CN216309242U - Temperature acquisition equipment and air conditioning system - Google Patents

Abstract

The utility model belongs to the technical field of temperature detection, and particularly relates to temperature acquisition equipment and an air conditioning system. The utility model aims to solve the problems of difficult operation, time waste and labor waste when the temperature information detected by each temperature sensor is acquired in the existing air conditioner. The temperature acquisition equipment comprises a main controller and a plurality of temperature acquisition devices; the main controller comprises a control module and a wireless communication module, and the wireless communication module is used for connecting the control module with external equipment in a wireless communication manner; the temperature acquisition device comprises a first installation part for installing the temperature acquisition device in the air conditioner, a temperature acquisition end controller and at least one temperature sensing element, wherein the temperature acquisition end controller and the at least one temperature sensing element are arranged on the first installation part, the at least one temperature sensing element is in communication connection with the temperature acquisition end controller, and the temperature acquisition end controller is in communication connection with the control module. The user can conveniently receive the temperature collected by each temperature collecting device through external equipment so as to obtain the temperature information of different positions of the air conditioner.

Description

Temperature acquisition equipment and air conditioning system

Technical Field

The utility model belongs to the technical field of temperature detection, and particularly relates to temperature acquisition equipment and an air conditioning system.

Background

An air conditioner is a common electric appliance in daily life and is used for adjusting the temperature, humidity and the like of indoor air.

The air conditioner comprises an air conditioner body, a plurality of temperature sensors are arranged at different positions of the air conditioner body and are respectively used for detecting the temperatures of different positions of the air conditioner body, and the temperature sensors are connected with a controller of the air conditioner body through communication lines, so that the controller can adjust the running state of the air conditioner body according to temperature information detected by the temperature sensors.

However, when a user, an air conditioner maintenance worker and an air conditioner testing worker want to acquire temperature information detected by the temperature sensors, the air conditioner shell needs to be disassembled, and the temperature information can be acquired only by connecting the communication line with the external controller, so that the operation is inconvenient, and time and labor are wasted.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems in the prior art, namely the problems of difficult operation, time and labor waste and the like when the temperature information detected by each temperature sensor is acquired in the conventional air conditioner, the utility model provides temperature acquisition equipment for acquiring the temperatures of a plurality of positions of the air conditioner, wherein the temperature acquisition equipment comprises a main controller and a plurality of temperature acquisition devices connected with the main controller; the main controller comprises a control module and a wireless communication module connected with the control module, and the wireless communication module is used for connecting the control module with external equipment in a wireless communication manner; the temperature acquisition device comprises a first installation part for installing the temperature acquisition device in the air conditioner, and a temperature acquisition end controller and at least one temperature sensing element which are arranged on the first installation part, wherein the at least one temperature sensing element is in communication connection with the temperature acquisition end controller, and the temperature acquisition end controller is in communication connection with the control module.

In a preferred embodiment of the above temperature collecting device, the first mounting member includes a clamping portion, the clamping portion includes a first clamping arm and a second clamping arm that are oppositely disposed, and the at least one temperature sensing element includes a first temperature sensing element and a second temperature sensing element; the first temperature sensing element comprises a first temperature sensing part, and the first temperature sensing part is arranged on the first clamping arm; the second temperature sensing element comprises a second temperature sensing part, and the second temperature sensing part is arranged on the second clamping arm.

In a preferred technical solution of the above temperature collecting device, the first clamping arm includes a first heat conducting block, and the first temperature sensing unit is disposed in the first heat conducting block; and/or the second clamping arm comprises a second heat conducting block, and the second temperature sensing part is arranged in the second heat conducting block.

In a preferred technical solution of the above temperature collecting device, the first temperature sensing element includes a first thermocouple, the first temperature sensing part includes a first temperature sensing probe of the first thermocouple, the first heat conducting block is provided with a first insertion hole, and the first temperature sensing probe is inserted into the first insertion hole; and/or the second temperature sensing element comprises a second thermocouple, the second temperature sensing part comprises a second temperature sensing probe of the second thermocouple, a second jack is arranged on the second heat conducting block, and the second temperature sensing probe is inserted into the second jack.

In a preferred technical solution of the above temperature collecting apparatus, the first mounting member further includes an operating portion, the operating portion includes a first operating arm and a second operating arm which are oppositely disposed, the first operating arm is connected to the first clamping arm through a first hinge portion, the second operating arm is connected to the second clamping arm through a second hinge portion, and the first hinge portion and the second hinge portion are disposed in a crossing manner and hinged at a crossing position; the first mounting part further comprises an elastic part for providing elastic force for enabling the first operating arm and the second operating arm to depart from each other.

In a preferred technical solution of the above temperature collecting device, the first mounting member further includes a mounting sleeve sleeved outside the first hinge portion and the second hinge portion, a hinge shaft is disposed at a crossing position of the first hinge portion and the second hinge portion, and two ends of the hinge shaft are respectively rotatably connected with the mounting sleeve; the temperature acquisition end controller is arranged on the mounting sleeve.

In the preferred technical scheme of the temperature acquisition equipment, the temperature acquisition end controller is in communication connection with the main controller through a connecting cable; and/or the main controller further comprises a storage module connected with the control module, and the storage module is used for storing information sent by the temperature acquisition end controller of each temperature acquisition device.

In a preferred technical solution of the above temperature collecting device, the temperature collecting device further includes a second mounting member, the main controller is disposed on the second mounting member, and the second mounting member is used for mounting the main controller on the air conditioner.

The utility model also provides an air conditioning system which comprises an air conditioner and the temperature acquisition equipment, wherein the temperature acquisition devices are respectively installed at different positions of the air conditioner through the first installation parts.

In the preferable technical scheme of the air conditioning system, the air conditioner comprises an outdoor unit, the outdoor unit comprises a shell and a partition plate arranged in the shell, the shell is divided into a first cavity and a second cavity by the partition plate, a compressor is arranged in the first cavity, an outdoor heat exchanger is arranged in the second cavity, and the main controller is arranged on the partition plate.

As can be understood by those skilled in the art, the temperature acquisition device provided by the embodiment of the utility model comprises a main controller and a plurality of temperature acquisition devices connected with the main controller, wherein each temperature acquisition device comprises a first installation part, and each temperature acquisition device can be installed at different positions of the air conditioner through the first installation part thereof to acquire temperature information of different positions of the air conditioner.

The temperature acquisition device also comprises a temperature acquisition end controller and a temperature sensing element, wherein the temperature acquisition end controller is in communication connection with a control module of the main controller. The main controller further comprises a wireless communication module, so that the temperature acquisition end controller can transmit the temperature information detected by the temperature sensing element to the control module, and the control module transmits the received temperature information to the external equipment through the wireless communication module. When personnel such as user, air conditioner maintenance personal, air conditioner testing personnel want to acquire the temperature information of each position on the air conditioner, with external equipment such as cell-phone and main control unit wireless communication connection, the temperature information that each temperature acquisition device gathered can be transmitted to external equipment such as cell-phone through main control unit, convenient operation improves maintenance, efficiency of software testing.

Embodiments of the present invention further provide an air conditioning system, and since the air conditioning system includes the temperature acquisition device, the air conditioning system also has the same advantages as the temperature acquisition device, and reference may be made to the above description.

Drawings

Preferred embodiments of the temperature acquisition apparatus of the present invention are described below with reference to the accompanying drawings. The attached drawings are as follows:

FIG. 1 is a schematic structural diagram of a temperature acquisition device according to an embodiment of the present invention;

FIG. 2 is a system block diagram of a master controller of a temperature acquisition device of an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a temperature acquisition device of the temperature acquisition apparatus according to the embodiment of the present invention.

In the drawings:

10. a main controller;

11. a control module; 12. a wireless communication module; 13. a storage module; 14. a power interface; 15. a communication interface;

20. a temperature acquisition device;

21. a first mounting member;

211. a first clamp arm; 2111. a first heat-conducting block; 212. a second clamp arm; 2121. a second heat-conducting block; 213. a first operating arm; 214. a second operating arm; 215. a first hinge portion; 216. a second hinge portion;

221. a first temperature sensing element;

2211. a first temperature sensing unit; 2212. a first thermocouple wire;

222. a second temperature sensing element;

2221. a second temperature sensing part; 2222. a second thermocouple wire;

23. a temperature acquisition end controller;

24. a torsion spring;

30. connecting a cable;

40. a second mount;

41. mounting a plate; 42. and (7) fixing the plate.

Detailed Description

First, it should be understood by those skilled in the art that these embodiments are merely for explaining the technical principles of the present invention, and are not intended to limit the scope of the present invention. And can be adjusted as needed by those skilled in the art to suit particular applications.

Next, it should be noted that in the description of the present invention, the terms of direction or positional relationship indicated by the terms "inside", "outside", and the like are based on the direction or positional relationship shown in the drawings, which are only for convenience of description, and do not indicate or imply that the device or member must have a specific orientation, be constructed in a specific orientation, and operate, and thus, should not be construed as limiting the present invention.

Furthermore, it should be noted that, in the description of the present invention, unless otherwise explicitly specified or limited, the terms "connected" and "connected" should be interpreted broadly, e.g., as being fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; the two components can be directly connected or indirectly connected through an intermediate medium, and the two components can be communicated with each other. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In a related art, temperature sensors are provided at a plurality of different locations of the air conditioner, respectively, for detecting temperatures of the different locations of the air conditioner. The controller of the air conditioner is connected through a communication line, so that the controller can adjust the running state of the air conditioner according to the temperature information detected by the temperature sensors. For example, in an outdoor unit of an air conditioner, temperature sensors are provided at positions such as a refrigerant pipe connected to an inlet of a compressor and a refrigerant pipe connected to an outlet of the compressor, and these temperature sensors are connected to a circuit board in an electric box. When personnel such as user, air conditioner maintenance personal, air conditioner testing personnel want to acquire the temperature information that above-mentioned each temperature sensor detected, need unpack the shell of off-premises station apart, unpack the electrical apparatus box apart again, then just can acquire temperature information with the circuit board in the communication line external electrical apparatus box, the operation is inconvenient, wastes time and energy.

In view of the above problems, an embodiment of the present invention provides a temperature acquisition device, which includes a main controller and a plurality of temperature acquisition devices, and the temperature acquisition devices can detect temperature information of different positions of an air conditioner, and are in wireless communication connection with an external device through the main controller, and transmit the temperature information to the external device, so that the temperature acquisition device is convenient to operate, and time and labor are saved.

A temperature acquisition apparatus according to an embodiment of the present invention is described below with reference to the drawings.

Referring to fig. 1, fig. 1 is a schematic structural diagram of a temperature acquisition device according to an embodiment of the present invention. As shown in fig. 1, the temperature collecting apparatus provided by the embodiment of the present invention is used for collecting temperatures of a plurality of locations of an air conditioner, and the temperature collecting apparatus includes a main controller 10 and a plurality of temperature collecting devices 20 connected to the main controller 10. A plurality of temperature collecting devices 20 may be provided at different locations of the air conditioner to collect temperatures at the respective different locations of the air conditioner. The main controller 10 receives the temperature information sent by each temperature acquisition device 20, and can send the temperature information to external devices such as a mobile phone and a tablet computer connected with the main controller in a wireless communication manner. The external device may also send a control instruction to the main controller 10 to control the temperature acquisition device, for example, to control the on/off of the temperature acquisition device.

Fig. 2 is a system block diagram of a main controller of a temperature acquisition device according to an embodiment of the present invention. As shown in fig. 2, the main controller 10 includes a control module 11 and a wireless communication module 12 connected to the control module 11, wherein the wireless communication module 12 is used for connecting the control module 11 with an external device in a wireless communication manner. Thus, after the wireless communication module 12 establishes the wireless communication connection with the external device, the control module 11 can send the data information to the external device through the wireless communication module 12.

With continued reference to fig. 1, the temperature pick-up device 20 includes a first mounting member 21 for mounting the temperature pick-up device 20 to the air conditioner, and a temperature pick-up end controller 23 and at least one temperature sensing element provided on the first mounting member 21. The temperature sensing element is in communication connection with a temperature acquisition end controller 23, and the temperature acquisition end controller 23 is in communication connection with the control module 11. Thus, the temperature sensing element can send the temperature information detected by the temperature sensing element to the temperature collecting end controller 23, and the temperature collecting end controller 23 sends the temperature information to the control module 11.

In the temperature collecting device provided by the embodiment of the utility model, each temperature collecting device 20 can be installed at different positions of the air conditioner through the first installation part 21 thereof, so as to obtain temperature information of different positions of the air conditioner. The temperature acquisition device 20 further comprises a temperature acquisition end controller 23 and a temperature sensing element, and the temperature acquisition end controller 23 is in communication connection with the control module 11 of the main controller 10. The main controller 10 further includes a wireless communication module 12, so that the temperature collecting end controller 23 can transmit the temperature information detected by the temperature sensing element to the control module 11, and the control module 11 transmits the received temperature information to the external device through the wireless communication module 12.

When a user, an air conditioner maintenance worker, an air conditioner testing worker and other personnel want to acquire temperature information of each position on the air conditioner, external equipment such as a mobile phone is in wireless communication connection with the main controller 10, and the temperature information acquired by each temperature acquisition device 20 can be transmitted to the external equipment such as the mobile phone through the main controller 10, so that the operation is convenient, and the maintenance and testing efficiency is improved.

In addition, because temperature acquisition device 20 includes first installed part 21 that is used for the installation, the user can freely select the measurement position to install temperature acquisition device 20 through first installed part 21, make air conditioner test experiment more convenient.

The wireless communication module 12 may be any device capable of wirelessly communicating the control module 11 with an external device, such as a ZigBee module, a bluetooth module, a WiFi module, and the like. For example, the user can connect the mobile phone APP with the main controller 10 through WiFi, and therefore the user can check the temperature of each area of the air conditioner in real time through the mobile phone APP, test measurement is facilitated, and real-time information of the air conditioner can be visually seen by the user.

The number of the temperature collection devices 20 is not limited, and may be set according to specific requirements, for example, two, three, or even more.

The first mounting member 21 may be mounted to the air conditioner by snapping, bonding, fastening, or the like. In an alternative embodiment, fig. 3 is a schematic structural diagram of a temperature acquisition device of a temperature acquisition apparatus according to an embodiment of the present invention. As shown in fig. 3, the first mounting member 21 includes a clamping portion including a first clamping arm 211 and a second clamping arm 212 which are oppositely disposed. The structure of the air conditioner, such as a refrigerant pipe, is held by the first and second holding arms 211 and 212 facing each other.

In an alternative embodiment, the material of the first and second holding arms 211 and 212 may be an elastic material, so that the holding is achieved by elastic deformation of the first and second holding arms 211 and 212. For example, the first clamping arm 211 and the second clamping arm 212 are both plastic clamping plates, one ends of the two plastic clamping plates are connected, and the other ends are free ends, so that a structure on the air conditioner, such as a refrigerant pipe, can enter between the two plastic clamping plates through an opening between the free ends of the two plastic clamping plates, and the refrigerant pipe is clamped under the elastic force of the two plastic clamping plates.

In another alternative embodiment, the first mounting member 21 further comprises an operating portion, the operating portion comprises a first operating arm 213 and a second operating arm 214 which are oppositely arranged, the first operating arm 213 is connected with the first holding arm 211 through a first hinge 215, and the second operating arm 214 is connected with the second holding arm 212 through a second hinge 216. The first hinge 215 is disposed across the second hinge 216 and is hinged at a cross location. The first mounting member 21 further includes an elastic member for providing an elastic force for causing the first and second operating arms 213 and 214 to be separated from each other. The resilient member may be, for example, a torsion spring 24.

In the above embodiment, because the first operating arm 213 and the second operating arm 214 are provided, when the air conditioner is installed, an operator can directly operate the first operating arm 213 and the second operating arm 214, so that the first operating arm 213 and the second operating arm 214 move relatively, that is, the first clamping arm 211 and the second clamping arm 212 are driven to move away from each other, the distance between the first clamping arm 211 and the second clamping arm 212 is increased, and a structure on the air conditioner, such as a refrigerant pipe, is inserted between the first clamping arm 211 and the second clamping arm 212. Then, the first operating arm 213 and the second operating arm 214 are released, and under the action of the elastic member, the first operating arm 213 and the second operating arm 214 move away from each other, so that the distance between the first clamping arm 211 and the second clamping arm 212 is reduced, and the refrigerant pipe is clamped. The design can be more convenient for the operation of operators.

In the embodiment that the first mounting part 21 is used for being mounted on a refrigerant pipe of an air conditioner, as shown in fig. 3, the first clamping arm 211 and the second clamping arm 212 are both arc-shaped structures, so that the first clamping arm 211 and the second clamping arm 212 are more adaptive to the shape structure of the refrigerant pipe, and the mounting reliability of the first mounting part 21 is improved.

The at least one temperature-sensitive element comprises a first 221 and a second 222 temperature-sensitive element. The first temperature sensing element 221 and the second temperature sensing element 222 are both connected with the temperature acquisition end controller 23. Because two temperature sensing elements are arranged at one position of the air conditioner for temperature detection, the average value of the temperatures detected by the two temperature sensing elements can be used as the current temperature of the position, and the detection result is more accurate.

It is understood that the number of the temperature sensing elements in one temperature acquisition device 20 is not limited to two, and may be one, three, four or more according to the specific precision requirement.

The operation of averaging the temperature detected by the first temperature sensing element 221 and the temperature detected by the second temperature sensing element 222 may be performed in the temperature acquisition end controller 23, and the temperature acquisition end controller 23 transmits the calculated average temperature as the current temperature to the main controller 10. Alternatively, the temperature acquisition end controller 23 may directly send the temperature detected by the first temperature sensing element 221 and the temperature detected by the second temperature sensing element 222 to the main controller 10, and the control module 11 of the main controller 10 may average the two received temperatures.

In an embodiment where at least one of the temperature sensing elements includes the first temperature sensing element 221 and the second temperature sensing element 222, the first temperature sensing element 221 includes a first temperature sensing portion 2211, and the first temperature sensing portion 2211 is provided to the first clamp arm 211. The second temperature sensing element 222 includes a second temperature sensing part 2221, and the second temperature sensing part 2221 is disposed on the second clamp arm 212. The part for sensing the temperature in the temperature sensing element is arranged on the clamping arm, so that the temperature detected by the temperature sensing element is more accurate.

In an alternative embodiment, the first clamping arm 211 includes a first heat conduction block 2111, and the first temperature sensing portion 2211 is disposed in the first heat conduction block 2111. The second clamping arm 212 includes a second heat-conducting block 2121, and the second temperature sensing portion 2221 is disposed in the second heat-conducting block 2121. By utilizing the heat conducting block, the heat of the temperature part to be detected of the air conditioner can be transferred to the temperature sensing part in the heat conducting block, so that the accuracy of the temperature detected by the temperature sensing element is further improved.

The first heat conduction block 2111 and the second heat conduction block 2121 can be made of heat conduction silica gel materials, and due to the elasticity of the heat conduction silica gel materials, the contact tightness between the first heat conduction block 2111 and the second heat conduction block 2121 and structures on an air conditioner, such as a refrigerant pipe, can be improved, the thermal resistance is reduced, and the accuracy of the temperature detected by the temperature sensing element is ensured. In another embodiment, the first heat conduction block 2111 and the second heat conduction block 2112 may be provided as metal blocks or other structures having a heat conduction function.

The first heat conduction block 2111 may be provided at any position of the first clamp arm 211, and the first heat conduction block 2111 may be in contact with the structure of the air conditioner. In the embodiment shown in fig. 3, the first heat conduction block 2111 is disposed at the end of the first clamping arm 211, and since the acting force between the end of the first clamping arm 211 and the refrigerant pipe is the largest, the first heat conduction block 2111 disposed at the end of the first clamping arm 211 can ensure effective contact between the first heat conduction block 2111 and the outer wall of the refrigerant pipe.

Similarly, the second heat conduction block 2121 may be disposed at any position of the second clamping arm 212, and it is sufficient that the second heat conduction block 2121 is in contact with the structure of the air conditioner. In the embodiment shown in fig. 3, the second heat-conducting block 2121 is disposed at the end of the second clamping arm 212, and since the acting force between the end of the second clamping arm 212 and the refrigerant tube is the greatest, the second heat-conducting block 2121 is disposed at the end of the second clamping arm 212 to ensure effective contact between the second heat-conducting block 2121 and the outer wall of the refrigerant tube.

The first temperature sensing element 221 and the second temperature sensing element 222 may be any devices capable of detecting temperature. In an alternative embodiment, as shown in fig. 3, the first temperature-sensing element 221 comprises a first thermocouple comprising a first temperature-sensing probe and a first thermocouple wire 2212 connected to the first temperature-sensing probe. The first temperature sensing probe forms a first temperature sensing part 2211, a first jack is arranged on the first heat conduction block 2111, and the first temperature sensing probe is inserted into the first jack. The first thermocouple wire 2212 is connected to the temperature-collecting-end controller 23 to transmit a detection signal to the temperature-collecting-end controller 23.

First thermocouple wire 2212 can be provided with the outer wall laminating of first centre gripping arm 211, and in order to facilitate the line, preferably, the outer wall of first centre gripping arm 211 is provided with first trough, and first thermocouple wire 2212 is located first trough. In other embodiments, a first via for routing the first thermocouple wire 2212 may be disposed in the first clamping arm 211.

Similarly, the second temperature-sensitive element 222 comprises a second thermocouple comprising a second temperature-sensitive probe and a second thermocouple wire 2222 connected to the second temperature-sensitive probe. The second temperature sensing probe forms a second temperature sensing part 2221, the second heat conduction block 2121 is provided with a first insertion hole, and the second temperature sensing probe is inserted into the second insertion hole. The second thermocouple wire 2222 is connected to the temperature collection-side controller 23 to transmit the detection signal to the temperature collection-side controller 23.

The second thermocouple wire 2222 may be attached to the outer wall surface of the second clamping arm 212, and for convenience of routing, preferably, the outer wall surface of the second clamping arm 212 is provided with a second wire slot, and the second thermocouple wire 2222 is located in the second wire slot. In another embodiment, a second via for routing the second thermocouple wire 2222 may be provided in the second clamping arm 212.

The temperature collection end controller 23 may be directly fixed to the first hinge 215 or the second hinge 216. In an alternative embodiment, the first mounting member 21 further includes a mounting sleeve sleeved outside the first hinge portion 215 and the second hinge portion 216, and a hinge shaft is disposed at a crossing position of the first hinge portion 215 and the second hinge portion 216, and two ends of the hinge shaft are respectively rotatably connected to the mounting sleeve. The temperature acquisition end controller 23 is arranged on the mounting sleeve. In this way, when the first hinge portion 215 and the second hinge portion 216 are operated, the mounting sleeve and accordingly the temperature collection end controller 23 do not move, and the mounting reliability of the temperature collection end controller 23 is ensured.

The temperature acquisition end controller 23 can communicate with the main controller 10 in a wireless manner, for example, communicate with the main controller 10 in a WiFi, ZigBee or other communication manner. The temperature acquisition end controller 23 can also be in communication connection with the main controller 10 through the connecting cable 30, so that the stability of communication can be ensured, and the data of the temperature acquisition end controller 23 can be transmitted to the main controller 10 in real time.

Further, as shown in fig. 2, the main controller 10 further includes a storage module 13 connected to the control module 11, and the storage module 13 is configured to store information sent by the temperature acquisition end controller 23 of each temperature acquisition device 20, so that data loss caused by temporary power outage can be prevented. In addition, the data stored in the storage module 13 can be exported, so that the test of the air conditioner is facilitated.

With continued reference to fig. 1, the main controller 10 is provided with a power interface 14 and a communication interface 15, the power interface 14 is used for connecting a power line, and the communication interface 15 is used for connecting a connection cable 30 of the temperature collection end controller 23. The temperature collecting apparatus further includes a second mounting member 40, the main controller 10 being provided on the second mounting member 40, the second mounting member 40 being used to mount the main controller 10 to the air conditioner.

In an alternative embodiment, the second mounting member 40 includes a mounting plate 41 and fixing plates 42 disposed at four corners of the mounting plate 41, the main controller 10 is fixed on the mounting plate 41, and the fixing plates 42 are used for being fixedly connected with the structure on the air conditioner, for example, the fixing plates 42 are fixedly connected with the structure on the air conditioner by means of clamping, fastening, and the like.

The embodiment of the utility model also provides an air conditioning system which comprises an air conditioner and the temperature acquisition equipment. The temperature acquisition devices of the temperature acquisition equipment are respectively installed at different positions of the air conditioner through the first installation parts, for example, the temperature acquisition devices are installed at the positions of an inlet refrigerant pipe, an outlet refrigerant pipe and the like of an air conditioner compressor.

The main controller of the temperature acquisition equipment can be arranged at the positions of a shell of the air conditioner and the like, and a user can set the main controller according to specific requirements. In an alternative embodiment, the air conditioner includes an outdoor unit including a casing and a partition plate disposed in the casing, the partition plate dividing the casing into a first chamber and a second chamber, a compressor disposed in the first chamber, an outdoor heat exchanger disposed in the second chamber, and a main controller mounted on the partition plate.

It can be understood that the temperature information that each temperature acquisition device of the temperature acquisition equipment that this application provided gathered can transmit to the controller of air conditioner self to make the controller of air conditioner self can control the operating condition of air conditioner according to these temperature information. For example, the temperature acquisition end controller of each temperature acquisition device is connected with the controller of the air conditioner, and for example, the main controller of the temperature acquisition equipment is connected with the controller of the air conditioner.

So far, the technical solutions of the present invention have been described in connection with the preferred embodiments shown in the drawings, but it is easily understood by those skilled in the art that the scope of the present invention is obviously not limited to these specific embodiments. Equivalent changes or substitutions of related technical features can be made by those skilled in the art without departing from the principle of the utility model, and the technical scheme after the changes or substitutions can fall into the protection scope of the utility model.

Claims (10)

1. The temperature acquisition equipment is characterized by being used for acquiring the temperatures of a plurality of positions of an air conditioner and comprising a main controller and a plurality of temperature acquisition devices connected with the main controller;

the main controller comprises a control module and a wireless communication module connected with the control module, and the wireless communication module is used for connecting the control module with external equipment in a wireless communication manner;

the temperature acquisition device comprises a first installation part for installing the temperature acquisition device in the air conditioner, and a temperature acquisition end controller and at least one temperature sensing element which are arranged on the first installation part, wherein the at least one temperature sensing element is in communication connection with the temperature acquisition end controller, and the temperature acquisition end controller is in communication connection with the control module.

2. The temperature-sensing device of claim 1, wherein the first mount comprises a clamp comprising first and second oppositely disposed clamp arms, the at least one temperature-sensing element comprising first and second temperature-sensing elements;

the first temperature sensing element comprises a first temperature sensing part, and the first temperature sensing part is arranged on the first clamping arm;

the second temperature sensing element comprises a second temperature sensing part, and the second temperature sensing part is arranged on the second clamping arm.

3. The temperature acquisition device of claim 2, wherein the first clamping arm comprises a first heat conducting block, and the first temperature sensing portion is disposed within the first heat conducting block; and/or the presence of a gas in the gas,

the second clamping arm comprises a second heat conducting block, and the second temperature sensing part is arranged in the second heat conducting block.

4. The temperature acquisition device according to claim 3, wherein the first temperature sensing element comprises a first thermocouple, the first temperature sensing part comprises a first temperature sensing probe of the first thermocouple, the first heat conduction block is provided with a first insertion hole, and the first temperature sensing probe is inserted into the first insertion hole; and/or the presence of a gas in the gas,

the second temperature sensing element comprises a second thermocouple, the second temperature sensing part comprises a second temperature sensing probe of the second thermocouple, a second jack is arranged on the second heat conduction block, and the second temperature sensing probe is inserted into the second jack.

5. The temperature acquisition device of claim 2, wherein the first mounting member further comprises an operating portion comprising a first operating arm and a second operating arm arranged in opposition, the first operating arm being connected to the first clamping arm by a first hinge, the second operating arm being connected to the second clamping arm by a second hinge, the first hinge being arranged across the second hinge and being hinged at a cross location;

the first mounting part further comprises an elastic part for providing elastic force for enabling the first operating arm and the second operating arm to depart from each other.

6. The temperature acquisition equipment according to claim 5, wherein the first mounting part further comprises a mounting sleeve sleeved outside the first hinge part and the second hinge part, a hinge shaft is arranged at the crossing position of the first hinge part and the second hinge part, and two ends of the hinge shaft are respectively connected with the mounting sleeve in a rotating manner;

the temperature acquisition end controller is arranged on the mounting sleeve.

7. The temperature acquisition device of any one of claims 1 to 6, wherein the temperature acquisition end controller is in communication connection with the main controller through a connection cable; and/or the presence of a gas in the gas,

the main controller also comprises a storage module connected with the control module, and the storage module is used for storing information sent by the temperature acquisition end controller of each temperature acquisition device.

8. The temperature acquisition device of any one of claims 1 to 6, further comprising a second mounting member, the main controller being disposed on the second mounting member, the second mounting member being configured to mount the main controller to the air conditioner.

9. An air conditioning system comprising an air conditioner and the temperature acquisition device as claimed in any one of claims 1 to 8, wherein each of the temperature acquisition devices is mounted at a different position of the air conditioner by the first mounting member.

10. The system of claim 9, wherein the air conditioner comprises an outdoor unit including a casing and a partition disposed in the casing, the partition dividing the casing into a first chamber in which the compressor is disposed and a second chamber in which the outdoor heat exchanger is disposed, the main controller being mounted on the partition.

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