CN217542169U - Temperature detection device - Google Patents

Abstract

The application relates to a temperature detection device for detecting temperature, which comprises a mounting mechanism and a temperature detection system; the mounting mechanism comprises a base and a shell, wherein one end of the base is fixedly connected with one side wall of the shell; a first mounting groove, a second mounting groove and a third mounting groove are formed in one end, far away from the shell, of the base, an electromagnetic component is arranged in the first mounting groove, a power supply module is arranged in the second mounting groove, and the power supply module is connected with the electromagnetic component; a window is arranged on the side wall of the shell, which is far away from the base; the temperature detection system comprises a temperature detection module arranged in the third mounting groove, a data processing module arranged between the base and the shell and a display module detachably connected with the inner wall of the window, and the temperature detection module, the data processing module and the display module are sequentially connected. The method and the device can be used for executing temporary temperature measurement work during the rectification and modification of the data center machine room.

Description

Temperature detection device

Technical Field

The present application relates to a temperature detection device for detecting temperature.

Background

The data center is used as a data center for promoting development of new-generation information technologies such as 5G, internet of things and cloud computing, and a large amount of network equipment is stored in a data center machine room. Various network devices installed in a data center machine room have high requirements on temperature, so a temperature detection device is required to be arranged in the data center machine room.

The existing temperature detection device is often installed in a cabinet, when the cabinet is modified, the temperature detection device installed in the cabinet is affected, if the temperature detection device is in a power-off state when power supply to the cabinet is stopped, temperature measurement cannot be continuously performed, but individual important network equipment in the cabinet needs to be kept in a working state, the network equipment which still works at the moment is out of a temperature monitoring range, and the temperature of the environment where the network equipment is located cannot be known. Therefore, a temperature detecting device for temporarily measuring temperature is needed.

SUMMERY OF THE UTILITY MODEL

In order to be able to execute temporary temperature measurement work during the rectification of a data center machine room, the application provides a temperature detection device.

The application provides a temperature-detecting device adopts following technical scheme:

a temperature detection device comprises a mounting mechanism and a temperature detection system;

the mounting mechanism comprises a base and a shell, wherein one end of the base is fixedly connected with one side wall of the shell;

a first mounting groove, a second mounting groove and a third mounting groove are formed in one end, far away from the shell, of the base, an electromagnetic component is arranged in the first mounting groove, a power supply module is arranged in the second mounting groove, and the power supply module is connected with the electromagnetic component; a window is formed in the side wall of the shell, which is far away from the base;

the temperature detection system comprises a temperature detection module arranged in a third mounting groove, a data processing module arranged between the base and the shell and a display module detachably connected with the inner wall of the window, wherein the temperature detection module, the data processing module and the display module are sequentially connected.

Through adopting above-mentioned technical scheme, on the one hand, this application installation is convenient. The installation process of this application does: the power module is the electricity and generates magnetism subassembly power supply, and electricity generates magnetism subassembly circular telegram and produces magnetic force in order to fix the base in the region that needs the temperature measurement, and the region that needs the temperature measurement is like the rectification cabinet of this application. On the other hand, the temperature measurement is timely. The temperature detection module senses the temperature of the cabinet in real time and generates temperature detection data, the data processing module receives the temperature detection data and generates temperature result data, and the display module receives the temperature result data and displays the temperature result data, so that managers can know the temperature in the cabinet in time.

Optionally, the electromagnetic component comprises a conductor and a coil, the two ends of the conductor are fixedly connected with the inner wall of the first mounting groove, the coil is sleeved on the conductor, a wire is wound on the coil, and the two ends of the wire are connected with the power supply module.

Optionally, an indicator light is further disposed on the wire.

Through adopting above-mentioned technical scheme, because the pilot lamp is installed on the wire, when power module for the power supply of electromagnetism subassembly, the pilot lamp will light. Therefore, whether the electromagnetic component is in the running state can be known by observing the working state (on or off) of the indicator light, so that the abnormal condition of the electromagnetic component can be found quickly.

Optionally, the second mounting groove includes a first cavity and a second cavity, and a power module is disposed in each of the first cavity and the second cavity; the power supply module positioned in the first cavity is connected with the electromagnetic component; and the power supply module positioned in the second chamber is respectively connected with the temperature detection module, the data processing module and the display module.

Through adopting above-mentioned technical scheme, this application provides two mutually independent power supply circuit for electromagnetism subassembly and temperature detecting system. Therefore, the mutual influence between the power supply loop of the electromagnetic component and the power supply loop of the temperature detection system can be reduced, and the practicability of the application is improved.

Optionally, a first sealing cover is arranged on the side wall of the housing far away from the base, one end of the first sealing cover is hinged to the housing, and a contact is arranged at the free end of the first sealing cover.

By adopting the technical scheme, on one hand, the contact is arranged, so that a manager can open the first sealing cover conveniently; on the other hand, the first cover can reduce the probability of foreign matter entering the window.

Optionally, one end of the base, which is far away from the casing, is sleeved with a second sealing cover, and the second sealing cover is detachably connected with the base.

Through adopting above-mentioned technical scheme, the second closing cap is used for sealed first mounting groove, second mounting groove, third mounting groove to reduce the probability that the foreign matter got into first mounting groove, second mounting groove, third mounting groove, thereby improve the practicality of this application.

Optionally, the second cover is provided with an air outlet.

Through adopting above-mentioned technical scheme, the air exit is used for power module, electromagnetism subassembly and temperature detection module heat dissipation to prevent that the inside high temperature of base from in order to influence the testing result of temperature detection module, ensured the detection accuracy nature of temperature detection module promptly.

Optionally, the system further comprises a wireless communication module, and the wireless communication module is connected with the data processing module.

By adopting the technical scheme, the wireless communication module can remotely transmit the temperature result data output by the data processing module, so that a manager can conveniently and remotely monitor the network equipment.

In summary, the present application includes at least one of the following beneficial technical effects:

1. on the one hand, the installation of this application is convenient. The installation process of this application does: the power module supplies power to the electromagnetic component, the electromagnetic component is electrified to generate magnetic force so as to fix the base in an area needing temperature measurement, and the area needing temperature measurement is like the rectification cabinet;

2. on the other hand, the temperature measurement is timely. The temperature detection module senses the temperature of the cabinet in real time and generates temperature detection data, the data processing module receives the temperature detection data and generates temperature result data, and the display module receives the temperature result data and displays the temperature result data, so that managers can know the temperature in the cabinet in time.

Drawings

Fig. 1 is a schematic view of an overall structure of a temperature detection device provided in an embodiment of the present application.

Fig. 2 is an exploded view of the overall structure of the temperature detection device according to the embodiment of the present application.

Fig. 3 is a cross-sectional view of a base of a temperature detection device according to an embodiment of the present disclosure.

Fig. 4 is a diagram of a temperature detection system of a temperature detection device according to an embodiment of the present application.

Description of reference numerals: 100. a base; 110. a first mounting groove; 120. an electromagnetic component; 121. a conductor; 122. a coil; 123. a wire; 124. an indicator light; 125. an electrical switch button; 130. a second mounting groove; 131. a first chamber; 132. a second chamber; 140. a power supply module; 150. a third mounting groove; 160. a bump; 170. a second cover; 180. an air outlet; 200. a housing; 210. a window; 220. a first cover; 230. a contact; 300. a temperature detection module; 400. a data processing module; 500. a display module; 600. a wireless communication module; 700. and an external receiving terminal.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some embodiments of the present application, but not all embodiments. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments in the present application without making any creative effort belong to the protection scope of the present application.

The embodiment of the application discloses a temperature detection device. The temperature detection device can be arranged on the cabinet to sense the temperature generated by the network equipment in the cabinet; the temperature detection device can also be arranged in other areas needing temperature measurement. The temperature detection device comprises an installation mechanism and a temperature detection system, the installation mechanism is used for installing the temperature detection system, the temperature detection system is used for sensing the temperature in the cabinet and generating temperature result data, and a manager can know the temperature in the cabinet according to the temperature result data and further can conveniently manage and control the network equipment.

Referring to fig. 1 and 2, the mounting mechanism includes a base 100 and a housing 200, and one end of the base 100 is fixedly coupled to one sidewall of the housing 200. For convenience of description, the end of the base 100 away from the casing 200 is set as a first end surface, and the end fixedly connected to the casing 200 is set as a second end surface.

Referring to fig. 2 and 3, the first end surface is provided with a first mounting groove 110, a second mounting groove 130 and a third mounting groove 150. In this example, the number of the first mounting grooves 110 is two, the two first mounting grooves 110 are symmetrically disposed on the first end surface, and the first mounting grooves 110 are distributed along the edge of the first end surface. In other examples, three or four mounting grooves may be provided, and each first mounting groove 110 is distributed along the edge of the first end surface, thereby forming a "U" shape or a "square" shape. A set of electromagnetic components 120 is disposed within each mounting slot. The following description will discuss the electromagnetic component 120 by taking a set of electromagnetic components 120 as an example.

Referring to fig. 3, the electromagnetic component 120 includes a conductor 121 and a coil 122. The conductor 121 may be cylindrical or screw-shaped, both ends of the conductor 121 are fixedly connected to the side wall of the first mounting groove 110, and a designated space exists between the body part of the conductor 121 and the first mounting groove 110. The coil 122 is fitted over the conductor 121 through a predetermined space, and a wire 123 is wound around the coil 122. The wire 123 is provided with an indicator light 124, and the indicator light 124 may be red, green or other colors capable of indicating that the indicator light 124 is energized. An electrical switch button 125 is also disposed on the wire 123, and the electrical switch button 125 extends outward to the side wall of the base 100.

Referring to fig. 2 and 3, a power module 140 is disposed in the second mounting groove 130, and the power module 140 is a lithium battery or a dry battery, or an electricity storage device such as a lithium battery pack or a dry battery pack capable of providing electric energy. In order to make the power module 140 provide stable operating voltage for the electromagnetic component 120 and the temperature detection system, respectively, and reduce the mutual influence between the two power supply circuits, the second mounting groove 130 includes a first cavity 131 and a second cavity 132, and the first cavity 131 and the second cavity 132 are respectively configured with one power module 140.

Referring to fig. 1 and 2, in particular, the power module 140 located in the first chamber 131 is connected to the wire 123. When the electrical switch button 125 on the wire 123 is closed, the wire 123 forms a power supply loop with the power module 140 located in the first chamber 131, and the indicator light 124 is on. Meanwhile, since the wire 123 is wound on the coil 122, and the coil 122 is sleeved on the conductor 121, the wire 123 on the conductor 121 generates magnetic induction, so that the magnetic force of the conductor 121 is enhanced, and the base 100 is fixed on the cabinet. Therefore, whether the electromagnetic component 120 is operating can be determined by observing the state (on or off) of the indicator light 124.

Referring to fig. 2 and 4, a power module 140 located in the second chamber 132 is connected to the temperature sensing system for supplying power to the temperature sensing system. The temperature detecting system includes a temperature detecting module 300, a data processing module 400, a display module 500 and a wireless communication module 600. The temperature detection module 300, the display module 500 and the wireless communication module 600 are all connected to the data processing module 400.

Specifically, the temperature sensing module 300 is installed in the third installation groove 150. The temperature detecting module 300 may be an MF52 thermistor temperature sensor, an MTG2 series single-ended glass-sealed NTC thermistor sensor, or other electronic components capable of sensing the temperature in the cabinet, and the specific type of the temperature detecting module 300 is not limited herein. Temperature detect module 300 and third mounting groove 150 joint, the surface of temperature detect module 300 and third mounting groove 150 contact is provided with the rubber pad to avoid temperature detect module 300 and third mounting groove 150 direct contact, with the damage probability that reduces temperature detect module 300.

Referring to fig. 4, the data processing module 400 and the wireless communication module 600 are integrated on a PCB, the PCB abuts against the second end face of the base 100, and both the data processing module 400 and the wireless communication module 600 are located on the surface of the PCB far from the second end face. The data processing module 400 may be an stm32 chip, an FPGA chip, or a CPU chip, and the specific data processing module 400 is not limited herein. Similarly, wireless communication module 600 can adopt WIFI wireless communication module 600 or 5G wireless communication module 600, and data processing module 400 passes through wireless communication module 600 can with outside receiving terminal 700 communication connection, outside receiving terminal 700 like electronic equipment such as cell-phone, desktop computer, flat board, intelligent wrist-watch. The external receiving terminal 700 receives and displays the temperature result data uploaded by the wireless communication module 600, so that a manager can visually know the temperature in the cabinet.

Referring to fig. 2 and 4, the display module 500 is mounted on the housing 200. Specifically, a window 210 is formed in a side wall of the housing 200 away from the base 100, the display module 500 is attached to the window 210, and the display module 500 is an LED display screen or an LCD display screen. A sealant is disposed at a position where the display module 500 contacts the window 210 to improve stability of the display module 500. In order to reduce the probability of foreign objects, such as dust or debris, falling onto the display module 500, a first cover 220 is disposed at an end of the housing 200 away from the base 100, one end of the first cover 220 is hinged to the housing 200, and a contact 230 is disposed at a free end of the cover. In use, the contact 230 may be pushed or pulled to open the first cover 220 or close the first cover 220, thereby facilitating a manager to view the temperature displayed on the display module 500.

Referring to fig. 1, both ends of the housing 200 occupy a larger space area than a body part of the housing 200, so that it is convenient to hold the temperature detecting device.

Referring to fig. 2 and 3, in order to reduce the probability of foreign materials entering the first, second, and third mounting grooves 110, 130, and 150, a second cover 170 is fitted around the outer circumference of the first end surface. Specifically, a plurality of bumps 160 are disposed on the periphery of the first end surface, and the plurality of bumps 160 are distributed on a horizontal plane. In the present embodiment, three bumps 160 are provided and distributed in a triangular manner. The opening of the second cover 170 is provided with a slot adapted to the protrusion 160, the protrusion 160 is connected to the slot, and the base 100 and the second cover 170 are connected by the protrusion 160 being connected to the slot. An air outlet 180 is formed in the side wall of the second cover 170, and the air outlet 180 is used for heat dissipation.

The implementation principle of the temperature detection device in the embodiment of the application is as follows: first, the power module 140 and the electromagnetic component 120 are turned on by pressing the electric switch button 125, and the electromagnetic force of the electromagnetic component 120 is enhanced to be absorbed on the cabinet, so that the temperature detection system is fixed on the cabinet, and the temperature measurement system can measure the temperature conveniently. During temperature measurement: the temperature detection module 300 senses the temperature generated by the network equipment in the cabinet in real time and generates temperature detection data; the data processing module 400 receives the temperature detection data and generates temperature result data. After the temperature result data is obtained, on one hand, the temperature result data is received and displayed through the display module 500, so that field management personnel can know the temperature in the cabinet conveniently; on the other hand, the temperature is uploaded to the external receiving terminal 700 through the wireless communication module 600, so that a remote manager can know the temperature in the cabinet conveniently. The temperature detection device has the advantages of flexible installation and timely temperature measurement, and can be used for temporary temperature measurement during the modification of the data center machine room.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. A temperature detection device, characterized in that: the device comprises a mounting mechanism and a temperature detection system;

the mounting mechanism comprises a base (100) and a shell (200), wherein one end of the base (100) is fixedly connected with one side wall of the shell (200);

a first mounting groove (110), a second mounting groove (130) and a third mounting groove (150) are formed in one end, away from the shell (200), of the base (100), an electromagnetic component (120) is arranged in the first mounting groove (110), a power module (140) is arranged in the second mounting groove (130), and the power module (140) is connected with the electromagnetic component (120); a window (210) is formed in the side wall of the shell (200) departing from the base (100);

the temperature detection system comprises a temperature detection module (300) arranged in a third mounting groove (150), a data processing module (400) arranged between a base (100) and a shell (200) and a display module (500) detachably connected with the inner wall of the window (210), wherein the temperature detection module (300), the data processing module (400) and the display module (500) are sequentially connected.

2. The temperature detection device according to claim 1, characterized in that: electromagnetism subassembly (120) include conductor (121) and coil (122), the both ends of conductor (121) all with the inner wall fixed connection of first mounting groove (110), coil (122) cover is established on conductor (121), the winding has wire (123) on coil (122), power module (140) are all connected at the both ends of wire (123).

3. The temperature detection device according to claim 2, characterized in that: and an indicator light (124) is also arranged on the lead (123).

4. The temperature detection device according to claim 1, characterized in that: the second mounting groove (130) comprises a first cavity (131) and a second cavity (132), and a power supply module (140) is arranged in each of the first cavity (131) and the second cavity (132); a power module (140) located within the first chamber (131) is connected to the electromagnetic assembly (120); the power supply module (140) positioned in the second chamber (132) is respectively connected with the temperature detection module (300), the data processing module (400) and the display module (500).

5. The temperature detection device according to claim 1, characterized in that: the side wall of the shell (200) far away from the base (100) is provided with a first sealing cover (220), one end of the first sealing cover (220) is hinged with the shell (200), and the free end of the first sealing cover (220) is provided with a contact (230).

6. The temperature detection device according to claim 1, characterized in that: one end of the base (100) far away from the shell (200) is sleeved with a second sealing cover (170), and the second sealing cover (170) is detachably connected with the base (100).

7. The temperature detection device according to claim 6, characterized in that: an air outlet (180) is formed in the second sealing cover (170).

8. The temperature detecting device according to claim 1, further comprising a wireless communication module (600), wherein the wireless communication module (600) is connected to the data processing module (400).

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