CN112303627A - Gas distribution system and method - Google Patents

Abstract

The embodiment of the invention provides a gas distribution system, which comprises: the oxygen content detection unit is connected with a gas transmission port of a gas distribution end of the gas distribution system and used for detecting whether the oxygen content of the mixed gas transmitted by the gas distribution end meets a set value or not; the control terminal is used for respectively adjusting the flow parameters of the fuel gas and the air delivered by the air distribution end until the oxygen content accords with the set value under the condition that the oxygen content does not accord with the set value according to the detection result of the oxygen content detection unit; and the gas distribution valve is arranged between the gas transmission port and the gas using port of the gas distribution end and used for controlling the on-off of a gas distribution pipeline, under the condition that the oxygen content does not accord with the set value, the flow parameters of the fuel gas and the air transmitted by the gas distribution end are respectively adjusted until the oxygen content accords with the set value, and the standard gas is provided for the gas using end, so that the quality of the mixed gas can be ensured.

Description

Gas distribution system and method

Technical Field

The invention relates to gas distribution of mixed gas, in particular to a gas distribution system and a method.

Background

The gas distribution system of the fuel gas at the present stage is simple, generally, the air and the fuel gas are directly connected to the same pipeline for mixing, and the uniform mixing of the gas cannot be ensured. Meanwhile, no safety measures are provided, once the gas end is used for backfire and the like, the gas distribution device and the like are easily detonated, and safety accidents occur.

Disclosure of Invention

The invention aims to provide a gas distribution system and a method, wherein the system detects the oxygen content of mixed gas before the gas distribution end of the gas distribution system provides the mixed gas to a gas using end so as to ensure that the mixed gas reaches accurate set concentration and the oxygen content of the mixed gas meets a set value, wherein the current mixed gas is judged to be substandard gas under the condition that the oxygen content of the mixed gas does not meet the set value, flow parameters of fuel gas and air delivered by the gas distribution end are respectively adjusted until the oxygen content meets the set value under the condition that the oxygen content does not meet the set value, and the substandard gas is provided to the gas using end so as to ensure the quality of the mixed gas.

In order to achieve the above object, an embodiment of the present invention provides a gas distribution system, including:

the oxygen content detection unit is connected with a gas transmission port of a gas distribution end of the gas distribution system and used for detecting whether the oxygen content of the mixed gas transmitted by the gas distribution end meets a set value or not;

the control terminal is used for respectively adjusting the flow parameters of the fuel gas and the air delivered by the air distribution end until the oxygen content accords with the set value under the condition that the oxygen content does not accord with the set value according to the detection result of the oxygen content detection unit; and

and the gas distribution valve is arranged between the gas transmission port and the gas using port of the gas distribution end and used for controlling the on-off of the gas distribution pipeline.

Optionally, the control terminal is further configured to control a gas distribution valve to distribute the gas according to a detection result of the oxygen content detection unit;

the control terminal is further used for controlling the gas recovery outlet of the gas distribution valve to be communicated to convey the gas which does not reach the standard to the recovery processing end under the condition that the oxygen content does not meet the set value, and controlling the gas distribution outlet of the gas distribution valve to be communicated to convey the gas which reaches the standard to the gas using end under the condition that the oxygen content meets the set value.

Optionally, the gas distribution end includes:

a fuel gas cylinder;

the fuel gas pipeline control valve is connected with the fuel gas storage cylinder and is used for controlling the gas transmission flow of the fuel gas storage cylinder;

the fuel gas controller is used for controlling the opening of the fuel gas pipeline control valve according to the control terminal control instruction so as to adjust the gas transmission flow of the fuel gas storage bottle;

an air compressor;

the air pipeline control valve is connected with the air compressor and used for controlling the air transmission flow of the air compressor;

the air controller is used for controlling the opening of the air pipeline control valve according to the control terminal control instruction so as to adjust the air delivery flow of the air compressor; and

and the gas mixing device is respectively connected with the fuel gas pipeline control valve and the air pipeline control valve and is used for mixing the received fuel gas and the received air and conveying the mixed gas to the oxygen content detection unit through the gas distribution end gas transmission port.

Optionally, the gas distribution end further includes:

the fuel gas storage cylinder control valve is arranged on a connecting pipe between the fuel gas storage cylinder and the air compressor and is in a normally closed state; and

the air compressor control valve is arranged on a connecting pipe between the fuel gas storage cylinder and the air compressor and is in a normally closed state;

the gas distribution valve is further used for shunting gas according to the gas end gas using state, the control terminal controls the fuel gas storage cylinder to stop conveying fuel gas under the condition that the gas end stops using gas, controls the fuel gas storage cylinder control valve and the air compressor control valve to be opened, and controls the gas recovery outlet of the gas distribution valve to be conducted so that air conveyed by the air compressor can convey residual gas in a gas distribution end pipeline to the recovery processing end.

Optionally, in the case that the oxygen content does not meet the set value, adjusting the parameters of the fuel gas delivery and the air flow delivered by the gas distribution end respectively until the oxygen content meets the set value comprises:

under the condition that the oxygen content is higher than the set value, parameters of fuel gas delivery and air flow of the gas distribution end are respectively adjusted to increase the fuel gas flow and reduce the air flow until the oxygen content meets the set value; and

and in the case that the oxygen content is lower than the set value, adjusting parameters of fuel gas delivery and air flow of the gas distribution end respectively to reduce the fuel air flow and increase the air flow until the oxygen content meets the set value.

Optionally, the system further comprises:

and the flame arrester is arranged between the gas distribution valve and the gas using end and is used for preventing the gas using end from backfire.

Optionally, the system further comprises:

and the press machine is arranged between the gas distribution valve and the gas using end and is used for detecting and displaying the gas pressure of the gas distribution pipeline.

The embodiment of the invention also provides a gas distribution method, which comprises the following steps:

detecting whether the oxygen content of the mixed gas conveyed by the gas distribution end meets a set value or not;

according to the detection result, under the condition that the oxygen content does not accord with the set value, flow parameters of fuel gas and air delivered by the air distribution end are respectively adjusted until the oxygen content accords with the set value; and

and adjusting the valve state of the gas distribution valve to control the on-off of the gas distribution pipeline, wherein the gas distribution valve is arranged between the gas transmission port of the gas distribution end and the gas using end.

Optionally, the method further includes:

shunting according to the detection result;

and under the condition that the oxygen content does not accord with the set value, controlling the gas recovery outlet of the gas distribution valve to be communicated so as to convey the substandard gas to a recovery processing end, and under the condition that the oxygen content accords with the set value, controlling the gas distribution outlet of the gas distribution valve to be communicated so as to convey the substandard gas to a gas using end.

Optionally, the gas distribution end includes:

a fuel gas cylinder;

the fuel gas pipeline control valve is connected with the fuel gas storage cylinder and is used for controlling the gas transmission flow of the fuel gas storage cylinder;

the fuel gas controller is used for controlling the opening of the fuel gas pipeline control valve according to the control terminal control instruction so as to adjust the gas transmission flow of the fuel gas storage bottle;

an air compressor;

the air pipeline control valve is connected with the air compressor and used for controlling the air transmission flow of the air compressor;

the air controller is used for controlling the opening of the air pipeline control valve according to the control terminal control instruction so as to adjust the air delivery flow of the air compressor; and

and the gas mixing device is respectively connected with the fuel gas pipeline control valve and the air pipeline control valve and is used for mixing the received fuel gas and the air and conveying the mixed gas to the detection end through the gas distribution end gas transmission port to detect the oxygen content condition of the mixed gas.

Optionally, the method further includes:

shunting according to the gas using state of a gas using end;

the method comprises the steps of controlling a fuel gas storage cylinder to stop conveying fuel gas, controlling a fuel gas storage cylinder control valve and an air compressor control valve to open under the condition that gas supply is stopped at a gas supply end, controlling a gas recovery outlet of a gas distribution valve to be conducted so that residual gas in a gas distribution end pipeline is conveyed to a recovery processing end by air conveyed by the air compressor, setting the fuel gas storage cylinder control valve on a connecting pipe of the fuel gas storage cylinder and the air compressor and being in a normally closed state, and setting the air compressor control valve on a connecting pipe of the fuel gas storage cylinder and the air compressor and being in a normally closed state.

Optionally, in the case that the oxygen content does not meet the set value, adjusting the parameters of the fuel gas delivery and the air flow delivered by the gas distribution end respectively until the oxygen content meets the set value comprises:

under the condition that the oxygen content is higher than the set value, parameters of fuel gas delivery and air flow of the gas distribution end are respectively adjusted to increase the fuel gas flow and reduce the air flow until the oxygen content meets the set value; and

and in the case that the oxygen content is lower than the set value, adjusting parameters of fuel gas delivery and air flow of the gas distribution end respectively to reduce the fuel air flow and increase the air flow until the oxygen content meets the set value.

Optionally, the method further includes:

flashback at the gas using end is prevented by a flame arrestor disposed between the gas distribution valve and the gas using end.

Optionally, the method further includes:

and detecting and displaying the gas pressure of the gas distribution pipeline through a pressure gauge, wherein the pressure gauge is arranged between the gas distribution valve and the gas using end.

According to the technical scheme, whether the oxygen content of the mixed gas conveyed by the gas transmission port of the gas distribution end of the gas distribution system meets a set value or not is detected through the oxygen content detection unit, the control terminal respectively adjusts the flow parameters of the fuel gas and the air conveyed by the gas distribution end until the oxygen content meets the set value under the condition that the oxygen content of the mixed gas does not meet the set value according to the detection result of the oxygen content detection unit, and provides the gas reaching the standard to the gas using end, so that the quality of the mixed gas is ensured.

Additional features and advantages of embodiments of the invention will be set forth in the detailed description which follows.

Drawings

The accompanying drawings, which are included to provide a further understanding of the embodiments of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the embodiments of the invention without limiting the embodiments of the invention. In the drawings:

fig. 1 is a schematic diagram of a basic structure of an air distribution system provided in an embodiment of the present invention;

FIG. 2 is a schematic diagram of a basic structure of a blowable gas distribution system provided by an embodiment of the invention;

fig. 3 is a schematic structural diagram of a gas distribution system provided in an embodiment of the present invention.

Description of the reference numerals

1 fuel gas bomb 2 air compressor

3 fuel gas pipeline control valve 4 air pipeline control valve

5 fuel gas controller 6 air controller

7 gas mixing device 8 oxygen content detection unit

9 distribution valve 10 flame arrester

12 air compressor control valves of 11 pressure gauges

13 fuel gas storage cylinder control valve

Detailed Description

The following detailed description of embodiments of the invention refers to the accompanying drawings. It should be understood that the detailed description and specific examples, while indicating embodiments of the invention, are given by way of illustration and explanation only, not limitation.

Fig. 1 is a schematic diagram illustrating a basic configuration of an air distribution system according to an embodiment of the present invention, and as shown in fig. 1, an air distribution end of the air distribution system may include a fuel gas cylinder 1, an air compressor 2, a fuel gas pipeline control valve 3, an air pipeline control valve 4, a fuel gas controller 5, an air controller 6, and an air mixing device 7; the fuel gas pipeline control valve 3 is connected with the fuel gas storage bottle 1 and is used for controlling the gas transmission flow of the fuel gas storage bottle 1, and the fuel gas controller 5 is used for controlling the opening of the fuel gas pipeline control valve 3 according to the control terminal control instruction so as to adjust the gas transmission flow of the fuel gas storage bottle 1; the air pipeline control valve 4 is connected with the air compressor 2 and used for controlling the air delivery flow of the air compressor 2, and the air controller 6 is used for controlling the opening of the air pipeline control valve 4 according to the control terminal control instruction so as to adjust the air delivery flow of the air compressor 2; the gas mixing device is respectively connected with a fuel gas pipeline control valve 3 and an air pipeline control valve 4 and is used for mixing the received fuel gas and air and conveying the mixed gas to an oxygen content detection unit 8 through a gas distribution end gas transmission port.

As shown in fig. 1, the gas distribution system may include an oxygen content detection unit 8, a control terminal, and a gas distribution valve, wherein the oxygen content detection unit 8 is connected to a gas transmission port of a gas distribution end of the gas distribution system, and detects whether an oxygen content of a mixed gas transmitted by the gas distribution end meets a set value. According to the detection result of the oxygen content detection unit 8, under the condition that the oxygen content of the mixed gas does not accord with the set value, the mixed gas currently conveyed by the gas distribution end is judged to be substandard gas, and the flow parameters of the fuel gas and the air conveyed by the gas distribution end are respectively adjusted until the oxygen content of the mixed gas obtained by mixing the fuel gas and the air accords with the set value.

According to the detection result of the oxygen content detection unit 8, under the condition that the oxygen content of the mixed gas delivered by the gas distribution end meets the set value, the control terminal judges that the mixed gas currently delivered by the gas distribution end is the gas up to the standard, and adjusts the state of the gas distribution valve 9 to control the conduction of a gas distribution outlet of the gas distribution valve 9, namely, the conduction of a pipeline between the gas distribution end and the gas using end is controlled, and the gas up to the standard is provided for the gas using end. And under the condition that the oxygen content of the mixed gas conveyed by the gas distribution end does not meet a set value, the control terminal judges that the mixed gas currently conveyed by the gas distribution end is a non-standard gas, and adjusts the state of the gas distribution valve to control the gas recovery outlet of the gas distribution valve 9 to be communicated so as to convey the non-standard gas to the recovery processing end.

Under the condition that the oxygen content does not meet the set value, respectively adjusting the parameters of the fuel gas delivery and the air flow delivered by the gas distribution end until the oxygen content meets the set value comprises the following steps:

under the condition that the oxygen content is higher than the set value, parameters of fuel gas delivery and air flow of the gas distribution end are respectively adjusted to increase the fuel gas flow and reduce the air flow until the oxygen content meets the set value; and

and in the case that the oxygen content is lower than the set value, adjusting parameters of fuel gas delivery and air flow of the gas distribution end respectively to reduce the fuel air flow and increase the air flow until the oxygen content meets the set value.

Exemplified with a formulation of 8.4% methane by volume in air:

starting an air compressor pipeline control valve 4, and starting an air compressor 2; opening a fuel gas pipeline control valve 3, and opening a fuel gas storage cylinder 1 (a methane gas cylinder with the gas purity volume of more than 98 percent is selected);

the fuel gas and the air respectively pass through the fuel controller 5 and the air controller 6 and then are mixed by the gas mixing device 7, the oxygen content detection unit 8 is used for measuring the mixed gas, when the volume of the mixed gas is 8.4 percent of methane in the air, the volume of the oxygen in the mixed gas is 19.236 percent, and the oxygen content measurement results have the following three conditions:

(1) if the oxygen content measurement result is higher than 19.236%, the control terminal modifies parameters of the fuel gas controller 5 and the air controller 6, increases the fuel gas flow, reduces the air flow until reaching 19.236%, during which, the gas distribution valve 9 (such as a three-way valve) closes the gas end passage, the gas recovery outlet of the gas distribution valve 9 is conducted to open the substandard gas treatment pipeline passage, and the substandard gas is sent to the treatment end; when the oxygen content measurement result reaches 19.236%, the gas distribution valve 9 closes the pipeline passage of the substandard gas treatment, and opens the gas end passage;

(2) the oxygen content measurement result is equal to 19.236%, the gas distribution valve 9 closes the gas treatment pipeline passage which does not reach the standard, and opens the gas end passage;

(3) when the oxygen content measurement result is lower than 19.236%, the control terminal modifies parameters of the fuel gas controller 5 and the air controller 6, reduces the fuel gas flow and increases the air flow until reaching 19.236%, during the period, the gas distribution valve 9 closes the gas end passage, the gas recovery outlet of the gas distribution valve 9 is communicated to open the substandard gas treatment pipeline passage, and the substandard gas is sent to the treatment end; when the oxygen content measurement result reaches 19.236%, the gas distribution valve 9 closes the gas treatment pipeline passage which does not reach the standard, and opens the gas end passage.

Fig. 2 shows a schematic diagram of a basic structure of a blowable air distribution system, as shown in fig. 2, the system may further include an air compressor control valve 12 and a fuel gas cylinder control valve 13, wherein a fuel gas pipeline connected to the fuel gas cylinder 1 is led out from an air pipeline at the air compressor 2, the air compressor control valve 12 is disposed on a connecting pipe between the air compressor 2 and the fuel gas cylinder 1 near an air compressor end, the fuel gas cylinder control valve 13 is disposed on a connecting pipe between the air compressor 2 and the fuel gas cylinder 1 near a fuel gas cylinder end, and the air compressor control valve 12 and the fuel gas cylinder control valve 13 are in a normally closed state. Under the condition that the gas end stops using gas, the control device controls the fuel gas storage cylinder 1 to stop conveying fuel gas, controls the normally closed air compressor control valve 12 and the fuel gas storage cylinder control valve 13 to be opened, namely, the fuel gas pipeline is connected and conducted with the air compressor, and controls the gas recovery outlet of the gas distribution valve 9 to be conducted, so that air conveyed by the air compressor comprehensively sweeps a gas distribution system, and residual mixed gas is swept to the recovery processing end.

Fig. 3 shows a schematic structural diagram of a gas distribution system according to an embodiment of the present invention, as shown in fig. 3, the gas distribution system has the above-mentioned oxygen content detection function and the above-mentioned purging function, specifically, during the use period of the gas distribution system, the oxygen content detection unit 8 detects whether the oxygen content of the mixed gas delivered by the gas delivery port of the gas distribution end meets a set value in real time, and the control terminal is configured to adjust flow parameters of the fuel gas and the air delivered by the gas distribution end respectively until the oxygen content meets the set value according to the detection result of the oxygen content detection unit 8 when the oxygen content of the mixed gas does not meet the set value, where the specific implementation manner is as follows:

starting an air compressor pipeline control valve 4, starting an air compressor 2, starting a fuel gas pipeline control valve 3 and starting a fuel gas storage cylinder 1;

after passing through the fuel controller 5 and the air controller 6, respectively, the gas and the air are mixed by the gas mixing device 7, the oxygen content detection unit 8 measures the mixed gas, and the oxygen content measurement results have the following three cases:

(1) if the oxygen content measurement result is higher than a set value (the oxygen content value obtained after the volume conversion of the fuel gas, hereinafter referred to as the set value for short), the control terminal modifies parameters of the fuel gas controller 5 and the air controller 6, increases the fuel gas flow, reduces the air flow until the oxygen content measurement result reaches the set value, during the period, the gas distribution valve 9 closes the gas end passage, the gas recovery outlet of the gas distribution valve 9 is conducted to open the substandard gas treatment pipeline passage, and the substandard gas is sent to the treatment end; when the oxygen content measurement result reaches a set value, the gas distribution valve 9 closes the gas treatment pipeline passage which does not reach the standard, and opens the gas end passage;

(2) when the oxygen content measurement result is equal to a set value, the gas distribution valve 9 closes the gas treatment pipeline passage which does not reach the standard, and opens the gas end passage;

(3) if the oxygen content measurement result is lower than the set value, the control terminal modifies parameters of the fuel gas controller 5 and the air controller 6, reduces the fuel gas flow and increases the air flow until the oxygen content measurement result reaches the set value, during the period, the gas distribution valve 9 closes the gas end passage, the gas recovery outlet of the gas distribution valve 9 is communicated to open the gas treatment pipeline passage which does not reach the standard, the gas which does not reach the standard is sent to the treatment end, and the gas end passage is closed; when the oxygen content measurement result reaches a set value, the gas distribution valve 9 closes the gas treatment pipeline passage which does not reach the standard, and opens the gas end passage.

A connecting pipe is led out from an air pipeline at the air distribution end to be connected with a fuel gas pipeline, an air compressor control valve 12 and a fuel gas storage cylinder control valve 13 are arranged on the connecting pipe, under the condition that the air end stops using air, a control device controls the fuel gas storage cylinder 1 to stop conveying fuel gas, the normally closed air compressor control valve 12 and the fuel gas storage cylinder control valve 13 are controlled to be opened, namely, the fuel gas pipeline is connected and conducted with the air compressor, and a gas recovery outlet of a gas distribution valve 9 is controlled to be conducted, so that air conveyed by the air compressor comprehensively sweeps the air distribution system, and residual mixed gas is swept to a recovery processing end.

As shown in fig. 3, the system may further comprise a flame arrester 10 and a press 11, wherein the flame arrester 10 may be disposed between the distribution valve 9 and the gas end to prevent safety accidents caused by backfiring of the gas end and reduce loss and casualties. This pressure gauge 11 can set up the distribution valve with between the gas end, can show the true pressure of distribution system after a series of processes, look up when being convenient for use gas, prevent because with too big a series of unnecessary troubles and accidents that cause of gas end pressure difference.

The embodiment of the invention also provides a gas distribution method, and specifically, in the using process of the gas distribution system, whether the oxygen content of the mixed gas conveyed by the gas distribution end meets a set value is detected in real time, and according to the detection result, under the condition that the oxygen content of the mixed gas does not meet the set value, the flow parameters of the fuel gas and the air conveyed by the gas distribution end are respectively adjusted until the oxygen content meets the set value. Wherein, when the oxygen content does not meet the set value, adjusting the parameters of the fuel gas delivery and the air flow delivered by the gas distribution end respectively until the oxygen content meets the set value comprises: under the condition that the oxygen content is higher than the set value, parameters of fuel gas delivery and air flow of the gas distribution end are respectively adjusted to increase the fuel gas flow and reduce the air flow until the oxygen content meets the set value; and under the condition that the oxygen content is lower than the set value, adjusting parameters of fuel gas delivery and air flow of the gas distribution end respectively to reduce the fuel air flow and increase the air flow until the oxygen content meets the set value. The gas distribution can be performed according to the detection result, wherein, when the oxygen content of the mixed gas does not meet the set value, the gas recovery outlet of the gas distribution valve 9 is controlled to be communicated to convey the gas which does not reach the standard to the recovery processing end, and when the oxygen content meets the set value, the gas distribution outlet of the gas distribution valve 9 is controlled to be communicated to convey the gas which reaches the standard to the gas using end.

The gas distribution method can also carry out flow distribution according to the gas using state of the gas using end, wherein under the condition that the gas using end stops using gas, the fuel gas storage cylinder 1 is controlled to stop conveying fuel gas, the fuel gas storage cylinder control valve 13 and the air compressor control valve 12 are controlled to be opened, and the gas recovery outlet of the gas distribution valve 9 is controlled to be conducted so that residual gas in a gas distribution end pipeline is conveyed to a recovery processing end by air conveyed by the air compressor 2, so that the gas distribution system is completely purged. Can also prevent the incident that causes with the gas end tempering through the spark arrester 10 of setting between distribution valve 9 and with the gas end, reduce loss and casualties, according to the setting at the distribution valve 9 with show the real pressure of distribution system after a series of processes with pressure gauge 11 between the gas end, look up when being convenient for with gas, prevent because too big a series of unnecessary troubles and accidents that cause with gas end pressure difference.

Although the embodiments of the present invention have been described in detail with reference to the accompanying drawings, the embodiments of the present invention are not limited to the details of the above embodiments, and various simple modifications can be made to the technical solutions of the embodiments of the present invention within the technical idea of the embodiments of the present invention, and the simple modifications all belong to the protection scope of the embodiments of the present invention.

It should be noted that the various features described in the above embodiments may be combined in any suitable manner without departing from the scope of the invention. In order to avoid unnecessary repetition, the embodiments of the present invention do not describe every possible combination.

Those skilled in the art will understand that all or part of the steps in the method according to the above embodiments may be implemented by a program, which is stored in a storage medium and includes several instructions to enable a single chip, a chip, or a processor (processor) to execute all or part of the steps in the method according to the embodiments of the present application. And the aforementioned storage medium includes: a U-disk, a removable hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk or an optical disk, and other various media capable of storing program codes.

In addition, any combination of various different implementation manners of the embodiments of the present invention is also possible, and the embodiments of the present invention should be considered as disclosed in the embodiments of the present invention as long as the combination does not depart from the spirit of the embodiments of the present invention.

Claims (14)

1. A gas distribution system, the system comprising:

the oxygen content detection unit is connected with a gas transmission port of a gas distribution end of the gas distribution system and used for detecting whether the oxygen content of the mixed gas transmitted by the gas distribution end meets a set value or not;

the control terminal is used for respectively adjusting the flow parameters of the fuel gas and the air delivered by the air distribution end until the oxygen content accords with the set value under the condition that the oxygen content does not accord with the set value according to the detection result of the oxygen content detection unit; and

and the gas distribution valve is arranged between the gas transmission port and the gas using port of the gas distribution end and used for controlling the on-off of the gas distribution pipeline.

2. The system of claim 1, wherein the control terminal is further configured to control the gas distribution valve to distribute the gas according to a detection result of the oxygen content detection unit;

the control terminal is further used for controlling the gas recovery outlet of the gas distribution valve to be communicated to convey the gas which does not reach the standard to the recovery processing end under the condition that the oxygen content does not meet the set value, and controlling the gas distribution outlet of the gas distribution valve to be communicated to convey the gas which reaches the standard to the gas using end under the condition that the oxygen content meets the set value.

3. The system of claim 1, wherein the gas distribution end comprises:

a fuel gas cylinder;

the fuel gas pipeline control valve is connected with the fuel gas storage cylinder and is used for controlling the gas transmission flow of the fuel gas storage cylinder;

the fuel gas controller is used for controlling the opening of the fuel gas pipeline control valve according to the control terminal control instruction so as to adjust the gas transmission flow of the fuel gas storage bottle;

an air compressor;

the air pipeline control valve is connected with the air compressor and used for controlling the air transmission flow of the air compressor;

the air controller is used for controlling the opening of the air pipeline control valve according to the control terminal control instruction so as to adjust the air delivery flow of the air compressor; and

and the gas mixing device is respectively connected with the fuel gas pipeline control valve and the air pipeline control valve and is used for mixing the received fuel gas and the received air and conveying the mixed gas to the oxygen content detection unit through the gas distribution end gas transmission port.

4. The system of claim 3, wherein the gas distribution end further comprises:

the fuel gas storage cylinder control valve is arranged on a connecting pipe between the fuel gas storage cylinder and the air compressor and is in a normally closed state; and

the air compressor control valve is arranged on a connecting pipe between the fuel gas storage cylinder and the air compressor and is in a normally closed state;

the gas distribution valve is further used for shunting gas according to the gas end gas using state, the control terminal controls the fuel gas storage cylinder to stop conveying fuel gas under the condition that the gas end stops using gas, controls the fuel gas storage cylinder control valve and the air compressor control valve to be opened, and controls the gas recovery outlet of the gas distribution valve to be conducted so that air conveyed by the air compressor can convey residual gas in a gas distribution end pipeline to the recovery processing end.

5. The system of claim 1, wherein in the event that the oxygen content does not meet the set point, adjusting the gas distribution end delivery fuel gas and air flow parameters, respectively, until the oxygen content meets the set point comprises:

under the condition that the oxygen content is higher than the set value, parameters of fuel gas delivery and air flow of the gas distribution end are respectively adjusted to increase the fuel gas flow and reduce the air flow until the oxygen content meets the set value; and

and in the case that the oxygen content is lower than the set value, adjusting parameters of fuel gas delivery and air flow of the gas distribution end respectively to reduce the fuel air flow and increase the air flow until the oxygen content meets the set value.

6. The system of claim 1, further comprising:

and the flame arrester is arranged between the gas distribution valve and the gas using end and is used for preventing the gas using end from backfire.

7. The system of claim 1, further comprising:

and the press machine is arranged between the gas distribution valve and the gas using end and is used for detecting and displaying the gas pressure of the gas distribution pipeline.

8. A method of distributing gas, the method comprising:

detecting whether the oxygen content of the mixed gas conveyed by the gas distribution end meets a set value or not;

according to the detection result, under the condition that the oxygen content does not accord with the set value, flow parameters of fuel gas and air delivered by the air distribution end are respectively adjusted until the oxygen content accords with the set value; and

and adjusting the valve state of the gas distribution valve to control the on-off of the gas distribution pipeline, wherein the gas distribution valve is arranged between the gas transmission port and the gas using end of the gas distribution end.

9. The method of claim 8, further comprising:

shunting according to the detection result;

and under the condition that the oxygen content does not accord with the set value, controlling the gas recovery outlet of the gas distribution valve to be communicated so as to convey the substandard gas to a recovery processing end, and under the condition that the oxygen content accords with the set value, controlling the gas distribution outlet of the gas distribution valve to be communicated so as to convey the substandard gas to a gas using end.

10. The method of claim 8, wherein the gas distribution end comprises:

a fuel gas cylinder;

the fuel gas pipeline control valve is connected with the fuel gas storage cylinder and is used for controlling the gas transmission flow of the fuel gas storage cylinder;

the fuel gas controller is used for controlling the opening of the fuel gas pipeline control valve according to the control terminal control instruction so as to adjust the gas transmission flow of the fuel gas storage bottle;

an air compressor;

the air pipeline control valve is connected with the air compressor and used for controlling the air transmission flow of the air compressor;

the air controller is used for controlling the opening of the air pipeline control valve according to the control terminal control instruction so as to adjust the air delivery flow of the air compressor; and

and the gas mixing device is respectively connected with the fuel gas pipeline control valve and the air pipeline control valve and is used for mixing the received fuel gas and the air and conveying the mixed gas to the detection end through the gas distribution end gas transmission port to detect the oxygen content condition of the mixed gas.

11. The method of claim 10, further comprising:

shunting according to the gas using state of a gas using end;

the method comprises the steps of controlling a fuel gas storage cylinder to stop conveying fuel gas, controlling a fuel gas storage cylinder control valve and an air compressor control valve to open under the condition that gas supply is stopped at a gas supply end, controlling a gas recovery outlet of a gas distribution valve to be conducted so that residual gas in a gas distribution end pipeline is conveyed to a recovery processing end by air conveyed by the air compressor, setting the fuel gas storage cylinder control valve on a connecting pipe of the fuel gas storage cylinder and the air compressor and being in a normally closed state, and setting the air compressor control valve on a connecting pipe of the fuel gas storage cylinder and the air compressor and being in a normally closed state.

12. The method of claim 8, wherein in the event that the oxygen content does not meet the set point, adjusting the port fuel gas delivery and air flow parameters, respectively, until the oxygen content meets the set point comprises:

under the condition that the oxygen content is higher than the set value, parameters of fuel gas delivery and air flow of the gas distribution end are respectively adjusted to increase the fuel gas flow and reduce the air flow until the oxygen content meets the set value; and

and in the case that the oxygen content is lower than the set value, adjusting parameters of fuel gas delivery and air flow of the gas distribution end respectively to reduce the fuel air flow and increase the air flow until the oxygen content meets the set value.

13. The method of claim 8, further comprising:

flashback at the gas using end is prevented by a flame arrestor disposed between the gas distribution valve and the gas using end.

14. The method of claim 8, further comprising:

and detecting and displaying the gas pressure of the gas distribution pipeline through a pressure gauge, wherein the pressure gauge is arranged between the gas distribution valve and the gas using end.

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