CN210108945U - Laboratory environment remote monitoring purifier - Google Patents

Abstract

The utility model discloses a laboratory environment remote monitoring and purifying device, which comprises a monitoring host computer, a gas collecting and detecting device, a gas purifying device and a fan control device, wherein the monitoring host computer is used for facilitating the operation and the checking of field workers, the gas collecting and detecting device is used for collecting and detecting field gas, the gas purifying device is used for purifying the field gas, and the fan control device is used for controlling the start and the stop of a field fan; the monitoring host is respectively connected with the gas acquisition and detection device, the gas purification device and the fan control device in a 433M wireless communication mode, the gas acquisition and detection device transmits the field gas acquisition and detection condition to the monitoring host, and the monitoring host controls the gas purification device and the fan control device to work according to the field gas acquisition and detection condition; the fan control device is connected with the fan. The utility model discloses not only can the purpose of remote monitoring laboratory environment, can realize the purpose to laboratory environment real-time supervision purification moreover.

Description

Laboratory environment remote monitoring purifier

Technical Field

The utility model relates to a laboratory environment processing apparatus, more specifically say, relate to a laboratory environment remote monitoring purifier.

Background

The laboratory is the place that people carried out various experiments, and people can produce all kinds of gases often in the in-process of carrying out the experiment, and among these gases, some gas are harmful to the human body, or can cause the damage to the laboratory apparatus, consequently need handle the discharge to the gas in the laboratory to supply fresh air from the outside, ensure that the air circumstance in laboratory can not cause the influence to the health of human body or laboratory apparatus, consequently it is necessary to monitor and purify the environment in laboratory.

Disclosure of Invention

1. Technical problem to be solved by the utility model

An object of the utility model is to overcome foretell not enough, provide a laboratory environment remote monitoring purifier, adopt the technical scheme of the utility model, simple structure, it is convenient to connect, not only can the purpose of remote monitoring laboratory environment, can realize the purpose of laboratory environment real-time supervision purification moreover.

2. Technical scheme

In order to achieve the above purpose, the utility model provides a technical scheme does:

the utility model discloses a laboratory environment remote monitoring purifier, including the monitoring host computer that is used for making things convenient for the operation of site work personnel and looks over, be used for to the gaseous gas acquisition detection device that gathers the detection of scene, be used for carrying out the gaseous purifier that purifies to the scene and be used for controlling the fan controlling means that the scene fan opened and shut down, monitoring host computer and client terminal between be connected through the mode of GPRS wireless communication to look over laboratory environment state in real time through client terminal; the monitoring host is respectively connected with the gas acquisition and detection device, the gas purification device and the fan control device in a 433M wireless communication mode, the gas acquisition and detection device transmits the field gas acquisition and detection condition to the monitoring host, and the monitoring host controls the gas purification device and the fan control device to work according to the field gas acquisition and detection condition; the fan control device is connected with the fan.

Further, the monitoring host computer include first casing, first casing inside be provided with 433M wireless communication module, data processor, GPRS wireless communication module, power module, voice broadcast device, human infrared induction system and operation display screen, power module be connected with the data processor electricity, the data processor is connected with 433M wireless communication module, human infrared induction system, GPRS wireless communication module and operation display screen electricity respectively, human infrared induction system is connected with the voice broadcast device electricity, 433M wireless communication module's output and first antenna electrical connection.

Further, gaseous detection device that gathers include the second casing and locate infrared multicomponent gas detection sensor, 433M wireless communication module, lithium cell module, power module, signal acquisition processing module, the gaseous pump of gathering in the second casing, power module pass through lithium cell module and signal acquisition processing module electricity and be connected, signal acquisition processing module respectively with 433M wireless communication module, gaseous pump of gathering, infrared multicomponent gas detection sensor electricity is connected, 433M wireless communication module's output and second antenna electricity are connected, the air inlet of gaseous pump of gathering communicates with the air inlet on the second casing, the air inlet of infrared multicomponent gas detection sensor is connected with the gas outlet of gaseous pump of gathering, the gas outlet of infrared multicomponent gas detection sensor communicates with the gas outlet on the second casing.

Furthermore, the fan control device comprises a third casing, a power supply module, a miniature relay control module, a 433M wireless communication module and a signal processor, wherein the power supply module, the miniature relay control module, the 433M wireless communication module and the signal processor are arranged in the third casing, the power supply module is electrically connected with the signal processor, the signal processor is respectively connected with the 433M wireless communication module and the miniature relay control module, the output end of the 433M wireless communication module is electrically connected with a third antenna, and the miniature relay control module is connected with the fan.

Furthermore, the gas purification device comprises a shell, universal wheels are mounted at four corners of the bottom of the shell, a water tank, a gas purification tank, an air pump, a 433M wireless communication module, a power module and a signal processor are arranged in the shell, the power module is electrically connected with the signal processor, the signal processor is respectively electrically connected with the 433M wireless communication module and the air pump, and the output end of the 433M wireless communication module is electrically connected with a fourth antenna; the air inlet of the air pump is communicated with the air inlet on the shell, one path of air outlet of the air pump is connected with the air inlet on the top of the air purifying tank, the adsorbent is arranged in the air purifying tank, and the air outlet on the bottom of the air purifying tank is communicated with the air outlet on the bottom wall of the shell; and the other path of air outlet of the air pump is communicated with a bubbled stone arranged in the water tank, a water outlet at the lower part of the water tank is communicated with a water outlet on the side wall of the shell, and an air outlet at the upper part of the water tank is communicated with an air outlet on the side wall of the shell.

3. Advantageous effects

Adopt the technical scheme provided by the utility model, compare with existing well-known technique, have following beneficial effect:

(1) the utility model discloses a laboratory environment remote monitoring purifier, it uses gas collection detection device to detect laboratory environment, realize laboratory environment real-time supervision's purpose, gas collection detection device sends the testing result to the monitoring host computer through the mode of 433M wireless communication, the monitoring host computer controls whether gas purification device carries out air purification work or/and control fan controlling means opens and stops the fan through the mode of 433M wireless communication according to the testing result of gas collection detection device, realize laboratory environment real-time monitoring and purification's purpose, connect through the mode of GPRS wireless communication between monitoring host computer and the client terminal, so that the user looks over laboratory environment state in real time through the client terminal, realize remote monitoring's purpose;

(2) the utility model discloses a laboratory environment remote monitoring purifier, the monitoring host computer of which has simple structure and convenient connection, a power supply module is used for supplying power, a 433M wireless communication module is used for realizing the purpose of wireless connection with a gas collection and detection device, a gas purification device and a fan control device, a GPRS wireless communication module is used for realizing the purpose of wireless connection with a client terminal, an operation display screen is used for carrying out parameter setting on the gas purification device, the fan control device and the gas collection and detection device and for collecting and displaying the state data of the gas purification device, the fan control device and the gas collection and detection device, a human body infrared sensing device is used for sensing whether a person is present so as to control whether the operation display screen is in a screen protection state or not, the voice broadcasting device is used for broadcasting an alarm in a voice mode when the gas collecting and detecting device collects that the environmental gas in the laboratory exceeds the standard and broadcasting the current environmental state in the laboratory when the human body infrared sensing device senses a person;

(3) the utility model discloses a laboratory environment remote monitoring purifier, its gas collection detection device simple structure, it is convenient to connect, power module is used for supplying power, lithium cell module is used for realizing the purpose that the operating condition of normal time also can be kept in the scene of no working power supply, the gas collection pump is used for initiatively inhaling laboratory environment gas, infrared multicomponent gas detection sensor adopts infrared spectrum principle technique, laboratory environment gas for inhaling the gas collection pump is detected, 433M wireless communication module is used for sending the result that infrared multicomponent gas detection sensor detected to the monitoring host computer through 433M wireless communication's mode;

(4) the utility model discloses a laboratory environment remote monitoring purifier, its fan controlling means simple structure, it is convenient to connect, the power module is used for supplying power, 433M wireless communication module is used for receiving the instruction that the monitoring host computer sent through 433M wireless communication's mode, miniature relay control module is used for opening and close the fan according to the instruction that the monitoring host computer sent, and the fan work can carry out an air replacement to the air in the laboratory;

(5) the utility model discloses a laboratory environment remote monitoring purifier, its gas purifier simple structure, it is convenient to connect, power module is used for supplying power, 433M wireless communication module is used for receiving the instruction that monitoring host computer sent through 433M wireless communication, the air pump is used for inhaling laboratory environment gas, and the air inlet of air pump communicates with the air inlet on the casing, the gas outlet all the way of air pump is connected with the air inlet on the gas purification jar top, be provided with the adsorbent in the gas purification jar, the gas outlet on gas purification jar bottom communicates with the gas outlet on the casing bottom wall, another way gas outlet of air pump communicates with the bubble stone that locates in the basin, the outlet of basin lower part communicates with the outlet on the casing lateral wall, the gas outlet on the basin upper portion communicates with the gas outlet on the casing lateral wall, one way after the air pump inhales laboratory environment gas filters the harmful gas through the adsorbent, one way is to filter and purify the poisonous and harmful gas by water dilution, thus reducing the harm of the poisonous and harmful gas to human body.

Drawings

FIG. 1 is a connection diagram of a laboratory environment remote monitoring and purifying device of the present invention;

FIG. 2 is a connection diagram of a monitoring host in the remote monitoring and purifying device for laboratory environment of the present invention;

FIG. 3 is a connection diagram of a gas collection and detection device in a laboratory environment remote monitoring and purification device of the present invention;

FIG. 4 is a connection diagram of a fan control device in the laboratory environment remote monitoring and purifying device of the present invention;

fig. 5 is the utility model discloses a gas purification device's connection relation picture among laboratory environment remote monitoring purifier.

Detailed Description

For a further understanding of the present invention, reference will be made to the following detailed description taken in conjunction with the accompanying drawings and examples.

Examples

With reference to fig. 1, the laboratory environment remote monitoring and purifying device of the embodiment includes a monitoring host for facilitating operation and checking by field workers, a gas collecting and detecting device for collecting and detecting field gas, a gas purifying device for purifying the field gas, and a fan control device for controlling start and stop of a field fan, wherein the monitoring host is connected with a client terminal in a GPRS wireless communication manner so as to check a laboratory environment state in real time through the client terminal; the monitoring host machine is respectively connected with the gas collecting and detecting device, the gas purifying device and the fan control device in a 433M wireless communication mode, the gas collecting and detecting device transmits the field gas collecting and detecting condition to the monitoring host machine, the monitoring host machine controls the gas purifying device and the fan control device to work according to the field gas collecting and detecting condition, the fan control device is connected with the fan, the gas collecting and detecting device is used for detecting the laboratory environment, the purpose of real-time monitoring of the laboratory environment is achieved, the gas collecting and detecting device transmits the detection result to the monitoring host machine in a 433M wireless communication mode, the monitoring host machine controls whether the gas purifying device performs air purifying work or/and controls the fan control device to start and stop the fan in a 433M wireless communication mode according to the detection result of the gas collecting and detecting device, and the purpose of real-time monitoring and purification of the laboratory environment is, the monitoring host is connected with the client terminal in a GPRS wireless communication mode, so that a user can check the environmental state of a laboratory in real time through the client terminal, and the purpose of remote monitoring is achieved;

continuing and combining with fig. 2, the monitoring host comprises a first shell, a 433M wireless communication module, a data processor, a GPRS wireless communication module, a power module, a voice broadcasting device, a human body infrared sensing device and an operation display screen are arranged in the first shell, a loudspeaker in the voice broadcasting device is over against a broadcasting hole on the first shell, a sensing head in the human body infrared sensing device is arranged in a hole on the first shell, and a display screen in the operation display screen is arranged on the first shell; the power supply module is electrically connected with the data processor, the data processor is respectively electrically connected with the 433M wireless communication module, the human body infrared sensing device, the GPRS wireless communication module and the operation display screen, the human body infrared sensing device is electrically connected with the voice broadcasting device, the output end of the 433M wireless communication module is electrically connected with the first antenna, the monitoring host is simple in structure and convenient to connect, the power supply module is used for supplying power, the human body infrared sensing device is used for sensing whether a person exists so as to control whether the operation display screen is in a screen protection state or not, the voice broadcasting device is used for broadcasting an alarm when the gas collection detection device collects that the environmental gas in a laboratory exceeds the standard and broadcasting the current environmental state of the laboratory when the human body infrared sensing device senses the person, the 433M wireless communication module is used for realizing the purpose of being wirelessly connected with the gas collection detection device, the gas, the GPRS wireless communication module is used for realizing the purpose of wireless connection with a client terminal, and the operation display screen is used for setting parameters of the gas purification device, the fan control device and the gas acquisition and detection device and acquiring and displaying state data of the gas purification device, the fan control device and the gas acquisition and detection device;

continuing and combining with the figure 3, the gas collecting and detecting device comprises a second machine shell and an infrared multi-component gas detecting sensor arranged in the second machine shell, a 433M wireless communication module, a lithium battery module, a power supply module, a signal collecting and processing module and a gas collecting pump, wherein the power supply module is electrically connected with the signal collecting and processing module through the lithium battery module, the signal collecting and processing module is respectively electrically connected with the 433M wireless communication module, the gas collecting pump and the infrared multi-component gas detecting sensor, the output end of the 433M wireless communication module is electrically connected with a second antenna, the gas inlet of the gas collecting pump is communicated with the gas inlet on the second machine shell, the gas inlet of the infrared multi-component gas detecting sensor is connected with the outlet of the gas collecting pump, the gas outlet of the infrared multi-component gas detecting sensor is communicated with the gas outlet on the second machine shell, the power supply module is used for supplying power, and the, the gas collection pump is used for actively sucking laboratory environment gas, the infrared multicomponent gas detection sensor adopts an infrared spectrum principle technology and is used for detecting the laboratory environment gas sucked by the gas collection pump, and the 433M wireless communication module is used for sending a result detected by the infrared multicomponent gas detection sensor into the monitoring host machine in a 433M wireless communication mode;

continuing and combining with fig. 4, the fan control device comprises a third casing, and a power module, a micro relay control module, a 433M wireless communication module and a signal processor which are arranged in the third casing, wherein the power module is electrically connected with the signal processor, the signal processor is respectively connected with the 433M wireless communication module and the micro relay control module, the output end of the 433M wireless communication module is electrically connected with a third antenna, and the micro relay control module is connected with the fan;

continuing and combining with fig. 5, the gas purification device comprises a shell, universal wheels are mounted at four corners of the bottom of the shell, a water tank, a gas purification tank, an air pump, a 433M wireless communication module, a power module and a signal processor are arranged in the shell, the power module is electrically connected with the signal processor, the signal processor is respectively electrically connected with the 433M wireless communication module and the air pump, an output end of the 433M wireless communication module is electrically connected with a fourth antenna, the power module is used for supplying power, the 433M wireless communication module is used for receiving an instruction sent by a monitoring host in a 433M wireless communication mode, and the air pump is used for sucking ambient gas in a laboratory; an air inlet of the air pump is communicated with an air inlet on the shell, one path of air outlet of the air pump is connected with an air inlet on the top of the air purifying tank, an adsorbent is arranged in the air purifying tank, and an air outlet on the bottom of the air purifying tank is communicated with an air outlet on the bottom wall of the shell; the other path of air outlet of the air pump is communicated with the air bubble stone arranged in the water tank, the water outlet at the lower part of the water tank is communicated with the water outlet on the side wall of the shell, the air outlet at the upper part of the water tank is communicated with the air outlet on the side wall of the shell, after the air pump sucks the environmental gas in the laboratory, toxic and harmful gas is filtered and purified through the adsorbent on one path, and the toxic and harmful gas is filtered and purified through water dilution on one path, so that the harm of the toxic and harmful gas to the.

When the gas collection and detection device is used, the 433M wireless communication module in the gas collection and detection device is wirelessly communicated with the 433M wireless communication module in the monitoring host, the 433M wireless communication module in the gas purification device is wirelessly communicated with the 433M wireless communication module in the monitoring host, and the 433M wireless communication module in the fan control device is wirelessly communicated with the 433M wireless communication module in the monitoring host, so that an operation display screen in the monitoring host can set parameters of the gas purification device, the fan control device and the gas collection and detection device and can collect and display state data of the gas purification device, the fan control device and the gas collection and detection device; a gas collection pump in the gas collection and detection device actively sucks laboratory environment gas and sends the laboratory environment gas to an infrared multi-component gas detection sensor for detection, the infrared multi-component gas detection sensor sends a detection result to a signal collection and processing module for processing, the signal collection and processing module sends the processed result to a data processor in a monitoring host in a mode of wireless communication between a 433M wireless communication module in the gas collection and detection device and a 433M wireless communication module in the monitoring host, the data processor displays the result sent by the gas collection and detection device on an operation display screen, and a worker considers whether to control a gas purification device and/or a fan control device to work or not according to the result displayed on the operation display screen; the working personnel sends a control instruction of the fan control device to the data processor by operating the display screen, the data processor sends the control instruction of the fan control device to the fan control device in a mode of wirelessly communicating a 433M wireless communication module in the fan control device with a 433M wireless communication module in the monitoring host, and a signal processor in the fan control device processes the control instruction of the fan control device and then controls the fan to work by a micro relay control module to perform air replacement on air in the laboratory; the staff sends gaseous purifier control command for data processor through the operation display screen, data processor sends gaseous purifier control command to gaseous purifier through the mode of 433M wireless communication module among the gaseous purifier and the 433M wireless communication module wireless communication among the monitoring host computer in, signal processor among the gaseous purifier handles back control air pump work to gaseous purifier control command, air pump work inhales behind the laboratory environment gas, one way filters through the adsorbent and purifies poisonous and harmful gas, one way filters through water dilution to poisonous and harmful gas and purifies, reduce the injury of poisonous and harmful gas to the human body.

The utility model discloses a laboratory environment remote monitoring purifier, simple structure, it is convenient to connect, not only can the purpose of remote monitoring laboratory environment, can realize the purpose to laboratory environment real-time supervision purification moreover.

The present invention and its embodiments have been described above schematically, and the description is not limited thereto, and what is shown in the drawings is only one of the embodiments of the present invention, and the actual structure is not limited thereto. Therefore, if the person skilled in the art receives the teaching of the present invention, without departing from the inventive spirit of the present invention, the person skilled in the art should also design the similar structural modes and embodiments without creativity to the technical solution, and all shall fall within the protection scope of the present invention.

Claims (5)

1. The utility model provides a laboratory environment remote monitoring purifier which characterized in that: the monitoring host is connected with a client terminal in a GPRS wireless communication mode so as to check the environmental state of a laboratory in real time through the client terminal; the monitoring host is respectively connected with the gas acquisition and detection device, the gas purification device and the fan control device in a 433M wireless communication mode, the gas acquisition and detection device transmits the field gas acquisition and detection condition to the monitoring host, and the monitoring host controls the gas purification device and the fan control device to work according to the field gas acquisition and detection condition; the fan control device is connected with the fan.

2. The laboratory environment remote monitoring and purification device according to claim 1, wherein: the monitoring host computer include first casing, first casing inside be provided with 433M wireless communication module, data processor, GPRS wireless communication module, power module, voice broadcast device, human infrared induction device and operation display screen, power module be connected with the data processor electricity, the data processor is connected with 433M wireless communication module, human infrared induction device, GPRS wireless communication module and operation display screen electricity respectively, human infrared induction device is connected with the voice broadcast device electricity, 433M wireless communication module's output and first antenna electrical connection.

3. The laboratory environment remote monitoring and purification device according to claim 2, wherein: gas acquisition detection device include the second casing and locate infrared multicomponent gas detection sensor, 433M wireless communication module, lithium cell module, power module, signal acquisition processing module, the gaseous pump of gathering in the second casing, power module pass through lithium cell module and signal acquisition processing module electricity and be connected, signal acquisition processing module respectively with 433M wireless communication module, gaseous acquisition pump, infrared multicomponent gas detection sensor electricity is connected, 433M wireless communication module's output and second antenna electricity are connected, the air inlet of gaseous acquisition pump communicates with the air inlet on the second casing, the air inlet of infrared multicomponent gas detection sensor and the exit linkage of gaseous acquisition pump, the gas outlet of infrared multicomponent gas detection sensor communicates with the gas outlet on the second casing.

4. The laboratory environment remote monitoring and purification device according to claim 3, wherein: fan controlling means include the third casing and locate inside power module, miniature relay control module, 433M wireless communication module, the signal processor of third casing, power module be connected with the signal processor electricity, the signal processor is connected with 433M wireless communication module, miniature relay control module respectively, 433M wireless communication module's output is connected with the third antenna electricity, miniature relay control module links to each other with the fan.

5. The laboratory environment remote monitoring and purification device according to claim 4, wherein: the gas purification device comprises a shell, universal wheels are mounted at four corners of the bottom of the shell, a water tank, a gas purification tank, an air pump, a 433M wireless communication module, a power module and a signal processor are arranged in the shell, the power module is electrically connected with the signal processor, the signal processor is respectively electrically connected with the 433M wireless communication module and the air pump, and the output end of the 433M wireless communication module is electrically connected with a fourth antenna; the air inlet of the air pump is communicated with the air inlet on the shell, one path of air outlet of the air pump is connected with the air inlet on the top of the air purifying tank, the adsorbent is arranged in the air purifying tank, and the air outlet on the bottom of the air purifying tank is communicated with the air outlet on the bottom wall of the shell; and the other path of air outlet of the air pump is communicated with a bubbled stone arranged in the water tank, a water outlet at the lower part of the water tank is communicated with a water outlet on the side wall of the shell, and an air outlet at the upper part of the water tank is communicated with an air outlet on the side wall of the shell.

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