CN113552051A - Sample test box and method, and sample test system - Google Patents

Abstract

The present disclosure relates to a sample test chamber and a method, a sample test system, for solving the technical problem of inconvenient use of the sample test chamber in the related art, the sample test chamber comprises: the test box comprises a test box main body, wherein a main control module, an environment regulation and control module in communication connection with the main control module, a first communication assembly and a sample cabin body in communication connection with the first communication assembly are arranged in the test box main body; the sample cartridge body is for disposing at least one sample and conducting a communication link between each sample disposed to the sample cartridge body and the first communication component; the first communication assembly is used for receiving the operation parameters sent by the monitoring terminal and transmitting the operation parameters to corresponding samples in the sample bin body; the main control module is used for controlling the environment regulation and control module to regulate and control the environment in the test box main body.

Description

Sample test box and method, and sample test system

Technical Field

The disclosure relates to the technical field of test boxes, in particular to a sample test box, a method and a sample test system.

Background

The temperature and humidity test chamber (also known as a temperature and humidity test chamber) provides a virtual climate environment, and performs environmental tests on samples under corresponding temperature, humidity and other climate conditions. For example, a virtual temperature and humidity for environmental testing of samples such as electronic parts, automobile parts, and notebooks are provided. In the process of developing communication samples of urban rail transit, the reliability of the samples under climatic conditions such as different temperature environments, humidity environments and the like can be verified by using a temperature and humidity test box.

In the process of reliability verification, an external power supply is needed to supply power to a test sample in a temperature and humidity test box, and real-time data of the test sample needs to be uploaded to a monitoring terminal.

In the related art, an external power supply of the temperature and humidity test box is connected through an interface or a circular channel on the side face of the temperature and humidity test box to supply power to a test sample, and the communication interface connected to the temperature and humidity test box realizes communication with a monitoring terminal so as to realize monitoring of the test sample and control of the temperature, the humidity and the like of the temperature and humidity test box.

Disclosure of Invention

The purpose of this disclosure is to provide a sample test box and a method, a sample test system, in order to solve the technical problem that the sample test box is not convenient to use in the related art.

In order to achieve the above object, a first aspect of the present disclosure provides a sample test chamber, including:

the test box comprises a test box main body, wherein a main control module, an environment regulation and control module in communication connection with the main control module, a first communication assembly and a sample cabin body in communication connection with the first communication assembly are arranged in the test box main body;

the sample cartridge body is for disposing at least one sample and conducting a communication link between each sample disposed to the sample cartridge body and the first communication component;

the first communication assembly is used for receiving the operation parameters sent by the monitoring terminal and transmitting the operation parameters to corresponding samples in the sample bin body;

the main control module is used for controlling the environment regulation and control module to regulate and control the environment in the test box main body.

Optionally, a power supply program control module in communication connection with the first communication assembly is further arranged in the test box main body;

the power supply program control module is used for receiving the power parameters sent by the monitoring terminal through the first communication assembly and outputting power to the samples in the sample bin body based on the power parameters.

Optionally, the sample storage device further comprises a serial server, and the first communication assembly is in communication connection with the sample storage body through the serial server;

the serial server is used for converting the data sent by the sample to the monitoring terminal from a serial type into a data type received by the monitoring terminal, and converting the data sent by the monitoring terminal to the sample from the data type sent by the monitoring terminal into the serial type.

Optionally, the main control module is in communication connection with the first communication assembly, and the main control module is configured to communicate with the monitoring terminal through the first communication assembly.

Optionally, the first communication component comprises a WIFI access point and/or an ethernet interface.

Optionally, the environment regulation module comprises at least one of a temperature regulation module, a humidity regulation module, a wind regulation module, and a lighting module.

A second aspect of the present disclosure provides a sample testing method applied to the sample testing chamber of any one of the above, the method comprising:

receiving the operation parameters sent by the monitoring terminal through the first communication assembly, and transmitting the operation parameters to corresponding samples in the sample bin body;

the environment regulation and control module is controlled through the main control module to regulate and control the environment in the test box main body, so that the sample runs in a preset environment;

and sending the running data of the sample to the monitoring terminal through the first communication component.

Optionally, a power supply program control module in communication connection with the first communication assembly is further disposed in the test box main body, and the method further includes:

and receiving the power parameter sent by the monitoring terminal through the first communication assembly, and outputting power to the sample in the sample bin body through the power supply program control module based on the power parameter.

Optionally, a serial server is further arranged in the test box main body, and the first communication assembly is in communication connection with the sample bin through the serial server;

the transmitting the operating parameters to corresponding samples in the sample bin body comprises:

converting the data type of the operation parameters sent by the monitoring terminal into a serial port type through the serial port server, and transmitting the operation parameters after type conversion to the sample;

the sending the operation data of the sample to the monitoring terminal through the first communication component comprises:

and converting the running data of the sample from a serial port type to a data type received by the monitoring terminal through the serial port server, and sending the converted running data to the monitoring terminal through the first communication assembly.

A third aspect of the present disclosure provides a sample testing system, comprising a monitoring terminal, and the sample testing box of any one of the above;

wherein the monitoring terminal comprises a second communication component which is in communication connection with the first communication component of the sample test box.

Through the technical scheme, the following technical effects can be at least achieved:

the main control module, the environment regulation and control module which is in communication connection with the main control module, the first communication assembly and the sample cabin body which is in communication connection with the first communication assembly are arranged in the test box main body of the sample test box, so that the sample test box can regulate and control the environment where a sample arranged in the sample cabin body is located and configure the running parameters of the sample test, namely, wiring for configuring the running parameters for the sample is not needed, wiring harnesses are reduced, and convenience of the sample test is improved.

In addition, under the condition that a plurality of samples can be held in the sample storehouse body, this sample proof box can realize each sample and monitor terminal's communication connection through first communication subassembly, and then can realize a plurality of, the experiment of multiple type of sample to reduce the pencil to a plurality of samples simultaneous test, and avoided the pencil to connect the mistake. Additional features and advantages of the disclosure will be set forth in the detailed description which follows.

Drawings

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

FIG. 1 is a block diagram illustrating a sample testing chamber according to an exemplary embodiment.

FIG. 2 is a block diagram illustrating another sample test chamber according to an exemplary embodiment.

FIG. 3 is a block diagram illustrating another sample test chamber according to an exemplary embodiment.

FIG. 4 is a block diagram illustrating another sample test chamber according to an exemplary embodiment.

FIG. 5 is a flow chart illustrating a sample testing method according to an exemplary embodiment.

FIG. 6 is a flow chart illustrating another sample testing method according to an exemplary embodiment.

FIG. 7 is a flow chart illustrating another sample testing method according to an exemplary embodiment.

Detailed Description

The following detailed description of specific embodiments of the present disclosure is provided in connection with the accompanying drawings. It should be understood that the detailed description and specific examples, while indicating the present disclosure, are given by way of illustration and explanation only, not limitation.

It is noted that the terms "first," "second," and the like in the description and claims of the present disclosure and in the drawings are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order.

Before introducing the sample testing box and method, and the sample testing system provided by the present disclosure, an application scenario of each embodiment of the present disclosure is first described. Optionally, the sample test box provided by the present disclosure may be provided with an external power interface, for example, an external power interface externally connected to a 220V or 380V power supply, and may also be provided with an internal power supply, for example, a storage battery, where at least one of the external power interface and the storage battery is used for providing power for the sample test box and providing power for the sample. The sample test box can be further provided with a touch module, wherein the touch module is equivalent to a microcomputer and comprises a user-oriented friendly touch screen operation interface for receiving operation information of a user, and optionally comprises a remote program control unit for receiving a program control command from the first communication assembly. The touch control module can convert user operation or program control instructions into circuit operation executable by the main control module so as to complete corresponding control actions. Embodiments of the present disclosure may be used for testing the environment and the like of urban rail transit communication signal products, which may be, for example, vehicle-mounted control units, zone controllers, interlock controllers, and the like.

Taking the zone controller as an example, the sample test box can provide corresponding environments such as temperature, humidity and the like, simulate the working environment of the zone controller, provide configured voltage, current and the like for the zone controller, monitor the working state of the zone controller in real time, regulate and control the environment of the sample test box and the like.

However, in the actual use process, the applicant finds that the external power supply supplies power to the sample, the monitoring terminal monitors the sample, and the temperature, humidity and other environment regulation and control of the sample test box are independent, so that an automatic test environment cannot be formed, and the test condition cannot be comprehensively monitored in real time. In addition, if more samples are put into the sample test box, more corresponding power lines and communication cables are needed, the work load of harness arrangement is large, and the connection is complex and is easy to cause connection errors. The method is not beneficial to the efficient, rapid and accurate test, and consumes human resources and time.

To this end, the present disclosure provides a sample test chamber, a block diagram of which is shown with reference to fig. 1, the sample test chamber comprising:

the test box comprises a test box main body 111, wherein a main control module 112, an environment regulation and control module 113 connected with the main control module 112 in a communication mode, a first communication component 114 and a sample cabin body 115 connected with the first communication component 114 in a communication mode are arranged in the test box main body 111.

The sample cartridge body 115 is used to dispose at least one sample and conduct a communication link between each sample disposed to the sample cartridge body 115 and the first communication component 114;

the first communication component 114 is configured to receive the operation parameters sent by the monitoring terminal 12, and transmit the operation parameters to the corresponding samples in the sample bin 115;

the main control module 112 is used for controlling the environment regulation and control module 113 to regulate and control the environment in the test box main body 111.

Wherein the two-way arrows in the figure represent communication, two-way data transmission can be realized, for example, the main control module 112 can send data to the environment module 113. The environment module 113 may also send data to the master control module 112.

In specific implementation, the main control module 112 controls the environment control module 113, and the environment control module 113 controls the environment in the test box main body 111, for example, the temperature and humidity in the test box main body 111. For example, the touch module receives an environment setting parameter, the temperature of which is 60 ℃ and the humidity of which is 75 RH%, input by a user to test the area controller, and then the main control module 112 controls the environment regulation and control module 113 based on the environment setting parameter, and the environment regulation and control module 113 adjusts the temperature in the sample chamber to 60 ℃ and the humidity to 75 RH%.

Alternatively, the monitoring terminal may be a handheld mobile device, or may be a PC (Personal Computer).

The first communication component 114 is communicatively connected to the monitoring terminal 12, so that the first communication component 114 can receive the operation parameters of the sample sent by the monitoring terminal 12, and send the operation parameters to the corresponding sample for configuration, where the operation parameters may be input to the monitoring terminal 12 by a user. For example, the sample cabin 115 is provided with a zone controller and an on-board control unit, after the operation parameters of the zone controller and the operation parameters of the on-board control unit are input by the user through the monitoring terminal, the monitoring terminal 12 sends the operation parameters of the zone controller and the operation parameters of the on-board control unit to the first communication component 114, and the received operation parameters of the zone controller and the operation parameters of the on-board control unit are transmitted to the zone controller and the on-board control unit through the first communication component 114.

Optionally, at least one sample can be placed in the sample chamber body 115, and the sample chamber body 115 is provided with a replaceable and/or multiple types of power interfaces and communication interfaces, which facilitate replacement of the corresponding power interfaces and communication interfaces according to the types of the power interfaces and the communication interfaces of the sample. For example, the area controller is a 24V power interface, the vehicle-mounted control unit is a 110V power interface, when the sample is the area controller, the 24V power interface of the sample bin body 115 can be selected, and when the sample is the vehicle-mounted control unit, the 110V power interface of the sample bin body 115 can be selected. Thus, the sample chamber body 115 can accommodate samples of different power interface types and communication interface types, and the sample test chamber can be used for different sample tests.

In one embodiment, the sample chamber body 115 is communicatively coupled to the first communication assembly 114 via cables that are fixedly mounted to the side walls and/or floor, etc., of the test chamber body 111. Like this, when testing a plurality of samples through the sample proof box, only need select corresponding power interface and communication interface, need not clear up the pencil again, avoided pencil arrangement work, and avoid pencil connection mistake. The method is beneficial to the high-efficiency, quick and accurate test, and further human resources and time.

It can be understood that the cables for the communication connection between the sample chamber body 115 and the first communication assembly 114 may be a set of cables, that is, the first communication assembly 114 connects a set of cables to the sample chamber body 115, and the cables are respectively branched to the sample placement grooves according to the number of the sample placement grooves in the sample chamber body 115 after the cables are connected to the sample chamber body 115. Moreover, cables can be directly respectively branched from the first communication assembly 114 to each sample placement groove according to the number of the sample placement grooves in the sample bin body 115, so that the cables can be dispersedly fixed, and the reasonable arrangement of each module and wire harness in the sample test box is facilitated.

The main control module, the environment regulation and control module which is in communication connection with the main control module, the first communication assembly and the sample cabin body which is in communication connection with the first communication assembly are arranged in the test box main body of the sample test box, so that the sample test box can regulate and control the environment where a sample arranged in the sample cabin body is located and configure the running parameters of the sample test, namely, wiring for configuring the running parameters for the sample is not needed, wiring harnesses are reduced, and convenience of the sample test is improved.

In addition, under the condition that a plurality of samples can be held in the sample storehouse body, this sample proof box can realize each sample and monitor terminal's communication connection through first communication subassembly, and then can realize a plurality of, the experiment of multiple type of sample to reduce the pencil to a plurality of samples simultaneous test, and avoided the pencil to connect the mistake.

Optionally, on the basis of the sample test box shown in fig. 1, referring to the block diagram of another sample test box shown in fig. 2, a power supply program control module 116 is further disposed in the test box main body 111 and is in communication connection with the first communication component;

the power supply program control module 116 is configured to receive the power parameter sent by the monitoring terminal 12 through the first communication component 114, and output power to the sample in the sample bin 115 based on the power parameter.

In the figure, thick solid black lines indicate power connections.

In a possible implementation manner, the sample testing box may be provided with a power interface to conduct a power transmission link between an external power source and the power program control module 116, the power program control module 116 is electrically connected to the power interface, and further, the power program control module 116 outputs the power of the external power source to the sample in the sample bin 115 when receiving the power parameter sent by the monitoring terminal 12 through the first communication component 114.

In another possible implementation manner, the sample test chamber is provided with a storage battery, for example, a storage battery with a volume of 1U, and the storage battery is electrically connected to the power supply program control module 116, so that the power supply program control module 116 outputs the power stored in the storage battery to the sample in the sample bin 115 when receiving the power parameter sent by the monitoring terminal 12 through the first communication assembly 114. Therefore, the space in the sample test box can be saved, and the sample test box is convenient to modify and reasonably arrange.

Taking the sample test box connected with an external power supply as an example, a power interface is connected with 220V alternating current, a monitoring terminal sends a power parameter of 24V direct current of a zone controller, a power parameter of 110V direct current of a vehicle-mounted control unit to a first communication assembly 114, a power program control module 116 receives the two power parameters sent by the first communication assembly, further rectifies and reduces the 220V alternating current into 24V direct current and outputs the 24V direct current to the zone controller, rectifies and reduces the 220V alternating current into 110V direct current and outputs the 110V direct current to the vehicle-mounted control unit.

Optionally, on the basis of the sample test box shown in fig. 1, referring to the block diagram of another sample test box shown in fig. 3, the sample test box further includes a serial server 117, and the first communication component 114 is communicatively connected to the sample bin 115 through the serial server 117;

the serial server 117 is configured to convert the data sent by the sample to the monitoring terminal 12 from a serial type to a data type received by the monitoring terminal 12, and convert the data sent by the monitoring terminal 12 to the sample from the data type sent by the monitoring terminal 12 to the serial type.

When the sample bin is specifically implemented, based on the same principle, the cable from the first communication assembly to the serial server and the cable from the serial server to the sample bin body can be a group of cables or cables which are respectively arranged. And will not be described in detail herein.

In one embodiment, the monitor terminal 12 sends TCP (Transmission Control Protocol) type data to the zone controller, the serial server 117 receives the type data through the first communication component 114, converts the type data into a serial type, and then sends the converted data to the zone controller through serial ports such as RS-232/485/422, so that the anti-interference performance of the sample test box can be improved by relying on the reliability of TCP.

Further, the data sent by the zone controller to the monitoring terminal 12 is of a serial port type, and the serial server 117 receives the data sent by the zone controller through RS-232/485/422, converts the data of the serial port type into the data of an ethernet type received by the monitoring terminal 12, and sends the converted data to the monitoring terminal 12 through the first communication component 114.

It is understood that the monitoring terminal can send and receive the same type of data, and is not limited herein. The data type may also be IP (Internet Protocol) to facilitate increased scalability of the sample proof box.

The data sent and received during the sample test are serial port types, and the serial server can realize the conversion of the data types, so that the practicability and convenience are improved.

Optionally, the main control module 112 is communicatively connected to the first communication component 114, and the main control module 112 is configured to implement communication with the monitoring terminal 12 through the first communication component 114.

In this embodiment, the main control module 112 can obtain the environmental control parameters of the sample test chamber through the first communication component 114. Optionally, the main control module 112 may also feed back the collected environmental parameters in the sample test chamber to the monitoring terminal 12, and the monitoring terminal 12 may know in time whether the sample test chamber provides a simulation environment according to the set environmental regulation and control parameters.

Optionally, the first communication component 114 includes a WIFI access point and/or an ethernet interface.

It should be noted that, besides the above-mentioned interface, the first Communication component 114 may also have other wireless Communication modes, such as bluetooth, Near Field Communication (NFC), 2G, 3G, 4G or 5G, NB-IOT (Narrow Band Internet of Things), or a combination of one or more of them, so that the first Communication component 114 may include: bluetooth module, NFC module.

Optionally, the environment regulation module 113 includes at least one of a temperature regulation module 1131, a humidity regulation module 1132, a wind regulation module 1133, and a lighting module 1134.

In specific implementation, the temperature control module 1131, the humidity control module 1132, the wind power control module 1133, and the lighting module 1134 are respectively connected to at least one sensor, for example, the temperature control module 1131 is connected to at least one temperature sensor, the temperature sensor may be made of a platinum electric group and a thermocouple, and the humidity control module 1132 is connected to at least one solid-state sensor. Therefore, based on the data collected by the sensor, the environment in the sample cabin can be timely known through the monitoring terminal 12, and the reliability of the sample test is convenient to improve.

In this embodiment, the temperature regulation module 1131 includes a heating sub-module and a cooling sub-module, and the cooling sub-module can perform cooling by mechanical cooling and auxiliary liquid nitrogen, where the mechanical cooling adopts vapor compression type cooling, and mainly includes a compressor, a condenser, a throttling mechanism, and an evaporator. The heating sub-module mainly comprises a high-power resistance wire, and optionally, the heating sub-module can comprise a heater arranged on the bottom plate of the sample test box.

In this embodiment, the humidity regulation module 1132 includes a humidification sub-module and a dehumidification sub-module. Wherein, the humidification submodule passes through the steam and adds the wet process, is about to direct injection sample storehouse of low pressure steam is internal, increases the humidity of sample proof box. Therefore, the characteristics of strong humidifying capacity, high speed and high sensitivity of the humidifying method can be utilized, the reliability of the sample test is improved, and the test time is shortened.

In this embodiment, the wind power control module 1133 includes a centrifugal fan and a motor for driving the centrifugal fan to operate, and can adjust the air circulation speed in the sample test box to simulate the wind power environment to which the urban rail transit signal product is subjected in actual operation.

While the above description is directed to the relevant modules of the sample test chamber, the following description will be made in detail with reference to another block diagram of the sample test chamber shown in fig. 4, in a specific embodiment.

Optionally, an industrial switch may be disposed in the first communication component, and is configured to bridge the WIFI access point and/or the ethernet interface of the first communication component with the power supply program control module 116, the serial server 117, and the main control module 112.

Specifically, after it is determined that the three zone controllers are respectively disposed in the sample bin 113, the sample bin may convert the access data into an ethernet data type received by the monitoring terminal 12 through the serial server, and the monitoring terminal 12 may receive the data through the ethernet, thereby determining that the connection of the sample is successful.

Further, the monitoring terminal 12 sends the power parameter of the sample test box 11 to the power supply program control module 115 through the first communication component 114, and the power supply program control module directly transmits the external 220V alternating current to the environment regulation and control module 113.

Further, the monitoring terminal 12 sends the environmental parameters of the sample test to the main control module 112 through the first communication component 114, for example, the environmental temperature is 60 ℃, the environmental humidity is 75 RH%, and the wind power is level 4, and the main control module 112 controls the environmental regulation and control module to regulate and control the temperature, the humidity, and the like in the sample cabin based on the environmental parameters.

Further, the monitoring terminal 12 sends the power parameters of the zone controllers to the power supply program control module 115 through the first communication component 114, and the power supply program control module rectifies the external 220V alternating current into 24V direct current to be transmitted to the three zone controllers.

Further, the monitoring terminal 12 sends the ethernet type zone controller operating parameters to the serial server through the first communication component 114, and the serial server converts the ethernet operating parameters into an RS-485 serial type and sends the RS-485 serial type to each zone controller.

Further, the zone controllers transmit respective operation data to the serial server, the serial server converts the operation data into an ethernet type, and transmits the ethernet type operation data to the monitoring terminal 12 through the first communication component 114, so that the monitoring terminal implements monitoring of the operation state of the zone controllers.

The present disclosure also provides a sample testing method applied to any one of the sample testing chambers described above, with reference to a flow chart of a sample testing method shown in fig. 5, the method including:

s101, receiving operation parameters sent by a monitoring terminal through the first communication assembly, and transmitting the operation parameters to corresponding samples in the sample bin body;

s102, controlling the environment regulation and control module through the main control module to regulate and control the environment in the test box main body, so that the sample runs in a preset environment;

s103, sending the running data of the sample to the monitoring terminal through the first communication assembly.

In one possible implementation, the actual environmental data in the sample cabin is compared with the expected environmental data to obtain a first analysis result, and/or the operation data of the sample is compared with the expected operation data to obtain a second analysis result;

and generating abnormal reminding information under the condition that the first analysis result and/or the second analysis result meet or satisfy a preset abnormal condition, so that the environment in the test box main body can be conveniently and timely regulated, the reliability of the sample test is improved, and/or the running parameters of the sample are timely adjusted, the reliability of the sample test is improved, and the loss of the function of the sample is avoided.

For example, the actual temperature in the sample bin body is compared with the expected temperature for analysis, and if the actual temperature is 55 ℃ and the expected temperature is 60 ℃, the heating module is controlled by the main control module to increase the heating power in time. For another example, if the actual humidity is 78 RH% and the expected humidity is 75 RH%, the main control module controls the humidification module to reduce the low-pressure steam injected into the sample chamber in time.

In one possible implementation, a sample self-test is performed at preset time intervals to determine if the sample is dysfunctional. For example, at preset 3-minute intervals, a zone controller self-check is performed to determine whether the zone controller is disabled. Illustratively, the CAN message data of the zone controller is read according to a preset time interval of 3 minutes, and if the self-checking segment in the CAN message is lost, the function of the zone controller is determined to be lost.

Optionally, a power supply program control module communicatively connected to the first communication module is further disposed in the test box main body, and with reference to a flowchart of another sample testing method shown in fig. 6, the method includes:

s201, receiving operation parameters sent by a monitoring terminal through the first communication assembly, and transmitting the operation parameters to corresponding samples in the sample bin body;

s202, controlling the environment regulation and control module through the main control module to regulate and control the environment in the test box main body, so that the sample runs in a preset environment;

s203, sending the running data of the sample to the monitoring terminal through the first communication assembly.

S204, receiving the power parameter sent by the monitoring terminal through the first communication assembly, and outputting power to the sample in the sample bin body through the power supply program control module based on the power parameter.

Optionally, a serial server is further arranged in the test box main body, and the first communication assembly is in communication connection with the sample bin through the serial server;

the transmitting the operating parameters to corresponding samples in the sample bin body comprises:

converting the data type of the operation parameters sent by the monitoring terminal into a serial port type through the serial port server, and transmitting the operation parameters after type conversion to the sample;

the sending the operation data of the sample to the monitoring terminal through the first communication component comprises:

and converting the running data of the sample from a serial port type to a data type received by the monitoring terminal through the serial port server, and sending the converted running data to the monitoring terminal through the first communication assembly.

Referring to fig. 7, a flow diagram of another sample testing method is shown, the method comprising:

s301, receiving operation parameters sent by a monitoring terminal through the first communication assembly, converting the data types of the operation parameters sent by the monitoring terminal into serial port types through the serial port server, and transmitting the operation parameters after type conversion to the sample;

s302, controlling the environment regulation and control module through the main control module to regulate and control the environment in the test box main body, so that the sample runs in a preset environment;

s303, converting the running data of the sample from a serial port type to a data type received by the monitoring terminal through the serial port server, and sending the converted running data to the monitoring terminal through the first communication assembly.

For example, in the embodiment, S301 is written before S302, and in the specific method step, S301 may be executed after S302 is executed, or S301 and S302 may be executed simultaneously, which is not limited herein.

The steps of the above method have been described in detail in the sample test chamber examples and will not be described in detail here.

The present disclosure also provides a sample testing system, referring to the block diagram shown in fig. 1, the sample testing system 10 includes a monitoring terminal 12 and a sample testing box 11 described in any one of the above.

Wherein the monitoring terminal comprises a second communication component which is in communication connection with the first communication component of the sample test box. Optionally, the second communication assembly and the first communication assembly are correspondingly provided with a WIFI access point and/or an ethernet interface, so as to perform data transmission through the WIFI access point and/or the ethernet interface.

The preferred embodiments of the present disclosure are described in detail with reference to the accompanying drawings, however, the present disclosure is not limited to the specific details of the above embodiments, and various simple modifications may be made to the technical solution of the present disclosure within the technical idea of the present disclosure, and these simple modifications all belong to the protection scope of the present disclosure.

It should be noted that, in the foregoing embodiments, various features described in the above embodiments may be combined in any suitable manner, and in order to avoid unnecessary repetition, various combinations that are possible in the present disclosure are not described again.

In addition, any combination of various embodiments of the present disclosure may be made, and the same should be considered as the disclosure of the present disclosure, as long as it does not depart from the spirit of the present disclosure.

Claims (10)

1. A sample testing chamber, comprising:

the test box comprises a test box main body, wherein a main control module, an environment regulation and control module in communication connection with the main control module, a first communication assembly and a sample cabin body in communication connection with the first communication assembly are arranged in the test box main body;

the sample cartridge body is for disposing at least one sample and conducting a communication link between each sample disposed to the sample cartridge body and the first communication component;

the first communication assembly is used for receiving the operation parameters sent by the monitoring terminal and transmitting the operation parameters to corresponding samples in the sample bin body;

the main control module is used for controlling the environment regulation and control module to regulate and control the environment in the test box main body.

2. The sample test chamber according to claim 1, wherein a power supply program control module is further disposed in the test chamber body and is in communication connection with the first communication assembly;

the power supply program control module is used for receiving the power parameters sent by the monitoring terminal through the first communication assembly and outputting power to the samples in the sample bin body based on the power parameters.

3. The sample test chamber of claim 1, further comprising a serial server, wherein the first communication assembly is in communication connection with the sample chamber body through the serial server;

the serial server is used for converting the data sent by the sample to the monitoring terminal from a serial type into a data type received by the monitoring terminal, and converting the data sent by the monitoring terminal to the sample from the data type sent by the monitoring terminal into the serial type.

4. The sample test box according to any one of claims 1 to 3, wherein the main control module is in communication connection with the first communication component, and the main control module is configured to communicate with the monitoring terminal through the first communication component.

5. A sample test chamber as claimed in any one of claims 1 to 3, wherein the first communication component comprises a WIFI access point and/or an ethernet interface.

6. The sample test chamber of any one of claims 1-3, wherein the environmental regulation module comprises at least one of a temperature regulation module, a humidity regulation module, a wind regulation module, and a lighting module.

7. A sample testing method applied to the sample testing chamber of claim 1, the method comprising:

receiving the operation parameters sent by the monitoring terminal through the first communication assembly, and transmitting the operation parameters to corresponding samples in the sample bin body;

the environment regulation and control module is controlled through the main control module to regulate and control the environment in the test box main body, so that the sample runs in a preset environment;

and sending the running data of the sample to the monitoring terminal through the first communication component.

8. The sample testing method according to claim 7, wherein a power supply program module communicatively connected to the first communication assembly is further provided in the test box body, the method further comprising:

and receiving the power parameter sent by the monitoring terminal through the first communication assembly, and outputting power to the sample in the sample bin body through the power supply program control module based on the power parameter.

9. The sample testing method according to claim 7, wherein a serial server is further arranged in the test box main body, and the first communication assembly is in communication connection with the sample bin through the serial server;

the transmitting the operating parameters to corresponding samples in the sample bin body comprises:

converting the data type of the operation parameters sent by the monitoring terminal into a serial port type through the serial port server, and transmitting the operation parameters after type conversion to the sample;

the sending the operation data of the sample to the monitoring terminal through the first communication component comprises:

and converting the running data of the sample from a serial port type to a data type received by the monitoring terminal through the serial port server, and sending the converted running data to the monitoring terminal through the first communication assembly.

10. A sample testing system, comprising a monitoring terminal, and a sample testing chamber of any one of claims 1-6;

wherein the monitoring terminal comprises a second communication component which is in communication connection with the first communication component of the sample test box.

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