CN209117661U - A kind of gas controlling device - Google Patents

Abstract

The utility model discloses a kind of gas controlling devices, comprising: high pressure draught probe tube, low-pressure air current probe tube, differential pressure pick-up, high-voltage end reset solenoid valve, low-pressure end resets solenoid valve and controller；It includes first passage and second channel that high-voltage end, which resets solenoid valve,；It includes third channel and fourth lane that low-pressure end, which resets solenoid valve,；Controller control high-voltage end resets solenoid valve and switches to first passage, so that the high pressure draught of high pressure draught probe tube is delivered to differential pressure pick-up by first passage；Control low-pressure end resets solenoid valve and switches to third channel, so that the low-pressure air current of low-pressure air current probe tube passes through third channel to differential pressure pick-up；Control high-voltage end resets solenoid valve and switches to second channel, and control low-pressure end resets solenoid valve and switches to fourth lane, so that differential pressure pick-up is reset.The utility model provides a kind of gas controlling device, to solve the problems, such as that gas-detecting device measuring accuracy is low.

Description

A kind of gas controlling device

Technical field

The utility model relates to environment monitoring technical field more particularly to a kind of gas controlling devices.

Background technique

It is all dirty with different degrees of environment in the world with the raising of scientific skill level and living standards of the people Dye, concentration and total emission volumn to volatile organic matter, gaseous pollutant and gaseous state particulate matter continuously monitor particularly important.

In the prior art, VOCS (volatile organic compounds concentration and total emission volumn continuous monitor system) or CEMS In (gaseous pollutant and particulate matter carry out concentration and total emission volumn continuous monitor system), it is provided with gas controlling device, is used It is acquired in the specific data of temperature, differential pressure and pressure to gas, to obtain gas concentration of emission, gas is discharged Concentration is monitored.

But at present in industry during gas controlling device measurement pressure difference, differential pressure pickup is easy to occur because of environmental factor Drift, measuring accuracy is lower, while resetting calibration function without sensor, it is difficult to meet more and more accurate environment monitoring and want It asks.

Utility model content

The utility model embodiment provides a kind of gas controlling device, low to solve gas controlling device measuring accuracy Problem.

The utility model embodiment provides a kind of gas controlling device, comprising:

High pressure draught probe tube, low-pressure air current probe tube, differential pressure pick-up, high-voltage end reset solenoid valve, low-pressure end is reset Solenoid valve and controller；

The first end that the high-voltage end resets solenoid valve is connected to the outlet end of the high pressure draught probe tube, second end and The high-voltage end of the differential pressure pick-up is connected to, and third end is connected to the 6th end that the low-pressure end resets solenoid valve；The high pressure First passage is formed between the first end and second end of end clearing solenoid valve, forms second channel between second end and third end；

The 4th end that the low-pressure end resets solenoid valve is connected to the outlet end of the low-pressure air current probe tube, the 5th end and The low-pressure end of the differential pressure pick-up is connected to；It is logical that the low-pressure end resets formation third between the 4th end and the 5th end of solenoid valve Road forms fourth lane between the 5th end and the 6th end；

The high-voltage end of the differential pressure pick-up resets the 6th end of solenoid valve by the second channel and the low-pressure end Connection, the low-pressure end reset the fourth lane of solenoid valve and the third of high-voltage end clearing solenoid valve by the low-pressure end End connection；

The controller resets solenoid valve with the high-voltage end respectively and the low-pressure end resets solenoid valve and is electrically connected,

The controller is used for: being controlled the high-voltage end clearing solenoid valve and is switched to first passage, so that the high pressure gas The high pressure draught of stream probe tube acquisition is delivered to the high-voltage end of the differential pressure pick-up by the first passage；It controls described low Pressure side resets solenoid valve and switches to third channel, so that the low-pressure air current of low-pressure air current probe tube acquisition passes through the third Channel to the differential pressure pick-up low-pressure end；It controls the high-voltage end clearing solenoid valve and switches to second channel, and control institute It states low-pressure end clearing solenoid valve and switches to fourth lane, so that the differential pressure pick-up is reset.

Optionally, the gas controlling device further include: blowback air inlet pipe；The blowback air inlet pipe respectively with the high pressure The outlet end of air-flow probe tube is connected to the outlet end of the low-pressure air current probe tube, for purge gas to be delivered to the height Pressure gas stream probe tube and low-pressure air current probe tube.

Optionally, the gas controlling device further include: high-voltage end blowback solenoid valve and low-pressure end blowback solenoid valve；It is described 7th end of high-voltage end blowback solenoid valve is connected to the outlet end of the high pressure draught probe tube, and the 8th end and the high-voltage end are clear The first end of zero solenoid valve is connected to, and the 9th end is connected to the blowback air inlet pipe；7th end of the high-voltage end blowback solenoid valve And the 8th form Five-channel between end, and the 6th channel is formed between the 7th end and the 9th end；The controller and the high pressure The electrical connection of blowback solenoid valve is held, Five-channel is switched to for controlling the high-voltage end blowback solenoid valve, so that the high pressure gas Stream probe tube is connected to by the Five-channel with the first end that the high-voltage end resets solenoid valve；The controller is also used to control Make the high-voltage end blowback solenoid valve and switch to the 6th channel so that the blowback air inlet pipe by the 6th channel with it is described The outlet end of high pressure draught probe tube is connected to；Tenth end of the low-pressure end blowback solenoid valve and the low-pressure air current probe tube Outlet end connection, the tenth one end are connected to the 4th end that the low-pressure end resets solenoid valve, the 12nd end and the blowback air inlet Pipe connection；The 7th channel, the tenth end and the 12nd are formed between the tenth end and the tenth one end of the high-voltage end blowback solenoid valve The 8th channel is formed between end；The controller is electrically connected with the low-pressure end blowback solenoid valve, for controlling the low-pressure end Blowback solenoid valve switches to the 7th channel, so that the low-pressure air current probe tube is clear by the 7th channel and the low-pressure end 4th end of zero solenoid valve is connected to；The controller is also used to control the low-pressure end blowback solenoid valve and switches to the 8th channel, So that the blowback air inlet pipe passes through the 8th channel of the low-pressure end blowback solenoid valve and going out for the low-pressure air current probe tube The connection of mouth end.

Optionally, the controller includes: detection device, control chip and trigger device；The detection device with it is described Chip electrical connection is controlled, for switching to the 6th channel, and low-pressure end blowback electricity in the high-voltage end blowback solenoid valve When magnet valve switches to eight channels, blowback trigger signal is sent to the control chip；The control chip and the triggering fill Electrical connection is set, resets trigger signal for generating according to the blowback trigger signal, and be sent to trigger device；The triggering dress It sets and switches to second channel for controlling the high-voltage end clearing solenoid valve according to the clearing trigger signal, control the low pressure End resets solenoid valve and switches to fourth lane, and controls the differential pressure pick-up and be zeroed out operation.

Optionally, the detection device includes: rectification circuit, the first filter capacitor and bi-directional voltage stabilizing pipe；The control core Piece is also used to switch to the 6th channel in the high-voltage end blowback solenoid valve, and the low-pressure end blowback solenoid valve switches to When eight channels, AC signal is exported by AC signal output end；The input terminal of the rectification circuit and the control chip AC signal output end electrical connection, for rectifying the AC signal to form direct current signal；The high level of the rectification circuit Output end is electrically connected with the first connecting pin of first filter capacitor, the low level output end of the rectification circuit respectively with institute State the second connection end and ground terminal electrical connection of the first filter capacitor；The bi-directional voltage stabilizing pipe is in parallel with first filter capacitor to be connected It connects；The high level output end of the rectification circuit is electrically connected with the first input end of the control chip, described straight for exporting Signal is flowed to the control chip.

Optionally, the trigger device includes: current-limiting resistance, switching tube, first diode, the first relay, the two or two Pole pipe and the second relay；The control terminal that first output end of the control chip passes through the current-limiting resistance and the switching tube Electrical connection；First connecting pin of the switching tube is electrically connected with the anode of the first diode, and the second of the switching tube connects End is connect to be electrically connected with the ground terminal；The cathode of the first diode is electrically connected with the first level output end；First relay The first input end of device is electrically connected with first level output end, and the second input terminal and the anode of the first diode are electrically connected It connects, the first output end of first relay resets solenoid valve with the high-voltage end and is electrically connected, for controlling the high-voltage end It resets solenoid valve and switches to second channel, second output terminal and the low-pressure end of first relay reset solenoid valve and be electrically connected It connects, switches to fourth lane, the third output end difference of first relay for controlling the low-pressure end clearing solenoid valve It is electrically connected with the first input end of the cathode of second diode and second relay；The second of second relay Input terminal is electrically connected with the anode of second diode and the ground terminal respectively, the first output end of second relay and The differential pressure pick-up electrical connection executes clear operation for controlling the differential pressure pick-up.

Optionally, the gas controlling device further include: temperature measures probe tube, temperature sensor, pressure measurement sampling Pipe and pressure sensor；The temperature sensor is set to the input end of the temperature measurement probe tube, surveys for measuring temperature Measure the temperature of the air-flow of probe tube acquisition；The pressure sensor is set to the outlet end of the pressure measurement probe tube, is used for Measure the pressure of the air-flow of the pressure measurement probe tube acquisition.

Optionally, the gas controlling device further include: sampling Pitot tube；The sampling Pitot tube coats the high pressure gas Flow probe tube, low-pressure air current probe tube, temperature measurement probe tube and pressure measurement probe tube.

Optionally, the gas controlling device further include: active installation flange；The active installation flange is set to The periphery of the sampling Pitot tube；Position can on the extending direction along the sampling Pitot tube for the active installation flange It adjusts.

Optionally, the gas controlling device further include: installation casing；The installation casing is leaned on the sampling Pitot tube One end connection of the outlet end of the nearly high pressure draught probe tube；The differential pressure pick-up, high-voltage end reset solenoid valve, low-pressure end It resets solenoid valve and pressure sensor is all set in inside the installation casing.

Optionally, the differential pressure pick-up is monocrystalline silicon differential pressure pickup or capacitor differential pressure pickup.

In the utility model, high-voltage end resets solenoid valve and connects high pressure draught probe tube and differential pressure sensing by first passage The high-voltage end of device, so that the high pressure draught of high pressure draught probe tube acquisition is delivered to the high pressure of differential pressure pick-up by first passage End, low-pressure end resets the low-pressure end that solenoid valve connects low-pressure air current probe tube and differential pressure pick-up by third channel, so that low The low-pressure air current of pressure gas stream probe tube acquisition is delivered to the low-pressure end of differential pressure pick-up by third channel, and differential pressure pick-up can The differential pressure of high pressure draught and low-pressure air current is detected, and high-voltage end resets solenoid valve and connects differential pressure biography by second channel The high-voltage end and low-pressure end of sensor reset the fourth lane of solenoid valve, and the fourth lane that the low-pressure end resets solenoid valve connects institute State the low-pressure end of second channel and differential pressure pick-up so that the low-pressure end and high-voltage end of differential pressure pick-up can by second channel and Third channel connection, differential pressure pick-up can be zeroed out operation in the environment of no pressure difference, so that differential pressure pick-up energy Enough measuring accuracies with higher.

Detailed description of the invention

Fig. 1 is the structural schematic diagram that the utility model implements a kind of gas controlling device provided；

Fig. 2 is a kind of gas-monitoring schematic diagram provided by the embodiment of the utility model；

Fig. 3 is the structural schematic diagram of another gas controlling device provided by the embodiment of the utility model；

Fig. 4 is the structural schematic diagram of another gas controlling device provided by the embodiment of the utility model；

Fig. 5 is a kind of structural schematic diagram of controller provided by the embodiment of the utility model；

Fig. 6 is the structural schematic diagram of another controller provided by the embodiment of the utility model；

Fig. 7 is a kind of main view of gas controlling device provided by the embodiment of the utility model；

Fig. 8 is a kind of diagrammatic cross-section of the sampling part of gas controlling device provided by the embodiment of the utility model；

Fig. 9 is a kind of another section signal of the sampling part of gas controlling device provided by the embodiment of the utility model Figure；

Figure 10 is a kind of side view of gas controlling device provided by the embodiment of the utility model；

Figure 11 is the structural schematic diagram of supporting plate installation module provided by the embodiment of the utility model.

Specific embodiment

The utility model is described in further detail with reference to the accompanying drawings and examples.It is understood that herein Described specific embodiment is used only for explaining the utility model, rather than the restriction to the utility model.It further needs exist for It is bright, part relevant to the utility model is illustrated only for ease of description, in attached drawing rather than entire infrastructure.

The utility model embodiment provides a kind of gas controlling device, is that the utility model implementation mentions with reference to Fig. 1, Fig. 1 A kind of structural schematic diagram of the gas controlling device supplied, which includes: high pressure draught probe tube 11, low-pressure air current Probe tube 12, differential pressure pick-up 13, high-voltage end reset solenoid valve 14, low-pressure end resets solenoid valve 15 and controller 16；

High-voltage end reset solenoid valve 14 first end a be connected to the outlet end of high pressure draught probe tube 11, second end b with it is poor The high-voltage end of pressure sensor 13 is connected to, and third end c is connected to the 6th end f that low-pressure end resets solenoid valve 15；High-voltage end resets electricity First passage is formed between the first end a and second end b of magnet valve 14, forms second channel between second end b and third end c；

Low-pressure end reset solenoid valve 15 the 4th end d be connected to the outlet end of low-pressure air current probe tube 12, the 5th end e with it is poor The low-pressure end of pressure sensor 13 is connected to；Third channel is formed between the 4th end d and the 5th end e of low-pressure end clearing solenoid valve 15, Fourth lane is formed between 5th end e and the 6th end f；

The high-voltage end of differential pressure pick-up 13 is connected to by second channel with the 6th end f that low-pressure end resets solenoid valve 15, low Pressure side is connected to by the fourth lane that low-pressure end resets solenoid valve 15 with the third end c that high-voltage end resets solenoid valve 14；

Controller 16 resets solenoid valve 14 with high-voltage end respectively and low-pressure end resets solenoid valve 15 and is electrically connected,

Controller 16 is used for: control high-voltage end resets solenoid valve 14 and switches to first passage, so that high pressure draught probe tube The high pressure draught of 11 acquisitions is delivered to the high-voltage end of differential pressure pick-up 13 by first passage；It controls low-pressure end and resets solenoid valve 15 Third channel is switched to, so that the low-pressure air current that low-pressure air current probe tube 12 acquires passes through third channel to differential pressure pick-up 13 Low-pressure end；Control high-voltage end resets solenoid valve 14 and switches to second channel, and controls low-pressure end and reset solenoid valve 15 and switch to the Four-way, so that differential pressure pick-up 13 is reset.

It is a kind of gas-monitoring schematic diagram provided by the embodiment of the utility model with reference to Fig. 2, Fig. 2, gas controlling device exists When measuring the differential pressure value of monitored gas, generally protruded by high pressure draught probe tube 11 and low-pressure air current probe tube 12 to be detected In the gas pipeline of gas, the differential pressure value of gas is obtained in measurement gas pipeline 2, so that user obtains gas according to differential pressure value The concentration of emission and total release of the gas discharged in pipeline 2.Gas flow in gas pipeline 2 is as shown by the arrows in Figure 2, high The arrival end of pressure gas stream probe tube 11 and low-pressure air current probe tube 12 is slightly in bending, the entrance face of high pressure draught probe tube 11 It is bent to air flow direction, to obtain high pressure draught, the arrival end of low-pressure air current probe tube 12 is bent away from air flow direction, is used for Obtain low-pressure air current.

It continues to refer to figure 1, high pressure draught probe tube 11 resets the height of solenoid valve 14 and differential pressure pick-up 13 by high-voltage end Pressure side connection, for high pressure draught to be delivered to differential pressure pick-up 13, low-pressure air current probe tube 12 resets electromagnetism by low-pressure end Valve 15 is connected to the low-pressure end of differential pressure pick-up 13, for low-pressure air current to be delivered to differential pressure pick-up 13, so that differential pressure senses Device 13 obtains the differential pressure value of monitored gas according to high pressure draught and low-pressure air current.

It includes three terminals: first end a, second end b and third end c, first end a and second that high-voltage end, which resets solenoid valve 14, First passage is formed between the b of end, forms second channel between second end b and third end c.First end a and high pressure draught probe tube 11 outlet end connection, second end b is connected to the high-voltage end of differential pressure pick-up 13, so that the height that high pressure draught probe tube 11 acquires Pressure gas stream is delivered to the high-voltage end of differential pressure pick-up 13 by first passage.

Similarly, it includes three terminals: the 4th end d, the 5th end e and the 6th end f, the 4th end d that low-pressure end, which resets solenoid valve 15, And the 5th form third channel between the e of end, forms fourth lane between the 5th end e and the 6th end f.4th end d and low-pressure air current The outlet end of probe tube 12 is connected to, and the 5th end e is connected to the low-pressure end of differential pressure pick-up 13, so that low-pressure air current probe tube 12 is adopted The low-pressure air current of collection is delivered to the low-pressure end of differential pressure pick-up 13 by third channel.

The third end c that high-voltage end resets solenoid valve 14 is connected to the 6th end f that low-pressure end resets solenoid valve 15, i.e., differential pressure passes The high-voltage end of sensor 13 is connected to by second channel with the 6th end f that low-pressure end resets solenoid valve 15, and low-pressure end passes through low-pressure end The fourth lane for resetting solenoid valve 15 is connected to the third end c that high-voltage end resets solenoid valve 14.Controller 16 respectively with high-voltage end Reset solenoid valve 14 and low-pressure end and reset solenoid valve 15 and be electrically connected, for control high-voltage end reset solenoid valve 14 in first passage and Switch between second channel, and controls low-pressure end clearing solenoid valve 15 and switch between third channel and fourth lane.Then work as control Device 16 processed controls high-voltage end clearing solenoid valve 14 and switches to second channel, and control low-pressure end resets solenoid valve 15 and switches to four-way When road, the high-voltage end of differential pressure pick-up 13 can be made to be connected to low-pressure end, so that condition of the differential pressure pick-up 13 in no pressure difference Under be zeroed out, guarantee reset accuracy, improve differential pressure pick-up 13 measurement accuracy.

Optionally, differential pressure pick-up 13 is monocrystalline silicon differential pressure pick-up or capacitor differential pressure transducer.Preferably, differential pressure passes Sensor 13 is high overload differential pressure pick-up, to effectively prevent the damage of differential pressure pick-up caused by overloading.

In the present embodiment, high-voltage end resets solenoid valve and connects high pressure draught probe tube and differential pressure pick-up by first passage High-voltage end so that the high pressure draught of high pressure draught probe tube acquisition is delivered to the high pressure of differential pressure pick-up by first passage End, low-pressure end resets the low-pressure end that solenoid valve connects low-pressure air current probe tube and differential pressure pick-up by third channel, so that low The low-pressure air current of pressure gas stream probe tube acquisition is delivered to the low-pressure end of differential pressure pick-up by third channel, and differential pressure pick-up can The differential pressure of high pressure draught and low-pressure air current is detected, and high-voltage end resets solenoid valve and connects differential pressure biography by second channel The high-voltage end and low-pressure end of sensor reset the fourth lane of solenoid valve, and the fourth lane that the low-pressure end resets solenoid valve connects institute State the low-pressure end of second channel and differential pressure pick-up so that the low-pressure end and high-voltage end of differential pressure pick-up can by second channel and Third channel connection, differential pressure pick-up can be zeroed out operation in the environment of no pressure difference, so that differential pressure pick-up energy Enough measuring accuracies with higher.

Optionally, show with reference to the structure that Fig. 3, Fig. 3 are another gas controlling devices provided by the embodiment of the utility model It is intended to, gas controlling device further include: blowback air inlet pipe 17；The outlet with high pressure draught probe tube 11 respectively of blowback air inlet pipe 17 End is connected to the outlet end of low-pressure air current probe tube 12, for purge gas to be delivered to high pressure draught probe tube 11 and low pressure gas Flow probe tube 12.

, for high pressure draught probe tube 11 and low-pressure air current probe tube 12, the gas respectively acquired is by arrival end stream To outlet end, and containing the granule foreign after many industrial treatments in its gas for respectively acquiring, it is easy to take high pressure draught Sample pipe 11 and low-pressure air current probe tube 12 are blocked, and blowback air inlet pipe 17 can also be arranged in the present embodiment, and purge gas is by anti- The arrival end input for blowing into tracheae 17, is exported by the outlet end of blowback air inlet pipe 17 to high pressure draught probe tube 11 and low-pressure air current The outlet end of probe tube 12, so that purge gas is delivered to arrival end by the outlet end of high pressure draught probe tube 11, by low pressure gas The outlet end of stream probe tube 12 is delivered to arrival end, thus to residual in high pressure draught probe tube 11 and low-pressure air current probe tube 12 Remaining impurity is cleared up, and the generation of dirt in high pressure draught probe tube 11 and low-pressure air current probe tube 12 is prevented.

Optionally, show with reference to the structure that Fig. 4, Fig. 4 are another gas controlling devices provided by the embodiment of the utility model It is intended to, gas controlling device further include: high-voltage end blowback solenoid valve 18 and low-pressure end blowback solenoid valve 19；High-voltage end blowback electromagnetism 7th end g of valve 18 is connected to the outlet end of high pressure draught probe tube 11, and the 8th end h and high-voltage end reset the first of solenoid valve 14 A connection is held, the 9th end i is connected to blowback air inlet pipe 17；Shape between the 7th end g and the 8th end h of high-voltage end blowback solenoid valve 18 At Five-channel, the 6th channel is formed between the 7th end g and the 9th end i；Controller 16 is electrically connected with high-voltage end blowback solenoid valve 18 It connects, switches to Five-channel for controlling high-voltage end blowback solenoid valve 18, so that high pressure draught probe tube 11 passes through Five-channel The first end a for resetting solenoid valve 14 with high-voltage end is connected to；Controller 16 is also used to control high-voltage end blowback solenoid valve 18 and switches to 6th channel, so that blowback air inlet pipe 17 is connected to by the 6th channel with the outlet end of high pressure draught probe tube 11；Low-pressure end is anti- The tenth end j for blowing solenoid valve 19 is connected to the outlet end of low-pressure air current probe tube 12, and the tenth one end k and low-pressure end reset solenoid valve 15 the 4th end d connection, the 12nd end m are connected to blowback air inlet pipe 17；The tenth end j and the tenth of high-voltage end blowback solenoid valve 18 The 7th channel is formed between the k of one end, and the 8th channel is formed between the tenth end j and the 12nd end m；Controller 16 and low-pressure end blowback Solenoid valve 19 is electrically connected, and the 7th channel is switched to for controlling low-pressure end blowback solenoid valve 19, so that low-pressure air current probe tube 12 It is connected to by the 7th channel with the 4th end d that low-pressure end resets solenoid valve 15；Controller 16 is also used to control low-pressure end blowback electricity Magnet valve 19 switches to the 8th channel, so that eightth channel and low pressure gas of the blowback air inlet pipe 17 by low-pressure end blowback solenoid valve 19 Flow the outlet end connection of probe tube 12.

High-voltage end blowback solenoid valve 18 and low-pressure end blowback solenoid valve 19 are identical with high-voltage end clearing solenoid valve 14, include Three terminals, two channels.Specifically, high-voltage end blowback solenoid valve 18 includes: the 7th end g, the 8th end h and the 9th end i, the 7th Five-channel is formed between the g and the 8th end h of end, forms the 6th channel between the 7th end g and the 9th end i；Low-pressure end blowback electromagnetism Valve 19 includes: the tenth end j, the tenth one end k and the 12nd end m, forms the 7th channel between the tenth end j and the tenth one end k, and the tenth It holds and forms the 8th channel between j and the 12nd end m.

As shown in figure 4, the present embodiment can be arranged simultaneously, high-voltage end resets solenoid valve 14, low-pressure end resets solenoid valve 15, high Pressure side blowback solenoid valve 18 and low-pressure end blowback solenoid valve 19, then gas-detecting device can have simultaneously probe tube blowback cleaning and The function that differential pressure pick-up is reset.Under the control of the controller 16, low when high-voltage end blowback solenoid valve 18 switches to Five-channel Pressure side blowback solenoid valve 19 switches to the 7th channel, and high-voltage end resets solenoid valve 14 and switches to first passage, and low-pressure end resets electricity Magnet valve 15 switches to third channel, then the low-pressure air current that low-pressure air current probe tube 12 acquires can be transmitted to the low of differential pressure pick-up 13 Pressure side, the high pressure draught that high pressure draught probe tube 11 acquires can be transmitted to the high-voltage end of differential pressure pick-up 13, so that differential pressure senses The measurement of the progress differential pressure value of device 13；And when high-voltage end blowback solenoid valve 18 switches to the 6th channel, low-pressure end blowback solenoid valve 19 The 8th channel is switched to, high-voltage end resets solenoid valve 14 and switches to second channel, and low-pressure end resets solenoid valve 15 and switches to the 4th Channel, the then air-flow that low-pressure air current probe tube 12 and high pressure draught probe tube 11 acquire cannot be delivered to differential pressure pick-up 13, instead The purge gas for blowing into the input of tracheae 17 passes through the 6th channel cleanup high pressure draught probe tube 11 of high-voltage end blowback solenoid valve 18 Interior dirt, and the dirt in the 8th channel cleanup low-pressure air current probe tube 11 for passing through low-pressure end blowback solenoid valve 19, this Outside, high-voltage end resets solenoid valve 14 and switches to second channel, and low-pressure end resets solenoid valve 15 and switches to fourth lane, differential pressure sensing The low-pressure end and high-voltage end of device 13 are connected, and differential pressure pick-up 13 can be zeroed out operation.Illustratively, gas controlling device into During row monitoring, the cleaning of low-pressure air current probe tube 12 and high pressure draught probe tube 11 can be carried out at regular intervals, and Operation is zeroed out to differential pressure pick-up 13.

It optionally, is a kind of structural schematic diagram of controller provided by the embodiment of the utility model with reference to Fig. 5, Fig. 5, control Device 16 includes: detection device 161, control chip 162 and trigger device 163；Detection device 161 is electrically connected with control chip 162, For switching to the 6th channel in high-voltage end blowback solenoid valve 18, and low-pressure end blowback solenoid valve 19 switches to the 8th channel When, blowback trigger signal is sent to control chip 162；Control chip 162 is electrically connected with trigger device 163, for according to blowback Trigger signal, which generates, resets trigger signal, and is sent to trigger device 163；Trigger device 163 is used for according to clearing trigger signal Control high-voltage end resets solenoid valve 14 and switches to second channel, and control low-pressure end resets solenoid valve 15 and switches to fourth lane, and Control differential pressure pick-up 13 is zeroed out operation.

High-voltage end blowback solenoid valve 18 and low-pressure end blowback solenoid valve 19 can be controlled by control chip 162, can also be with It is controlled by other controllers of gas controlling device, the switching in channel is carried out, to carry out low-pressure air current probe tube 12 and high pressure gas Flow the blowback cleaning of probe tube 11.Detection device 161 can be with control high-voltage end blowback solenoid valve 18 and low-pressure end blowback solenoid valve 19 control chip 162 perhaps cut for issuing channel in control chip 162 or other controllers by the electrical connection of other controllers When changing signal to control high-voltage end blowback solenoid valve 18 and low-pressure end blowback solenoid valve 19, detection signal, detection device are received 161 receive detection signal after generate blowback trigger signal be delivered to control chip 162, control chip 162 triggered according to blowback Signal, which generates, resets trigger signal, and is sent to trigger device 163, and trigger device 163 controls high-voltage end clearing solenoid valve 14 and cuts Second channel is shifted to, control low-pressure end resets solenoid valve 15 and switches to fourth lane, so that differential pressure pick-up two sides are connected, and controls Differential pressure pick-up 13 processed is zeroed out operation.

It optionally, is the structural schematic diagram of another controller provided by the embodiment of the utility model, inspection with reference to Fig. 6, Fig. 6 Surveying device 161 may include: rectification circuit 164, the first filter capacitor C1 and bi-directional voltage stabilizing pipe TVS；Control chip 162 is also used to The 6th channel is switched in high-voltage end blowback solenoid valve 18, and when low-pressure end blowback solenoid valve 19 switches to eight channels, led to Cross AC signal output end (N and L) output AC signal；The input terminal of rectification circuit 164 and the AC signal of controller 16 are defeated Outlet electrical connection, for rectifying AC signal to form direct current signal；The high level output end V0+ of rectification circuit 164 and first The first connecting pin of filter capacitor C1 is electrically connected, the low level output end V0- of rectification circuit 164 respectively with the first filter capacitor C1 Second connection end and ground terminal GND electrical connection；Bi-directional voltage stabilizing pipe TVS is connected in parallel with the first filter capacitor C1；Rectification circuit 164 High level output end V0+ be electrically connected with the first input end PC1 of control chip 162, for exporting direct current signal to controlling core Piece 162.

If being switched by the channel that control chip 162 controls high-voltage end blowback solenoid valve 18 and low-pressure end blowback solenoid valve 19, It then controls chip 162 and high-voltage end blowback solenoid valve 18 is being switched into the 6th channel, low-pressure end blowback solenoid valve 19 is switched to When eight channels, AC signal is exported to detection device 161, in detection device 161 by AC signal output end (N and L) Above-mentioned AC signal is converted to direct current signal by rectification circuit 164, and by the high level output end V0+ of rectification circuit 164 and low Level output end V0- output.

The first filter capacitor is also connected between the high level output end V0+ and low level output end V0- of rectification circuit 164 C1, for being filtered to above-mentioned direct current signal, the high level output end V0+ of rectification circuit 164 passes through current-limiting resistance R2 The first input end PC1 of connection control chip 162, the low level output end V0- of rectification circuit 164 are connected by current-limiting resistance R2 Ground terminal GND, then rectification circuit 164 exports direct current signal to the first input end PC1 for controlling chip 162.Above-mentioned direct current signal is For blowback trigger signal, clearing trigger signal can be generated according to above-mentioned blowback trigger signal by controlling chip 162, so that control chip 162 control trigger device 163 according to above-mentioned direct current signal.In addition, the high level output end V0+ of rectification circuit 164 and Bi-directional voltage stabilizing pipe TVS is also connected between the V0- of low level output end, bi-directional voltage stabilizing pipe TVS can guarantee the height of rectification circuit 164 The stabilization of voltage difference, prevents high level output end V0+ and low level between level output end V0+ and low level output end V0- Voltage difference is excessively high between output end V0-, has certain protective effect to control chip 162.Optionally, detection device 161 It can also include the second filter capacitor C2, the second filter capacitor C2 is connected in parallel with first wave capacitor C1, further to filter, is protected The stabilization of the card output extremely direct current signal of control chip 162.

Optionally, with continued reference to Fig. 6, trigger device 163 may include: current-limiting resistance R3, switching tube M1, first diode D1, the first relay KA1, the second diode D2 and the second relay KA2；First output end PC2 of control chip 162 passes through limit Leakage resistance R3 is electrically connected with the control terminal of switching tube M1；The first connecting pin of switching tube M1 and the anode of first diode D1 are electrically connected It connects, the second connection end of switching tube M1 is electrically connected with ground terminal GND；The cathode of first diode D1 and the first level output end V1 electricity Connection；The first input end of first relay KA1 is electrically connected with the first level output end V1, the second input terminal and first diode The anode electrical connection of D1, the first output end OUT1 of the first relay KA1 resets solenoid valve 14 with high-voltage end and is electrically connected, for controlling High-voltage end processed resets solenoid valve 14 and switches to second channel, and the second output terminal OUT2 and low-pressure end of the first relay KA1 is reset Solenoid valve 15 is electrically connected, and switches to fourth lane for controlling low-pressure end clearing solenoid valve 15, the third of the first relay KA1 is defeated Outlet OUT3 is electrically connected with the first input end of the cathode of the second diode D2 and the second relay KA2 respectively；Second relay The second input terminal of KA2 is electrically connected with the anode and ground terminal GND of the second diode D2 respectively, and the first of the second relay KA2 is defeated Outlet OUT4 is electrically connected with differential pressure pick-up 13, executes clear operation for controlling differential pressure pick-up 13.

Control chip 162 can generate a clearing trigger signal according to above-mentioned direct current signal (blowback trigger signal), and will It resets trigger signal and is sent to trigger device 163, specifically, control chip 162 resets triggering by the first output end PC2 output Signal to switching tube M1 control terminal, illustratively, as shown in fig. 6, control chip 162 can pass through current-limiting resistance R3 and switching tube The control terminal of M1 is electrically connected.The first end of switching tube M1 is electrically connected with the first relay KA1, and second end is electrically connected with ground terminal GND, For under the control for resetting trigger signal, the first relay KA1 of control to work.Illustratively, if switching tube M1 high level is led Logical, low level turns off, then resetting starting signal is high level signal, then when control chip 162 exports high level signal to switch When the control terminal of pipe M1, the electric current of switching tube M1 conducting, the first level output end V1 output passes through the coil of the first relay KA1 The first end of switching tube M1 is flowed to, and is flowed out by the second end of switching tube M1, so that the first relay KA1 works, first The first output end OUT1 of relay KA1 resets solenoid valve 14 with high-voltage end and is electrically connected, the second output terminal of the first relay KA1 OUT2 resets solenoid valve 15 with low-pressure end and is electrically connected, and for controlling, high-voltage end resets solenoid valve 14 and low-pressure end resets solenoid valve 15 The switching of internal channel, specifically, it is clear that the first relay KA1 controls high-voltage end when the coil of the first relay KA1 flows through electric current Zero solenoid valve 14 switches to second channel, and control low-pressure end resets solenoid valve 15 and switches to fourth lane, this moment, with reference to Fig. 4, control High-voltage end blowback solenoid valve 18 is switched to the 6th channel by coremaking piece 162, and low-pressure end blowback solenoid valve 19 is switched to the 8th Channel, and control high-voltage end and reset solenoid valve 14 and switch to second channel, control low-pressure end reset solenoid valve 15 and switch to the Four-way, then gas-detecting device can carry out the blowback cleaning behaviour of low-pressure air current probe tube 12 and high pressure draught probe tube 11 simultaneously Make the clear operation with differential pressure sensing.

Second channel is switched to when high-voltage end resets solenoid valve 14, low-pressure end resets solenoid valve 15 and switches to fourth lane When, the two sides connection of differential pressure pick-up 13, i.e. the two sides pressure difference of differential pressure pick-up 13 is zero, so that the clearing of differential pressure pick-up 13 Effect is more accurate, prevents from resetting halfway problem caused by because of 13 two sides pressure difference of differential pressure pick-up.Electricity is reset in high-voltage end Magnet valve 14 switches to second channel, when low-pressure end clearing solenoid valve 15 switches to fourth lane, i.e. 13 liang of side pressures of differential pressure pick-up When difference is zero, the first relay KA1 outputs current to the coil of the second relay KA2 by third output end OUT3, so that the Two relay KA2 work.Differential pressure pick-up 13 is controlled by the second relay KA2 and is zeroed out operation, specifically, the second relay The first output end OUT4 of device KA2 is electrically connected with differential pressure pick-up 13, for controlling differential pressure pick-up 13.

In addition, the first input end of the first relay KA1 is electrically connected with the cathode of first diode D1, the first relay The second input terminal of KA1 is electrically connected with the anode of first diode D1, then first diode D1 can be with the first relay KA1 shape At circuit, so that the electric current generated to the coil of the first relay KA1 carries out in the moment that the first relay KA1 is turned off suddenly It releases, and switch tube M1 is protected.Similarly, the cathode of the first input end of the second relay KA2 and the second diode D2 Electrical connection, the second input terminal of the second relay KA2 are electrically connected with the anode of the second diode D2, then the second diode D2 can It is formed into a loop with the second relay KA2, in the moment that the second relay KA2 is turned off suddenly, the coil of the second relay KA2 is produced Raw electric current is released.

Optionally, the first relay KA1 and the second relay KA2 can carry delay function, periodically to differential pressure pick-up 13 It realizes and resets, reduce affected by environment lead to the problem of of differential pressure pick-up 13 and drift about to cause test inaccuracy.

Fig. 7 is a kind of main view of gas controlling device provided by the embodiment of the utility model, as shown in fig. 7, gas is supervised Surveying device includes sampling part 4 and detection part 3, and sampling part 4 is for being inserted into the gas pipeline of under test gas, to be measured Gas carries out flow monitoring, and detection part 3 is provided with the detection devices such as differential pressure pick-up 13.

Fig. 8 is a kind of diagrammatic cross-section of the sampling part of gas controlling device provided by the embodiment of the utility model, Fig. 9 It is a kind of another diagrammatic cross-section of the sampling part of gas controlling device provided by the embodiment of the utility model, Fig. 8 and Fig. 9's Section is mutually orthogonal relationship, and optionally, with reference to Fig. 7 to Fig. 9, gas controlling device can also include: temperature measurement sampling Pipe 21, temperature sensor 24, pressure measurement probe tube 22 and pressure sensor 25；Temperature sensor 24 is set to temperature measurement and takes The input end of sample pipe 21, for measuring the temperature for the air-flow that temperature measurement probe tube 21 acquires；Pressure sensor 25 is set to pressure Power measures the outlet end of probe tube 22, the pressure of the air-flow for measuring the acquisition of pressure measurement probe tube.

In this implementation, the sampling part 4 of gas controlling device is integrated with high pressure draught probe tube 11, low-pressure air current probe tube 12, temperature measurement probe tube 21 and pressure measurement probe tube 22, so that differential pressure pick-up can be according to high pressure draught and low Pressure gas stream obtains air-flow differential pressure, and temperature sensor 24 measures the temperature of the gas flow measurement air-flow of probe tube 21, pressure according to temperature Sensor 25 is used to obtain the pressure of 22 interior air-flow of pressure measurement probe tube, thus gas controlling device be integrated with differential pressure measurement, The function of temperature measurement and pressure measurement, measures above-mentioned differential pressure, temperature referring now to discrete instrument is arranged in the prior art respectively Degree and pressure reduce the influence of a variety of instrument installation sites in the present embodiment, and integrated level is high, reduces manufacturing cost.Meanwhile pacifying Dress is convenient, is easy to debug and safeguard.

Optionally, with continued reference to Fig. 7 to Fig. 9, gas controlling device can also include: sampling Pitot tube 23；Sample skin support Pipe 23 coats high pressure draught probe tube 11, low-pressure air current probe tube 12, temperature measurement probe tube 21 and pressure measurement probe tube 22. Sampling Pitot tube 23 makes high pressure draught probe tube 11, low-pressure air current probe tube 12, temperature measurement probe tube 21 and pressure measurement Probe tube 22 enjoys an insertion pipeline jointly, convenient for the work of gas controlling device, it is not necessary to by high pressure draught probe tube 11, low Pressure gas stream probe tube 12, temperature measurement probe tube 21 and pressure measurement probe tube 22 are inserted into gas pipeline respectively and are detected.

Optionally, with continued reference to Fig. 7, gas controlling device can also include: active installation flange 26；Active installation Flange 26 is set to the periphery of sampling Pitot tube 23；Active installation flange 26 is upper in the extending direction along sampling Pitot tube 23 It sets adjustable.Active installation flange 26 can carry out position along sampling Pitot tube 23 and move, convenient for according to the diameter pair of gas pipeline Position of the active installation flange 26 on sampling Pitot tube 23 is adjusted, and fixedly mounted structure and sampling Pitot tube 23 The distance of insertion gas pipeline one end be it is fixed, then fixedly mounted structure is only applicable to the fixed flue of diameters Road, gas controlling device uses active installation flange 26 in the present embodiment, enhances the versatility of gas controlling device, increases The scope of application of gas controlling device.

Optionally, with continued reference to Fig. 7, gas controlling device can also include: installation casing 27；Installation casing 27 and sampling Pitot tube 23 is connected to close to one end of the outlet end of high pressure draught probe tube 11；Differential pressure pick-up 13, high-voltage end reset solenoid valve 14, low-pressure end resets solenoid valve 15 and pressure sensor is all set in inside installation casing.

It is a kind of side view of gas controlling device provided by the embodiment of the utility model, gas prison with reference to Figure 10, Figure 10 Surveying in the detection part 3 of device includes that supporting plate installs module 28, and supporting plate installation module 28 is equipped with the elements such as differential pressure pick-up, has Body, be the structural schematic diagram of supporting plate installation module provided by the embodiment of the utility model with reference to Figure 11, Figure 11, and supporting plate installs mould Block 28 is provided with mounting plate 29, be equipped on mounting plate 29 differential pressure pick-up 13, controller 16, high-voltage end reset solenoid valve 14, Low-pressure end resets solenoid valve 15, high-voltage end blowback solenoid valve 18 and low-pressure end blowback solenoid valve 19.Pass through between each solenoid valve Gas path pipe 31 is connected to, in addition, between solenoid valve and differential pressure pick-up 13 and being also to pass through between probe tube and each solenoid valve Gas path pipe 31 is connected to.

Note that above are only the preferred embodiment and institute's application technology principle of the utility model.Those skilled in the art's meeting Understand, the utility model is not limited to specific embodiment described here, is able to carry out for a person skilled in the art various bright Aobvious variation, readjustment and substitution is without departing from the protection scope of the utility model.Therefore, although passing through above embodiments The utility model is described in further detail, but the utility model is not limited only to above embodiments, is not departing from It can also include more other equivalent embodiments in the case that the utility model is conceived, and the scope of the utility model is by appended Scope of the claims determine.

Claims (11)

1. a kind of gas controlling device characterized by comprising high pressure draught probe tube, low-pressure air current probe tube, differential pressure sensing Device, high-voltage end reset solenoid valve, low-pressure end resets solenoid valve and controller；

The first end that the high-voltage end resets solenoid valve is connected to the outlet end of the high pressure draught probe tube, second end with it is described The high-voltage end of differential pressure pick-up is connected to, and third end is connected to the 6th end that the low-pressure end resets solenoid valve；The high-voltage end is clear First passage is formed between the first end and second end of zero solenoid valve, forms second channel between second end and third end；

The 4th end that the low-pressure end resets solenoid valve is connected to the outlet end of the low-pressure air current probe tube, the 5th end with it is described The low-pressure end of differential pressure pick-up is connected to；Third channel is formed between the 4th end and the 5th end of the low-pressure end clearing solenoid valve, Fourth lane is formed between 5th end and the 6th end；

The high-voltage end of the differential pressure pick-up is connected to by the second channel with the 6th end that the low-pressure end resets solenoid valve, The third end that the low-pressure end resets the fourth lane of solenoid valve by the low-pressure end and the high-voltage end resets solenoid valve connects It is logical；

The controller resets solenoid valve with the high-voltage end respectively and the low-pressure end resets solenoid valve and is electrically connected,

The controller is used for: being controlled the high-voltage end clearing solenoid valve and is switched to first passage, so that the high pressure draught takes The high pressure draught of sample pipe acquisition is delivered to the high-voltage end of the differential pressure pick-up by the first passage；Control the low-pressure end It resets solenoid valve and switches to third channel, so that the low-pressure air current of low-pressure air current probe tube acquisition passes through the third channel To the low-pressure end of the differential pressure pick-up；It controls the high-voltage end clearing solenoid valve and switches to second channel, and control described low Pressure side resets solenoid valve and switches to fourth lane, so that the differential pressure pick-up is reset.

2. gas controlling device according to claim 1, which is characterized in that further include: blowback air inlet pipe；

The blowback air inlet pipe outlet with the outlet end of the high pressure draught probe tube and the low-pressure air current probe tube respectively End connection, for purge gas to be delivered to the high pressure draught probe tube and low-pressure air current probe tube.

3. gas controlling device according to claim 2, which is characterized in that further include: high-voltage end blowback solenoid valve and low Pressure side blowback solenoid valve；

7th end of the high-voltage end blowback solenoid valve is connected to the outlet end of the high pressure draught probe tube, the 8th end with it is described High-voltage end resets the first end connection of solenoid valve, and the 9th end is connected to the blowback air inlet pipe；The high-voltage end blowback solenoid valve The 7th end and the 8th end between form Five-channel, between the 7th end and the 9th end formed the 6th channel；

The controller is electrically connected with the high-voltage end blowback solenoid valve, is switched to for controlling the high-voltage end blowback solenoid valve Five-channel, so that the high pressure draught probe tube resets the first end of solenoid valve by the Five-channel and the high-voltage end Connection；The controller is also used to control the high-voltage end blowback solenoid valve and switches to the 6th channel, so that the blowback air inlet Pipe is connected to by the 6th channel with the outlet end of the high pressure draught probe tube；

Tenth end of the low-pressure end blowback solenoid valve is connected to the outlet end of the low-pressure air current probe tube, the tenth one end and institute The 4th end connection that low-pressure end resets solenoid valve is stated, the 12nd end is connected to the blowback air inlet pipe；The high-voltage end blowback electricity The 7th channel is formed between tenth end of magnet valve and the tenth one end, and the 8th channel is formed between the tenth end and the 12nd end；

The controller is electrically connected with the low-pressure end blowback solenoid valve, is switched to for controlling the low-pressure end blowback solenoid valve 7th channel, so that the low-pressure air current probe tube resets the 4th end of solenoid valve by the 7th channel and the low-pressure end Connection；The controller is also used to control the low-pressure end blowback solenoid valve and switches to the 8th channel, so that the blowback air inlet Pipe is connected to by the 8th channel of the low-pressure end blowback solenoid valve with the outlet end of the low-pressure air current probe tube.

4. gas controlling device according to claim 3, which is characterized in that the controller includes: detection device, control Chip and trigger device；

The detection device is electrically connected with the control chip, logical for switching to the 6th in the high-voltage end blowback solenoid valve Road, and when the low-pressure end blowback solenoid valve switches to eight channels, blowback trigger signal is sent to the control chip；

The control chip is electrically connected with the trigger device, resets triggering letter for generating according to the blowback trigger signal Number, and it is sent to trigger device；The trigger device, which is used to control the high-voltage end according to the clearing trigger signal, resets electricity Magnet valve switches to second channel, controls the low-pressure end clearing solenoid valve and switches to fourth lane, and controls the differential pressure sensing Device is zeroed out operation.

5. gas controlling device according to claim 4, which is characterized in that the detection device includes: rectification circuit, One filter capacitor and bi-directional voltage stabilizing pipe；

The control chip is also used to switch to the 6th channel, and the low-pressure end blowback in the high-voltage end blowback solenoid valve When solenoid valve switches to eight channels, AC signal is exported by AC signal output end；

The input terminal of the rectification circuit is electrically connected with the AC signal output end of the control chip, for believing the exchange Number rectification forms direct current signal；

The high level output end of the rectification circuit is electrically connected with the first connecting pin of first filter capacitor, the rectified current The low level output end on road is electrically connected with the second connection end of first filter capacitor and ground terminal respectively；The bi-directional voltage stabilizing pipe It is connected in parallel with first filter capacitor；

The high level output end of the rectification circuit is electrically connected with the first input end of the control chip, described straight for exporting Signal is flowed to the control chip.

6. gas controlling device according to claim 5, which is characterized in that the trigger device includes: current-limiting resistance, opens Guan Guan, first diode, the first relay, the second diode and the second relay；

First output end of the control chip is electrically connected by the current-limiting resistance with the control terminal of the switching tube；It is described to open The first connecting pin for closing pipe is electrically connected with the anode of the first diode, the second connection end of the switching tube and the ground terminal Electrical connection；The cathode of the first diode is electrically connected with the first level output end；

The first input end of first relay is electrically connected with first level output end, the second input terminal and described first The anode electrical connection of diode, the first output end of first relay reset solenoid valve with the high-voltage end and are electrically connected, use Second channel, the second output terminal and the low pressure of first relay are switched in controlling the high-voltage end clearing solenoid valve End resets solenoid valve electrical connection, switches to fourth lane, first relay for controlling the low-pressure end clearing solenoid valve Third output end be electrically connected respectively with the first input end of the cathode of second diode and second relay；

Second input terminal of second relay is electrically connected with the anode of second diode and the ground terminal respectively, described First output end of the second relay is electrically connected with the differential pressure pick-up, executes clearing behaviour for controlling the differential pressure pick-up Make.

7. gas controlling device according to claim 1, which is characterized in that further include: temperature measures probe tube, temperature passes Sensor, pressure measurement probe tube and pressure sensor；

The temperature sensor is set to the input end of the temperature measurement probe tube, for measuring temperature measurement probe tube acquisition Air-flow temperature；

The pressure sensor is set to the outlet end of the pressure measurement probe tube, for measuring the pressure measurement probe tube The pressure of the air-flow of acquisition.

8. gas controlling device according to claim 7, which is characterized in that further include: sampling Pitot tube；

The sampling Pitot tube coats the high pressure draught probe tube, low-pressure air current probe tube, temperature measurement probe tube and pressure Measure probe tube.

9. gas controlling device according to claim 8, which is characterized in that further include: active installation flange；

The active installation flange is set to the periphery of the sampling Pitot tube；

Active installation flange position on the extending direction along the sampling Pitot tube is adjustable.

10. gas controlling device according to claim 8, which is characterized in that further include: installation casing；

One end of outlet end of the installation casing with the sampling Pitot tube close to the high pressure draught probe tube is connected to；

The differential pressure pick-up, high-voltage end clearing solenoid valve, low-pressure end clearing solenoid valve and pressure sensor are all set in described Inside installation casing.

11. -10 described in any item gas controlling devices according to claim 1, which is characterized in that

The differential pressure pick-up is monocrystalline silicon differential pressure pickup or capacitor differential pressure pickup.