running state, the air pressure of the drill air compressor is unloaded.

In order to realize the above-described method, the air pressure control system of the drill air compressor shown in Figs. 5 and 6 can be used.

5 is a schematic view showing a connection state of the system corresponding to the third embodiment of the air pressure control method of the drill air compressor of the present invention. The present system includes an air pressure control system 5 installed between an air storage tank 2 and an air compressor 1 such that the input of the air pressure control system 5 and the output port of the air storage tank 2 are connected to each other And the output port of the air pressure control system 5 and the control port of the air inlet valve 3 of the air compressor 1 are connected to each other.

6 is a schematic diagram showing the structure of a system corresponding to the third embodiment of the air pressure control method of the drill air compressor of the present invention. The air pressure control system 5 includes a first pressure regulation branch 10, a second pressure regulation branch 20, a third pressure regulation branch 30, a fourth pressure regulation branch 40 and an unloading branch Wherein the first pressure regulating branch includes a first pressure regulating valve connected between an input and an output end of the branch and the second regulating branch includes a first pressure regulating valve, A third solenoid valve 12 and a second pressure regulating valve 22 connected in series between the input and output of the branch and the third pressure regulating branch 30 comprises a third solenoid valve 12 connected in series between the input and output of the branch, The fourth pressure regulating branch 40 includes a solenoid valve 13 and a third pressure regulating valve 23. The fourth pressure regulating branch 40 includes a fourth solenoid valve 14 and a fourth solenoid valve 14 connected in series between an input end and an output end of the branch, (24), and the unloading branch (50) And a fifth solenoid valve 15 connected between an input and an output of the first solenoid valve.

The air pressure control system 5 is a control passage of the air compressor 1 and its output end and the control port of the air inlet valve 3 are connected to each other to control the output air pressure. The air inlet valve 3 is a pneumatic switch valve and controls opening and closing by the air pressure of the control port. The second solenoid valve 12 to the fifth solenoid valve 15 control ON / OFF of the corresponding branch to control the state of the air pressure of the drill air compressor, and the first to fourth pressure regulating valves 21 to The valve 24 controls the air pressure output from the branch. When the solenoid valve is on, the solenoid valve opens, and the corresponding branch is turned on. When the solenoid valve is off, the solenoid valve is closed and the branch is turned off. When the branch is turned on, when the air pressure in the branch reaches the set pressure of the pressure regulating valve in the branch, the pressure regulating valve is opened, allowing the air pressure to enter the control port of the air inlet valve 3.

The following explains how the air pressure control system 5 controls the air pressure output by the air compressor 1 in conjunction with the embodiment. When the air compressor 1 is turned on, there is no air pressure in the control port of the air inlet valve 3 and the air inlet valve 3 is opened so that air flows through the air inlet valve 3 to the air compressor 1, And the compressed air flows into the air storage tank 2 through the main pipeline 4. When the operating time of the air compressor 1 becomes long, the air pressure in the air storage tank 2 is continuously increased, and the air in the air storage tank 2 after being pressurized is returned to the air pressure control system 5 . When the pressure of the compressed air reaches the set value of the pressure control valve in the on-state branch, the compressed air flows into the control port of the air inlet valve 3 through the branch, and the air inlet valve 3 is immediately closed. At this time, outside air does not flow into the air compressor (1), and at the same time, compressed air satisfying the set pressure is outputted from the compressed air output port (6). After the compressed air is output, the air pressure in the pipeline is lower than the air pressure set by the solenoid valve, and the solenoid valve is closed. At this time, the air pressure does not enter the control port of the air inlet valve (3), the air inlet valve (3) opens, and the external air continues to flow into the air compressor (1). If the above process is repeated, the air pressure output from the air compressor 1 reaches the set air pressure.

The solenoid valve can be manually energized or de-energized depending on the operating conditions, and can be controlled automatically by PLC or other automation system. Each pressure regulating valve is independently adjustable and the user can set the air pressure value of the pressure regulating valve of each branch according to the actual situation at the construction site.

The first pressure regulating branch 10 is set to be on when the drill is in the pierced state and to be off when the drill is in the other working state to bring the air pressure of the drill air compressor to the first working pressure state, The adjustment branch 20 is set to be on when the drill is in the load exchange state and off when the drill is in the other working state to cause the air pressure of the drill air compressor to be in the second working pressure state, (30) is turned on when the drill is in the open state and is set to be off when the drill is in the other working state, so that the air pressure of the drill air compressor is brought to the second working pressure state. The fourth pressure regulating branch 30 is set to be on when the drill is in the inspection waiting state and is set to be off when the drill is in the other working state so that the air pressure of the drill air compressor becomes the fourth working pressure state, The branch 50 is turned on when the drill is in the standby state or running state, and is set to be off when the drill is in the other working state, causing the air pressure of the drill air compressor to be unloaded.

In particular, the first pressure regulating branch 10 includes only the pressure regulating valve 21 for controlling the air pressure output by the air compressor, but does not include a solenoid valve for controlling on / off of the branch. When all of the second to fifth solenoid valves 12 to 15 are disconnected, that is, when all other branches are turned off, the air pressure control system 5 automatically enters the first pressure regulating branch 10, And outputs the first working pressure. In this case, there is an advantage that not only one solenoid valve can be reduced but also the safety of the system can be guaranteed. For example, if all the solenoid valves are shut down due to malfunctions or system failures, the air compressor can be prevented from outputting compressed air, i.e., the safety protection function against normal operation of the system.

In particular, the fourth pressure regulating branch 40 can regulate the air pressure when it is inspected for a pneumatic system. In this case, the fourth solenoid valve 14 is in the energized state and the fourth pressure regulating valve 24 is set as necessary, Since the air compressor outputs the fourth working pressure, inspection for the pneumatic system proceeds.

Specifically, the unloading branch 50 includes only the fifth solenoid valve 15 that controls on / off of the branch, but does not include a pressure regulating valve that controls the output of the air pressure. This is because when the unloading branch 50 is turned on, the air pressure output by the drill air compressor is the unloading pressure, so that the unloading pressure is merely the resistance in the pipeline, which is set when the air compressor system is shipped, Can not be adjusted.

In the above embodiment, the air pressure control system includes five branches. In practical applications, the number of branches connected in parallel can be increased or decreased as needed to meet the system requirements.

Although the present invention has been described and illustrated in detail, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of limitation, the scope of the present invention being defined by the claims. It will be understood by those skilled in the art that various changes and modifications may be made herein without departing from the spirit and scope of the invention as defined by the appended claims.

1: Air Compressor
2: air storage tank
3: Air inlet valve
4: Main pipeline
5: Air pressure control system
6: Compressed air outlet port
10: first pressure regulating branch
20: second pressure regulating branch
30: Third pressure control branch
40: Fourth pressure regulating branch
50: Unloading branch
12: Second solenoid valve
13: Third solenoid valve
14: Fourth solenoid valve
15: Fifth solenoid valve
21: First pressure regulating valve
22: Second pressure regulating valve
23: Third pressure regulating valve
24: Fourth pressure regulating valve

Claims (10)

Wherein the air pressure of the drill air compressor has a working pressure state in a drilling operation mode and an unloading state in a drill unloading mode and wherein an air pressure in the working pressure state is larger than an air pressure in the unloading state, A method of controlling an air pressure of a compressor,
Wherein the working pressure state includes at least a first working pressure state and a second working pressure state, wherein the air pressure in the second working pressure state is smaller than the air pressure in the first working pressure state,
A first pressure regulating branch, a second pressure regulating branch and an unloading branch are installed in parallel between the air storage tank and the drill air compressor, and the first pressure regulating branch, the second pressure regulating branch and the on / Off state of the first working pressure state, the second working pressure state, and the unloading state,
A method of controlling air pressure in a drill air compressor. The method according to claim 1,
The first pressure regulating branch is turned on and the second pressure regulating branch and the unloading branch are turned off when the drill is in a pierced state so that the air pressure of the drill air compressor is lower than the first working pressure State,
The second pressure regulating branch is turned on and the first pressure regulating branch and the unloading branch are turned off when the drill is in a rod replacement state or an open hole state so that the air pressure of the drill air compressor 2 to the working pressure state,
The unloading branch is turned on and the first pressure regulating branch and the second pressure regulating branch are turned off when the drill is in the standby state or the running state so that the air pressure of the drill air compressor becomes unloaded, A method of controlling air pressure in a drill air compressor. The method according to claim 1,
Wherein the working pressure state further includes a third working pressure state, wherein the air pressure in the third working pressure state is smaller than the air pressure in the first working pressure state,
A third pressure regulating branch connected in parallel with the first pressure regulating branch, the second pressure regulating branch and the unloading branch is provided between the air storage tank and the drill air compressor, Controls the on / off state of the third working pressure state,
The first pressure regulating branch is turned on and the second pressure regulating branch, the third pressure regulating branch and the unloading branch are turned off when the drill is in a pierced state, Pressure state;
The second pressure regulating branch is turned on and the first pressure regulating branch, the third pressure regulating branch and the unloading branch are turned off when the drill is in the load exchange state, so that the air pressure of the drill air compressor reaches the second To the working pressure state,
The third pressure regulating branch is turned on and the first pressure regulating branch, the second pressure regulating branch and the unloading branch are turned off when the drill is in the open state, 3 to be in the working pressure state;
Turning on the unloading branch and turning off the first pressure regulating branch, the second pressure regulating branch and the third pressure regulating branch when the drill is in a standby state or a running state, To be in a loading state. The method according to claim 1,
Wherein the working pressure state further includes a third working pressure state and a fourth working pressure state, and the air pressure in the third working pressure state and the fourth working pressure state are both higher than the air pressure in the first working pressure state Small,
A third pressure regulating branch and a fourth pressure regulating branch which are connected in parallel to the first pressure regulating branch, the second pressure regulating branch and the unloading branch are provided between the air storage tank and the drill air compressor, Off state of the third working pressure state and the fourth working pressure state through ON / OFF of the branch and the fourth pressure regulating branch,
The first pressure regulating branch is turned on and the second pressure regulating branch, the third pressure regulating branch, the fourth pressure regulating branch and the unloading branch are turned off when the drill is in a pierced state, To the first working pressure state,
The second pressure regulating branch is turned on and the first pressure regulating branch, the third pressure regulating branch and the fourth pressure regulating branch and the unloading branch are turned off when the drill is in the load exchange state, The air pressure is brought into the second working pressure state,
The third pressure regulating branch is turned on and the first pressure regulating branch, the second pressure regulating branch, the fourth pressure regulating branch and the unloading branch are turned off when the drill is in an open state, The air pressure of the air compressor is brought to the third working pressure state,
The fourth pressure regulating branch is turned on and the first pressure regulating branch, the second pressure regulating branch, the third pressure regulating branch and the unloading branch are turned off when the drill is in the waiting state, The air pressure of the air compressor is brought to the fourth working pressure state,
Turning on the unloading branch and turning off the first pressure regulating branch, the second pressure regulating branch, the third pressure regulating branch and the fourth pressure regulating branch when the drill is in the standby state or the running state, Wherein the air pressure of the compressor is in an unloaded state. A first pressure regulating branch, a second pressure regulating branch and an unloading branch arranged in parallel between the air storage tank and the air compressor
Wherein the first pressure regulating branch includes a first pressure regulating valve, the set pressure of the first pressure regulating valve is a first working pressure of the air compressor,
The second pressure regulating branch includes a second solenoid valve and a second pressure regulating valve connected in series, and the second solenoid valve controls on / off of the second pressure regulating branch, Wherein the set pressure is a second working pressure of the air compressor, the second working pressure is less than the first working pressure,
Wherein the unloading branch includes a fifth solenoid valve and the fifth solenoid valve controls on / off of the unloading branch,
Air pressure control system for drill air compressors. 6. The method of claim 5,
The first pressure regulating branch is set to be on when the drill is in a piercing state and off when the drill is in another working state,
The second pressure regulating branch is set to be on when the drill is in a load exchange or in the open state and off when the drill is in the other working state,
Wherein the unloading branch is turned on when the drill is in the standby or running state and is set to be off when the drill is in the other working state. 6. The method of claim 5,
Wherein the air pressure control system further comprises a third pressure regulating branch connected in parallel with the first pressure regulating branch, the second pressure regulating branch and the unloading branch, wherein the third pressure regulating branch comprises a third solenoid valve connected in series, 3 pressure regulating valve, the third solenoid valve controls on / off of the third pressure regulating branch, the set pressure of the third pressure regulating valve is a third working pressure of the air compressor, 3. The air pressure control system of a drill air compressor according to claim 1, wherein the working pressure is less than the first working pressure. 8. The method of claim 7,
The first pressure regulating branch is set to be on when the drill is in a piercing state and off when the drill is in another working state,
The second pressure regulating branch is set to be on when the drill is in the load exchange state and off when the drill is in the other work state,
The third pressure regulating branch is set to be on when the drill is in the open state and off when the drill is in the other working state,
Wherein the unloading branch is turned on when the drill is in the standby or running state and is set to be off when the drill is in the other working state. 6. The method of claim 5,
The air pressure control system further includes a third pressure regulating branch and a fourth pressure regulating branch which are connected in parallel with the first pressure regulating branch, the second pressure regulating branch and the unloading branch, respectively,
The third pressure regulating branch includes a third solenoid valve and a third pressure regulating valve connected in series, and the third solenoid valve controls ON / OFF of the third pressure regulating branch, and the third pressure regulating branch Wherein the set pressure is a third working pressure of the air compressor, the third working pressure is less than the first working pressure,
The fourth pressure regulating branch includes a fourth solenoid valve and a fourth pressure regulating valve connected in series, the fourth solenoid valve controlling on / off of the fourth pressure regulating branch, and the fourth pressure regulating branch Wherein the set pressure is a fourth working pressure of the air compressor and the fourth working pressure is less than the first working pressure. 10. The method of claim 9,
The first pressure regulating branch is set to be on when the drill is in a piercing state and off when the drill is in another working state,
The second pressure regulating branch is set to be on when the drill is in the load exchange state and off when the drill is in the other work state,
The third pressure regulating branch is set to be on when the drill is in the open state and off when the drill is in the other working state,
The fourth pressure regulating branch is set to be on when the drill is in the inspection waiting state and to be off when the drill is in the other working state,
Wherein the unloading branch is set to be on when the drill is in a standby state or in a running state and is set to be off when the drill is in the other working state.

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