CN209101015U - Full-automatic pipeline timing releasing water air control unit - Google Patents
Full-automatic pipeline timing releasing water air control unit Download PDFInfo
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- CN209101015U CN209101015U CN201821858968.8U CN201821858968U CN209101015U CN 209101015 U CN209101015 U CN 209101015U CN 201821858968 U CN201821858968 U CN 201821858968U CN 209101015 U CN209101015 U CN 209101015U
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- butterfly valve
- pneumatic butterfly
- compressed air
- control unit
- inlet end
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Abstract
The utility model provides a kind of full-automatic pipeline timing releasing water air control unit, belongs to coal mine field, to solve the problem of that current ponding not only consumes manpower and cannot discharge in time.Air control unit air inlet and compressed gas source connect, the first and second gas outlet of air control unit connects with the first and second compressed air lines respectively, first Pneumatic butterfly valve is set on the first air inlet pipeline, first the first and second inlet end of Pneumatic butterfly valve connects with the first compressed air line and the second compressed air line respectively, second Pneumatic butterfly valve is set on outlet pipe, second the first and second inlet end of Pneumatic butterfly valve connects with the first compressed air line and the second compressed air line respectively, third Pneumatic butterfly valve is set on the second air inlet pipeline, the first and second inlet end of third Pneumatic butterfly valve connects with the first compressed air line and the second compressed air line respectively, 4th Pneumatic butterfly valve is set on discharge pipe line, 4th the first and second inlet end of Pneumatic butterfly valve connects with the first and second compressed air lines respectively.
Description
Technical field
The utility model relates to coal production technical field more particularly to a kind of full-automatic pipeline timing releasing water pneumatic controls
Device.
Background technique
A large amount of ponding are frequently present of in the compressed air line of underground coal mine, it, can be straight if these ponding exclude not in time
Connecing influences constructing operation efficiency.It is that ponding is stored in a water storage dress at present when ponding in discharges compressed air pipeline
In setting, then manually the water in water storage device is outwelled.
However, the mode of manual emission pipeline ponding, which exists, not only consumes manpower, but also ponding etc. cannot be discharged in time and is asked
Topic.
Summary of the invention
The purpose of this utility model is that the ponding for solving in current discharges compressed air pipeline exists and not only consumes manpower, and
And the problem of ponding cannot be discharged in time, a kind of full-automatic pipeline timing releasing water air control unit is provided.
In order to solve the above technical problems, the technical solution adopted in the utility model is:
A kind of full-automatic pipeline timing releasing water air control unit comprising air control unit, water-storing device, the first pressure
Contracting air pipe line, the second compressed air line, the first Pneumatic butterfly valve, the second Pneumatic butterfly valve, third Pneumatic butterfly valve, the 4th pneumatic butterfly
Valve, the first air inlet pipeline, outlet pipe, the second air inlet pipeline and discharge pipe line are integrated with timing on the air control unit
Device and delayer, in which: the air inlet of the air control unit is connect with compressed gas source, is provided in the inner cavity of water-storing device
Gas-filtering device, the first compressed air line and the second compressed air line are set in water-storing device, air control unit
The first gas outlet connect with the first compressed air line, the second gas outlet of air control unit and the second compressed air line
Connection, the first Pneumatic butterfly valve are set on the first air inlet pipeline, the first inlet end and the first compressed air of the first Pneumatic butterfly valve
Second inlet end of piping connection, the first Pneumatic butterfly valve is connect with the second compressed air line, and the second Pneumatic butterfly valve is set to out
On air pipe, the first inlet end of the second Pneumatic butterfly valve is connect with the first compressed air line, the second Pneumatic butterfly valve second into
Gas end is connect with the second compressed air line, and third Pneumatic butterfly valve is set on the second air inlet pipeline, and the of third Pneumatic butterfly valve
One inlet end is connect with the first compressed air line, and the second inlet end of third Pneumatic butterfly valve and the second compressed air line connect
It connects, the 4th Pneumatic butterfly valve is set on discharge pipe line, and the first inlet end of the 4th Pneumatic butterfly valve and the first compressed air line connect
It connects, the second inlet end of the 4th Pneumatic butterfly valve is connect with the second compressed air line.
Optionally, water filtration net is additionally provided in the inner cavity of the water-storing device, the water filtration net is set to storage
The lower part of water installations inner cavity.
The beneficial effects of the utility model are:
By the integrated timer on air control unit and delayer, and the first Pneumatic butterfly valve, the second pneumatic butterfly are set
The structures such as valve, third Pneumatic butterfly valve and the 4th Pneumatic butterfly valve, are driven by compressed gas as the power source of air control unit
Dynamic air control unit controls the time of filtering compressed air and the time of ponding discharge by timer and delayer, from
And a kind of device that automatic-discharging can be carried out to the ponding in mine compressed air pipeline is provided, people can not only be saved
Power, and the time by the way that timer and delayer is rationally arranged, can achieve the effect that discharge ponding in time.Therefore, with back
Scape technology is compared, and the utility model has and can save manpower, and can discharge the ponding in mine compressed air line in time
The advantages that.
Detailed description of the invention
Fig. 1 is the structural schematic diagram of the utility model.
Specific embodiment
The utility model is described in further detail below in conjunction with drawings and examples.
As shown in Figure 1, the full-automatic pipeline timing releasing water air control unit in the present embodiment comprising pneumatic control dress
Set 1, water-storing device 2, the first compressed air line 3, the second compressed air line 4, the first Pneumatic butterfly valve 5, the second Pneumatic butterfly valve
6, third Pneumatic butterfly valve 7, the 4th Pneumatic butterfly valve 8, the first air inlet pipeline 9, outlet pipe 10, the second air inlet pipeline 11 and drainpipe
Road 12 is integrated with timer and delayer on the air control unit 1, wherein the air inlet of the air control unit 1 with
Compressed gas source connection, is provided with gas-filtering device in the inner cavity of water-storing device 2, the first gas outlet of air control unit 1 with
The connection of first compressed air line 3, the first compressed air line 3 and the second compressed air line 4 are set in water-storing device 2,
Second gas outlet of air control unit 1 is connect with the second compressed air line 4, and the first Pneumatic butterfly valve 5 is set to the first air inlet
On pipeline 9, the first inlet end of the first Pneumatic butterfly valve 5 is connect with the first compressed air line 3, and the second of the first Pneumatic butterfly valve 5
Inlet end is connect with the second compressed air line 4, and the second Pneumatic butterfly valve 6 is set on outlet pipe 10, the second Pneumatic butterfly valve 6
First inlet end is connect with the first compressed air line 3, the second inlet end and the second compressed air line of the second Pneumatic butterfly valve 6
4 connections, third Pneumatic butterfly valve 7 are set on the second air inlet pipeline 11, the first inlet end of third Pneumatic butterfly valve 7 and the first compression
Air pipe line 3 connects, and the second inlet end of third Pneumatic butterfly valve 7 is connect with the second compressed air line 4, the 4th Pneumatic butterfly valve 8
It is set on discharge pipe line 12, the first inlet end of the 4th Pneumatic butterfly valve 8 is connect with the first compressed air line 3, and the 4th is pneumatic
Second inlet end of butterfly valve 8 is connect with the second compressed air line 4.
In this embodiment, water filtration net is additionally provided in the inner cavity of the water-storing device 2, the water filtration net is set
It is placed in the lower part of 2 inner cavity of water-storing device, water filtration net is for filtering out into the impurity in the ponding in water-storing device 2, to keep away
Exempt from impurity blocking discharge pipe line 12.
Wherein, integrated timer and delayer on air control unit 1, refer to timer and delayer and pneumatic control
Device 1 is electrically connected, and the function of timer and delayer is integrated on the control cabinet of air control unit 1, so that passing through
The control cabinet of air control unit 1 is capable of the timing of control timer and the delay time of delayer.
In the utility model, on air control unit 1 integrate timer and delayer in, timer for control to from
The filtration time that the gas or other compressed gas that first air inlet pipeline 9 enters in water-storing device 2 are filtered, delayer are used for
The time of the ponding accumulated in control discharge water-storing device 2.Wherein, air control unit 1 controls the first Pneumatic butterfly valve 5 and second
Pneumatic butterfly valve 6 is opened and is simultaneously closed off simultaneously, controls third Pneumatic butterfly valve 7 and the 4th Pneumatic butterfly valve 8 is opened simultaneously and closed simultaneously
It closes.When air control unit 1 controls the first Pneumatic butterfly valve 5 and the second Pneumatic butterfly valve 6 is opened, 7 He of third Pneumatic butterfly valve is controlled
4th Pneumatic butterfly valve 8 is closed;When air control unit 1 controls the first Pneumatic butterfly valve 5 and the second Pneumatic butterfly valve 6 is closed, control
Third Pneumatic butterfly valve 7 and the 4th Pneumatic butterfly valve 8 are opened.First Pneumatic butterfly valve 5 is for controlling whether to be passed through into water-storing device 2 watt
This or other compressed gas;Second Pneumatic butterfly valve 6 is for preventing compressed gas from flowing back into water-storing device 2;Third Pneumatic butterfly valve 7
For controlling whether to be passed through air into water-storing device 2, air is passed through from third Pneumatic butterfly valve 7 when discharging water, it can be ensured that the
Four Pneumatic butterfly valves 8, which are gone on smoothly, to discharge water.It is provided with gas-filtering device in water-storing device 2, so as to from the first air inlet pipeline 9
It is filtered into the compressed gas in water-storing device 2, to filter out the impurity in gas.Gas-filtering device is set to water storage dress
It sets around 2 inner cavities.
When the utility model is used, power source using compressed gas as air control unit 1 is from air control unit 1
Air inlet enter air control unit 1, with drive air control unit 1 work.When reaching the working time of timer, gas
Dynamic control device 1 controls the gas that export from the first gas outlet of air control unit 1 through the first compressed air line 3 arrival the
First inlet end of the first inlet end of one Pneumatic butterfly valve 5 and the second Pneumatic butterfly valve 6, thus the first Pneumatic butterfly valve 5 of control and the
Two Pneumatic butterfly valves 6 are opened;Meanwhile the gas exported from the second gas outlet of air control unit 1 is through the second compressed air line 4
The second inlet end of third Pneumatic butterfly valve 7 and the second inlet end of the 4th Pneumatic butterfly valve 8 are reached, to control third Pneumatic butterfly valve
7 and the 4th Pneumatic butterfly valve 8 close.At this point, the gas or other gases that enter in water-storing device 2 from the first air inlet pipeline 9 pass through
After gas-filtering device filtering in water-storing device 2, think by the second Pneumatic butterfly valve 6 and the discharge of outlet pipe 10 subsequent other
Equipment gas supply.Within the period of timer timing, a certain number of water can be accumulated in water-storing device 2.When arrival timer institute
When the time of setting, air control unit 1 controls the gas exported from the second gas outlet of air control unit 1 through the second compression
Air pipe line 4 reaches the second inlet end of the first Pneumatic butterfly valve 5 and the second inlet end of the second Pneumatic butterfly valve 6, thus control the
One Pneumatic butterfly valve 5 and the second Pneumatic butterfly valve 6 are closed;Meanwhile the gas exported from the first gas outlet of air control unit 1 is through the
One compressed air line 3 reaches the first inlet end of third Pneumatic butterfly valve 7 and the first inlet end of the 4th Pneumatic butterfly valve 8, thus
It controls third Pneumatic butterfly valve 7 and the 4th Pneumatic butterfly valve 8 is opened.At this point, entering through third Pneumatic butterfly valve 7 from the second air inlet pipeline 11
Air promote the ponding in water-storing device 2 through the 4th Pneumatic butterfly valve 8 from discharge pipe line 12 be discharged.Set by arrival delayer
Delay time when, from the first gas outlet of air control unit 1 export gas through the first compressed air line 3 reach first
First inlet end of the first inlet end of Pneumatic butterfly valve 5 and the second Pneumatic butterfly valve 6, thus the first Pneumatic butterfly valve 5 and second of control
Pneumatic butterfly valve 6 is opened;Meanwhile from the second gas outlet of air control unit 1 export gas through the second compressed air line 4 to
Up to the second inlet end of third Pneumatic butterfly valve 7 and the second inlet end of the 4th Pneumatic butterfly valve 8, to control third Pneumatic butterfly valve 7
It is closed with the 4th Pneumatic butterfly valve 8, by gas-filtering device to the gas entered in water-storing device 2 from the first air inlet pipeline 9
Or other compressed gas are filtered.And so on, the automatic-discharging to the ponding in compressed air line is realized.
It is understood that embodiment of above is merely to illustrate that the principles of the present invention and uses exemplary
Embodiment, however the utility model is not limited thereto.For those skilled in the art, this is not being departed from
In the case where the spirit and essence of utility model, various changes and modifications can be made therein, these variations and modifications are also considered as this reality
With novel protection scope.
Claims (2)
1. a kind of full-automatic pipeline timing releasing water air control unit, which is characterized in that including air control unit (1), water storage
Device (2), the first compressed air line (3), the second compressed air line (4), the first Pneumatic butterfly valve (5), the second Pneumatic butterfly valve
(6), third Pneumatic butterfly valve (7), the 4th Pneumatic butterfly valve (8), the first air inlet pipeline (9), outlet pipe (10), the second air inlet pipeline
(11) and discharge pipe line (12) timer and delayer, are integrated on the air control unit (1), in which:
The air inlet of the air control unit (1) is connect with compressed gas source, and the first compressed air line (3) and the second compression are empty
Air pipe (4) is set in water-storing device (2), and gas-filtering device, pneumatic control dress are provided in the inner cavity of water-storing device (2)
The first gas outlet for setting (1) is connect with the first compressed air line (3), the second gas outlet and second of air control unit (1)
Compressed air line (4) connection, the first Pneumatic butterfly valve (5) are set on the first air inlet pipeline (9), the first Pneumatic butterfly valve (5)
First inlet end is connect with the first compressed air line (3), the second inlet end and the second compressed air of the first Pneumatic butterfly valve (5)
Pipeline (4) connection, the second Pneumatic butterfly valve (6) is set on outlet pipe (10), the first inlet end of the second Pneumatic butterfly valve (6) with
First compressed air line (3) connection, the second inlet end of the second Pneumatic butterfly valve (6) are connect with the second compressed air line (4),
Third Pneumatic butterfly valve (7) is set on the second air inlet pipeline (11), the first inlet end of third Pneumatic butterfly valve (7) and the first compression
Air pipe line (3) connection, the second inlet end of third Pneumatic butterfly valve (7) are connect with the second compressed air line (4), and the 4th is pneumatic
Butterfly valve (8) is set on discharge pipe line (12), the first inlet end and the first compressed air line (3) of the 4th Pneumatic butterfly valve (8)
Connection, the second inlet end of the 4th Pneumatic butterfly valve (8) are connect with the second compressed air line (4).
2. full-automatic pipeline timing releasing water air control unit according to claim 1, which is characterized in that the water storage dress
It sets and is additionally provided with water filtration net in the inner cavity of (2), the water filtration net is set to the lower part of water-storing device (2) inner cavity.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201821858968.8U CN209101015U (en) | 2018-11-12 | 2018-11-12 | Full-automatic pipeline timing releasing water air control unit |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201821858968.8U CN209101015U (en) | 2018-11-12 | 2018-11-12 | Full-automatic pipeline timing releasing water air control unit |
Publications (1)
Publication Number | Publication Date |
---|---|
CN209101015U true CN209101015U (en) | 2019-07-12 |
Family
ID=67159551
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201821858968.8U Active CN209101015U (en) | 2018-11-12 | 2018-11-12 | Full-automatic pipeline timing releasing water air control unit |
Country Status (1)
Country | Link |
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CN (1) | CN209101015U (en) |
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2018
- 2018-11-12 CN CN201821858968.8U patent/CN209101015U/en active Active
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Effective date of registration: 20210115 Address after: 030032 room B10, 5th floor, R & D building, Taiyuan renewable energy heating Co., Ltd., Wuluo street, Tanghuai Park, Taiyuan comprehensive reform demonstration zone, Taiyuan City, Shanxi Province Patentee after: Shanxi Yuzhi new environmental protection technology Co.,Ltd. Address before: 030022 68 households, 4th floor, 6th floor, Husheng 4th lane, Wanbailin District, Taiyuan City, Shanxi Province Patentee before: Qiao Shensuo |