CN206945653U - Air automatic monitoring device - Google Patents

Abstract

The disclosure is directed to a kind of air automatic monitoring device, it is characterised in that including：Detect cabin, control panel, gas sensor and baroceptor；The detection cabin is arranged on detection scene, and gas sample to be detected is obtained at the detection scene for the instruction according to the control panel；The gas sensor is arranged in the detection cabin, for detecting the detection cabin composition of gases within and its concentration value；The baroceptor is arranged in the pipeline of transmission gas, for detecting the pressure value in the pipeline；The control panel communicates to connect with detection cabin, the gas sensor and the baroceptor, for controlling the detection cabin, the gas sensor, the baroceptor to carry out corresponding actions according to control instruction.The disclosure can realize the real-time detection for store interior gas componant, on the premise of it ensure that storekeeper personnel's health of human body, improve accuracy of detection, and automaticity.

Description

Air automatic monitoring device

Technical field

This disclosure relates to detection technique field, more particularly to a kind of air automatic monitoring device.

Background technology

Grain cabin storage at present mainly takes two kinds of measures for the prevention of insect pest, when recirculation fumigation, second, nitrogen charging controlled atmosphere. During recirculation fumigation, only hydrogen phosphide reaches respective concentration, can just play a part of insect killing and preventing；To ensure two simultaneously The respective concentration that carbonoxide has the function that plays fire-retardant, explosion-proof., it is necessary to which understanding nitrogen is dense in real time during inflated with nitrogen is adjusted Degree, so as to ensure that concentration is up to standard and then desinsection, while stop nitrogen conveying after nitrogen gas concn is up to standard.In order to obtain above gas Concentration value, traditional mode are generally cabin administrative staff wearing correlative protection apparatus and examined into cabin using handheld instrument Survey or the detection pipeline by being drawn from cabin is detected one by one using handheld instrument.

Following three aspect be present in traditional approach：First, potential body harm be present to storekeeper personnel；Second, collection Frequency can not ensure and inefficient；Third, detection gas with various needs to use different handheld instruments.Therefore, design one kind is replaced In generation, is artificial and the air automatic monitoring device of energy efficient operation is necessary.

Utility model content

In view of this, can be with cheap cost and outstanding effect the present disclosure proposes a kind of air automatic monitoring device Fruit solves above-mentioned technical problem.

In order to achieve the above object, technical scheme is used by the disclosure：

According to the one side of the embodiment of the present disclosure, it is proposed that a kind of air automatic monitoring device, it is characterised in that including： Detect cabin, control panel, gas sensor and baroceptor；The detection cabin is arranged on detection scene, for according to the control The instruction of making sheet obtains gas sample to be detected at the detection scene；The gas sensor is arranged on the detection cabin It is interior, for detecting the detection cabin composition of gases within and its concentration value；The baroceptor is arranged on the pipeline of transmission gas In, for detecting the pressure value in the pipeline；The control panel and detection cabin, the gas sensor and the gas Pressure sensor communicates to connect, for controlling the detection cabin, the gas sensor, the baroceptor according to control instruction Carry out corresponding actions.

Further, the gas sensor is included in oxygen sensor, carbon dioxide sensor, phosphatization hydrogen sensor It is one or more.

Further, the baroceptor is one or more, is arranged in the pipeline of each gas transport.

Further, when the pressure value exceeds preset standard value, the baroceptor passes pressure abnormity signal Pass the control panel, the control panel stops the air automatic monitoring device according to the pressure abnormity signal, and by institute State pressure abnormity signal and feed back to host computer.

Further, in addition to aspiration pump, the aspiration pump are arranged between the detection cabin and the baroceptor Pipeline on, for according to the instruction of the control panel extract gas sample.

Further, in addition to filter, the filter are arranged between the baroceptor and the aspiration pump Pipeline on, for filtering the gas sample.

Further, in addition at least one intake valve, the intake valve are arranged on the baroceptor and air inlet Between, for controlling the opening and closing of admission line.

Further, in addition to scavenging air valve, the scavenging air valve are arranged between the baroceptor and air inlet, are used for Control the opening and closing of air refreshing tube.

Further, the control panel is provided with the one or more in wired serial line interface or Ethernet interface.

The technical scheme provided by this disclosed embodiment can include the following benefits：

The disclosure can be such that storekeeper personnel are detected without entering store interior to the gas componant in warehouse, using certainly The detection means of dynamicization, it is possible to achieve the real-time detection for store interior gas componant, ensure that the storekeeper personnel person is strong On the premise of health, accuracy of detection, and automaticity are improved.The working strength of storekeeper personnel is effectively reduced, is improved Detection efficiency.

It should be appreciated that the general description and following detailed description of the above are only exemplary and explanatory, not The disclosure can be limited.

Brief description of the drawings

Accompanying drawing herein is merged in specification and forms the part of this specification, shows the implementation for meeting the disclosure Example, and be used to together with specification to explain the principle of the disclosure.

Fig. 1 is a kind of system schematic of air automatic monitoring device according to an exemplary embodiment；

Fig. 2 is a kind of principle schematic of air automatic monitoring device according to another exemplary embodiment.

Reference：

1st, oxygen sensor, 2, carbon dioxide sensor, 3, phosphatization hydrogen sensor, 4, baroceptor, 5, control panel, 6, Aspiration pump, 7, intake valve 1,8, intake valve 2,9, intake valve 3,10, intake valve 4,11, intake valve 5,12, scavenging air valve, 13, air inlet Valve X, 14, filter, 15, detection cabin.

Embodiment

The disclosure is described in detail below with reference to embodiment shown in the drawings.But these embodiments are simultaneously The disclosure is not limited, structure that one of ordinary skill in the art is made according to these embodiments, method or functionally Conversion is all contained in the protection domain of the disclosure.

It is only merely for the purpose of description specific embodiment in the term that the disclosure uses, and is not intended to be limiting the disclosure. " one kind " of singulative used in disclosure and the accompanying claims book, " described " and "the" are also intended to including majority Form, unless context clearly shows that other implications.It is also understood that term "and/or" used herein refers to and wrapped Containing the associated list items purpose of one or more, any or all may be combined.In all figures of the drawings, identical part uses Identical label, is subsequently repeated no more.

As shown in figure 1, Fig. 1 is a kind of system signal of air automatic monitoring device according to an exemplary embodiment Figure, including：Detect cabin 15, control panel 5, gas sensor and baroceptor 4；The detection cabin 15 is arranged on detection scene, For the instruction according to the control panel 5 gas sample to be detected is obtained at the detection scene；The gas sensor is set Put in the detection cabin 15, for detecting the detection composition of gases within of cabin 15 and its concentration value；The baroceptor 4 is set Put in the pipeline of transmission gas, for detecting the pressure value in the pipeline；The control panel 5 and the detection cabin 15, institute State gas sensor and the baroceptor 4 communicates to connect, for controlling the detection cabin, the gas sensor, institute State baroceptor and corresponding actions are carried out according to control instruction.

In embodiment of the disclosure, reply can not detect various gas in silo automatically, in real time in the prior art A kind of the problem of concentration of body, it is proposed that brand-new air automatic monitoring device.By being arranged on detection scene, such as silo Detection cabin that is interior, or being connected to by pipeline in silo, using detecting the gas sensor set in cabin to being drawn into detection Gas sample in cabin is detected, so as to analyze the concentration value of wherein various gases.Utilize such full automatic mode Avoiding needs persons wear's protector to enter the drawbacks of silo detects in traditional detection means.

Further, the gas sensor includes oxygen sensor 1, carbon dioxide sensor 2, phosphatization hydrogen sensor 3 In one or more.

In embodiment of the disclosure, as shown in figure 1, the gas sensor being arranged in detection cabin 15 includes oxygen sensor One or more in device 1, carbon dioxide sensor 2, phosphatization hydrogen sensor 3, each sensor can work independently.In response to upper The manipulation instruction of position machine, can individually detect the concentration of oxygen, carbon dioxide, hydrogen phosphide, can also once carry out multiple concentration Detection.

Further, the baroceptor 4 is one or more, is arranged in the pipeline of each gas transport.

In embodiment of the disclosure, as shown in figure 1, baroceptor 4 can be arranged on each intake valve and scavenging air valve pipe On the total pipeline that road collects, naturally it is also possible to be separately positioned on the lateral where each intake valve and scavenging air valve.Air pressure Sensor 4 is used for the pipeline pressure of pipeline where detecting.

Further, when the pressure value exceeds preset standard value, the baroceptor 4 passes pressure abnormity signal The control panel 5 is passed, the control panel 5 stops the air automatic monitoring device according to the pressure abnormity signal, and will The pressure abnormity signal feeds back to host computer.

In embodiment of the disclosure, normal barometric pressure value in a pipeline can be typically set, when baroceptor 4 detects Pressure value exceed the pipeline normal barometric pressure value when, a pressure abnormity signal can be produced, control panel 5 receives pressure abnormity After signal, stop the work of the air automatic monitoring device in the disclosure, while the pressure abnormity signal is fed back into host computer.

Pressure abnormity alarm is not only carried in the pressure abnormity signal, also carries the gas for producing pressure abnormity position The identity identification information (i.e. id information) of pressure sensor 4.After host computer receives the pressure abnormity signal, can therefrom it decode The id information, so that it is determined that being specifically conveniently to navigate to abnormity point in time there occurs exception on which circuit.

Further, in addition to aspiration pump 6, the aspiration pump 6 are arranged on the detection cabin 15 and the baroceptor 4 Between pipeline on, for according to the instruction of the control panel 5 extract gas sample.

In embodiment of the disclosure, control panel 5 controls aspiration pump 6 to work, and gas is pumped into inspection by each intake valve Survey in cabin 15.

Further, in addition to filter 14, the filter 14 are arranged on the baroceptor 4 and the aspiration pump On pipeline between 6, for filtering the gas sample.

In embodiment of the disclosure, gas sample passes through during detection cabin 15 is drawn into from detection scene Filter 14, some impurity for the influence measurement that filter 14 is used to filter out in gas sample, so that it is guaranteed that in detection cabin 15 The spatter property of the gas sample of middle detection.

Further, in addition at least one intake valve, the intake valve are arranged on the baroceptor 4 and air inlet Between, for controlling the opening and closing of admission line.

Further, in addition to scavenging air valve 12, the scavenging air valve 12 are arranged between the baroceptor and air inlet, For controlling the opening and closing of air refreshing tube.

In embodiment of the disclosure, as shown in figure 1, intake valve 1- intake valves X is connected with respective air inlet respectively, Admission line where control, air inlet opening is at detection scene.Equally, scavenging air valve 12 is also connected with ventilation mouth, is changed where control Feed channel, ventilation mouth opening is at detection scene.Intake valve 1-X, scavenging air valve 12 are magnetic valve.Intake valve 1-X, scavenging air valve 12, Detection cabin 15, aspiration pump 6, baroceptor 4 communicate to connect with control panel 5 respectively.Intake valve 1-X, scavenging air valve 12 are controlled The control of plate 5, the opening and closing of pipeline where coordinating the control of aspiration pump 6.

Further, the control panel 5 is provided with the one or more in wired serial line interface or Ethernet interface.

In embodiment of the disclosure, control panel 5 is communicated using MODBUS, can be connect by serial line interface or Ethernet interface Enter network, real-time operation is carried out by host computer.Communication channel is established using MODBUS Transmission Control Protocol and then is incorporated to LAN, from And realize the real-time transmission related command in LAN and effectively gather related data.Control panel 5 is obtained by host computer and operated Instruction, each part is controlled to cooperate.

As depicted in figs. 1 and 2, the implementation process of the disclosure is as follows：

Host computer detects certain pipeline certain gas by being sent with the serial line interface or Ethernet interface of control panel 5 as desired The instruction of body is to control panel 5, and control panel 5 is according to the intake valve 1 of order-driven pipeline 1, the intake valve 2 of pipeline 2, the intake valve 3 of pipeline 3, The intake valve 4 of pipeline 4, the intake valve 5 of pipeline 5, pipeline X intake valves X are opened, and after corresponding intake valve is opened, control panel 5 starts aspiration pump 6 extract associated conduit gas, and gas enters detection cabin 15 after the processing of filter 14, detects the oxygen sensor of arrangement in cabin 15 Device 1, carbon dioxide sensor 2, phosphatization hydrogen sensor 3 send the data sensed to control panel 5, and control panel 5 is by processing Associated gas concentration values are fed back to related data by the serial line interface or Ethernet interface of control panel 5 with after calculating Position machine.Specifically, oxygen sensor 1, carbon dioxide sensor 2, phosphatization hydrogen sensor 3 can calculate the dense of oxygen respectively Number of degrees value (i.e. oxygen volume fraction percent shared in gas sample), concentration values (the i.e. carbon dioxide of carbon dioxide The shared volume fraction percent in gas sample) and the concentration values of hydrogen phosphide (i.e. hydrogen phosphide is shared by gas sample Volume fraction percent), and utilize nitrogen gas concn numerical value=100%- oxygen concentrations numerical value-gas concentration lwevel numerical value, meter Calculate nitrogen gas concn numerical value.Therefore, when host computer needs nitrogen gas concn, oxygen sensor 1 is opened simultaneously, carbon dioxide passes Sensor 2 carrys out gathered data, and the concentration values of nitrogen are conversed using the conversion relation of the above.Host computer is sent after receiving data Ventilation instruction unpack scavenging air valve 12, sends gas sample inside warehouse back to while gathering fresh air.And it is possible to pass through gas Pressure sensor 4 monitors pipeline pressure, and arresting stop works and fault message is fed back into host computer if pressure is exceeded.

Those skilled in the art will readily occur to the disclosure its after considering specification and putting into practice disclosure disclosed herein Its embodiment.The application is intended to any modification, purposes or the adaptations of the disclosure, these modifications, purposes or Person's adaptations follow the general principle of the disclosure and including the undocumented common knowledges in the art of the disclosure Or conventional techniques.Description and embodiments are considered only as exemplary, and the true scope of the disclosure and spirit are by the application Claim point out.

It should be appreciated that the precision architecture that the disclosure is not limited to be described above and is shown in the drawings, and And various modifications and changes can be being carried out without departing from the scope.The scope of the present disclosure is only limited by appended claim.

Claims (9)

1. A kind of 1. air automatic monitoring device, it is characterised in that including：Detect cabin, control panel, gas sensor and air pressure sensing Device；

   The cabin of detecting is arranged on detection scene, to be detected in detection scene acquisition for the instruction according to the control panel Gas sample；

   The gas sensor is arranged in the detection cabin, for detecting the detection cabin composition of gases within and its concentration value；

   The baroceptor is arranged in the pipeline of transmission gas, for detecting the pressure value in the pipeline；

   The control panel communicates to connect with detection cabin, the gas sensor and the baroceptor, for controlling The detection cabin, the gas sensor, the baroceptor carry out corresponding actions according to control instruction.
2. 2. air automatic monitoring device according to claim 1, it is characterised in that the gas sensor passes including oxygen One or more in sensor, carbon dioxide sensor, phosphatization hydrogen sensor.
3. 3. air automatic monitoring device according to claim 1, it is characterised in that the baroceptor be one or It is multiple, it is arranged in the pipeline of each gas transport.
4. 4. air automatic monitoring device according to claim 3, it is characterised in that when the pressure value exceeds preset standard During value, pressure abnormity signal is passed to the control panel by the baroceptor, and the control panel is according to the pressure abnormity Signal stops the air automatic monitoring device, and the pressure abnormity signal is fed back into host computer.
5. 5. air automatic monitoring device according to claim 1, it is characterised in that also including aspiration pump, the aspiration pump It is arranged on the pipeline between the detection cabin and the baroceptor, for extracting gas according to the instruction of the control panel Sample.
6. 6. air automatic monitoring device according to claim 5, it is characterised in that also including filter, the filter It is arranged on the pipeline between the baroceptor and the aspiration pump, for filtering the gas sample.
7. 7. air automatic monitoring device according to claim 1, it is characterised in that also including at least one intake valve, institute State intake valve to be arranged between the baroceptor and air inlet, for controlling the opening and closing of admission line.
8. 8. air automatic monitoring device according to claim 1, it is characterised in that also including scavenging air valve, the scavenging air valve It is arranged between the baroceptor and air inlet, for controlling the opening and closing of air refreshing tube.
9. 9. air automatic monitoring device according to claim 1, it is characterised in that the control panel is provided with wired string One or more in line interface or Ethernet interface.