CN213602331U - Equipment wire clamp with temperature measurement module - Google Patents

Abstract

The utility model discloses an equipment fastener with temperature measurement module, include: the wire clamp comprises a wire clamp body, a wire clamping channel and a wire clamping device, wherein the wire clamp body is internally provided with a wire clamping channel for clamping a wire, and the sectional area of the wire clamping channel is adjustable; the wire clamp body is of a conductive structure; the wire clamp body is arranged in an insulation protection cavity of the first insulation shell; the first insulating shell is provided with a wire passing hole corresponding to the wire clamping channel, and the wire passing hole is used for a cable to pass through so that a lead wire penetrates into the wire clamping channel; the temperature measuring module comprises a temperature sensor and a power taking structure which are electrically connected; the temperature sensor is arranged outside the first insulating shell; the electricity taking structure is used for supplying power to the temperature sensor in an voltage induction electricity taking mode; and the second insulating shell is sleeved outside the first insulating shell to protect the temperature measuring module. This temperature measurement module's equipment fastener adopts temperature sensor temperature measurement, and the temperature measurement accuracy is high, need not external power supplies such as external lithium cell and can supply power to temperature sensor, and the reliability is high.

Description

Equipment wire clamp with temperature measurement module

Technical Field

The utility model relates to a wire connection field especially relates to an equipment fastener with temperature measurement module.

Background

And the equipment wire clamp is used for connecting the wires. The application safety of the equipment wire clamp is very important. When the equipment wire clamp is applied, the equipment wire clamp is easy to heat, particularly, when the electric load is large, the situation of serious heating can occur, and at the moment, a line fault and even a fire risk exist; therefore, it is very important to detect the temperature of the equipment wire clamp.

However, the existing equipment cable clamp with the temperature measuring function has the defects of large temperature measuring error, low reliability and the like.

SUMMERY OF THE UTILITY MODEL

The embodiment of the utility model provides an aim at: the utility model provides an equipment fastener with temperature measurement module, its temperature measurement accuracy is high, the reliability is high, extensive applicability.

In order to achieve the purpose, the utility model adopts the following technical proposal:

an equipment clamp with temperature measurement module, includes:

the wire clamp comprises a wire clamp body, a wire clamping channel and a wire clamping device, wherein the wire clamp body is internally provided with a wire clamping channel for clamping a wire, and the sectional area of the wire clamping channel is adjustable; the wire clamp body is of a conductive structure;

the wire clamp body is arranged in an insulation protection cavity of the first insulation shell; the first insulating shell is provided with a wire passing hole corresponding to the wire clamping channel, and a cable passes through the wire passing hole so that a lead wire penetrates into the wire clamping channel;

the temperature measuring module comprises a temperature sensor and a power taking structure which are electrically connected; the temperature sensor is arranged outside the first insulating shell; the power taking structure is used for supplying power to the temperature sensor in a voltage induction power taking mode;

and the second insulating shell is sleeved outside the first insulating shell to protect the temperature measuring module.

Preferably, the electricity taking structure comprises a high-voltage wiring terminal, a high-voltage capacitor, a resonant circuit and a grounding terminal; the resonant circuit comprises a low-voltage capacitor and an inductor connected in parallel;

one end of the high-voltage wiring terminal is used for getting electricity by a high-voltage wire, the other end of the high-voltage wiring terminal is electrically connected with the high-voltage capacitor, and the high-voltage capacitor is connected with the resonant circuit in series; the output end of the resonant circuit is electrically connected with the temperature sensor; one end of the grounding terminal is connected with the resonant circuit in series, and the other end of the grounding terminal is grounded.

Preferably, the temperature measuring module further comprises a rectifier bridge; one input end of the rectifier bridge is connected with the inductor, the other input end of the rectifier bridge is connected with the low-voltage capacitor, and the output end of the rectifier bridge is electrically connected with the temperature sensor.

Preferably, the temperature measuring module further comprises a wireless transmission module, and the wireless transmission module is electrically connected with a power taking structure so as to supply power to the wireless transmission module through the power taking structure; the wireless transmission module is electrically connected with the temperature sensor so as to transmit temperature measurement data in the temperature sensor to the terminal equipment.

Preferably, the insulating housing further comprises a metal shell, and the metal shell is sleeved outside the first insulating housing; the metal shell is provided with a first avoidance hole, and the temperature sensor is fixed on the first insulating shell and penetrates out of the first avoidance hole.

Preferably, the first insulating shell comprises a first insulating shell and a hollow cylindrical insulating part which protrudes outwards from the first insulating shell, the wire through hole is formed in the end part of the cylindrical insulating part, and a cable penetrates into the insulating protection cavity through the cylindrical insulating part.

Preferably, an installation groove is formed in the outer side of the first insulating shell, and the temperature measuring module is fixed in the installation groove.

Preferably, the second insulating shell is provided with a first convex part protruding from inside to outside, and the first convex part is used for accommodating the temperature measuring module.

Preferably, the wire clamp body comprises a static chuck, a first movable chuck and a second movable chuck; the first movable chuck and/or the static chuck is provided with a first groove, so that a first wire clamping channel is formed between the first movable chuck and the static chuck when the first movable chuck and the static chuck are clamped; the second movable chuck and/or the static chuck is provided with a second groove, so that a second wire clamping channel is formed between the second movable chuck and the static chuck when the second movable chuck and the static chuck are clamped; the first wire clamping channel is used for clamping the internal conducting wire of the first cable, and the second wire clamping channel is used for clamping the internal conducting wire of the second cable;

the equipment wire clamp further comprises a first locking assembly and a second locking assembly, the first locking assembly comprises a first bolt and a first nut, the second locking assembly comprises a second bolt and a second nut, and step surfaces are arranged on the first bolt and the second bolt; the first bolt sequentially penetrates through the first movable chuck and the static chuck, and the step surface of the first bolt abuts against the first movable chuck; the first nut is used for being matched with the first bolt so as to enable the first movable chuck to be in clamping fit with the static chuck and adjust the size of the first wire clamping channel; the second bolt sequentially penetrates through the second movable chuck and the static chuck, and the step surface of the second bolt abuts against the second movable chuck; the second nut is used for being matched with the second bolt so as to enable the second movable chuck to be in clamping fit with the static chuck and adjust the size of the second wire clamping channel.

Preferably, the first insulating outer shell comprises a first insulating male shell and a first insulating female shell, and the first insulating male shell and the first insulating female shell are hinged and connected in a snap-fit manner; the first insulating male shell is provided with two second convex parts protruding from inside to outside so as to accommodate a first bolt and a second bolt protruding relative to the wire clamp body; the first insulating female shell is provided with two third convex parts protruding from inside to outside so as to accommodate a first locking assembly and a second locking assembly protruding relative to the wire clamp body;

the second insulating shell comprises a second insulating male shell and a second insulating female shell, and the second insulating male shell is hinged and connected with the second insulating female shell in a buckling manner; two fourth convex parts protruding from inside to outside are arranged on the second insulating male shell so as to accommodate the two second convex parts on the first insulating male shell; and the second insulating female shell is provided with two fifth convex parts protruding from inside to outside so as to accommodate the two third convex parts on the first insulating female shell.

The utility model has the advantages that: the equipment wire clamp of the temperature measurement module adopts the temperature sensor to measure temperature, so that the temperature measurement accuracy is high; the equipment wire clamp adopts a passive power supply mode to supply power to the temperature sensor, external power supplies such as a lithium battery and the like are not needed, the temperature measurement reliability is high, and the product adaptability is wide; this equipment fastener still can transmit the temperature data that temperature sensor measured and obtain for terminal equipment through wireless transmission module to make things convenient for the staff to look over the analysis to temperature data.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and examples.

Fig. 1 is an exploded schematic view of an apparatus wire clamp according to an embodiment of the present invention;

fig. 2 is an exploded schematic view of the device clip according to the embodiment of the present invention (without a second insulating housing);

FIG. 3 is an enlarged view of portion A of FIG. 2;

fig. 4 is a schematic external structural view of an apparatus clamp according to an embodiment of the present invention;

fig. 5 is a schematic view of the power taking structure according to the embodiment of the present invention;

in the figure: 10. a wire clamp body; 11. a static chuck; 12. a first movable chuck; 13. a second movable chuck; 14. a first wire clamping channel; 15. a second wire clamping channel; 21. a first bolt; 22. a first nut; 23. a second bolt; 24. a second nut; 30. a temperature measuring module; 31. a power taking structure; 311. a high-voltage wiring terminal; 312. a high-voltage capacitor; 313. a resonant circuit; 3131. a low-voltage capacitor; 3132. an inductor; 314. a ground terminal; 315. a rectifier bridge; 40. a first insulating housing; 401. mounting grooves; 4011. mounting holes; 402. a cylindrical insulating portion; 41. a first insulating male shell; 411. a second convex portion; 42. a first insulating mother case; 421. a third convex portion; 50. a second insulating housing; 501. a first convex portion; 51. a second insulating male shell; 511. a fourth convex portion; 52. a second insulating female shell; 521. a fifth convex portion; 60. a metal shell.

Detailed Description

In order to make the technical problems, technical solutions and technical effects achieved by the present invention more clear, the embodiments of the present invention will be described in further detail with reference to the accompanying drawings, and obviously, the described embodiments are only some embodiments, not all embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by those skilled in the art without creative efforts belong to the protection scope of the present invention.

In the description of the present invention, unless otherwise explicitly specified or limited, the terms "connected" and "fixed" are to be understood broadly, e.g. as a fixed connection, a detachable connection or an integral part; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In the present disclosure, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may comprise direct contact between the first and second features, or may comprise contact between the first and second features not directly. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

The utility model provides an equipment cable clamp with a temperature measurement module 30, which adopts a temperature sensor to measure temperature, and has high temperature measurement accuracy; and this equipment fastener need not external power such as external lithium cell and can supply power to temperature sensor, and the temperature measurement reliability is high, and product adaptability is wide.

As shown in fig. 1-4, in an embodiment of the device clip of the present invention, the device clip includes:

the wire clamp comprises a wire clamp body 10, wherein a wire clamping channel for clamping a wire is arranged in the wire clamp body, and the sectional area of the wire clamping channel is adjustable so as to match wires with different wire diameters; the wire clamp body 10 is of a conductive structure, and the wire clamp body 10 is used for clamping different wires and realizing electric connection among the wires;

the cable clamp body 10 is arranged in an insulation protection cavity of the first insulation shell 40, so that the cable clamp body 10 is electrically protected by the first insulation shell 40 from wires exposed outside the cable; the first insulating shell 40 is provided with a wire passing hole corresponding to the wire clamping channel, and the wire passing hole is used for a cable or an electric wire to pass through so that a conductor part exposed after the cable is stripped can penetrate into the wire clamping channel;

the temperature measuring module 30 comprises a temperature sensor and a power taking structure 31 which are electrically connected; the temperature sensor is arranged outside the first insulating shell 40; the power taking structure 31 is used for supplying power to the temperature sensor in a voltage induction power taking mode;

the second insulating shell 50 is sleeved outside the first insulating shell 40 to electrically and physically protect the temperature measuring module 30; the second insulating housing 50 is provided with a wire passing hole corresponding to the wire clamping channel.

The utility model discloses an equipment fastener through the outside at first insulating housing 40 sets up temperature sensor, both can detect the inside temperature of equipment fastener through temperature sensor, thereby be convenient for when the inside high temperature of equipment fastener, take the power failure treatment measure, thereby avoid the incident, adopt temperature sensor to carry out the temperature measurement, for the temperature measurement mode that adopts the measurement thing thermal expansion in order to carry out the temperature-sensing among the prior art, it is more accurate to adopt the temperature sensor temperature measurement, when the equipment fastener applies, cable run's reliability, the security is higher.

The utility model discloses an equipment fastener has set up and has got electric structure 31, can passively get the electricity, for give the temperature sensor power supply, temperature sensor need not to be connected with battery or external power source to avoid arousing the temperature measurement trouble because reasons such as environmental constraint, battery power are not enough, thereby guarantee the temperature measurement reliability, make the adaptability of this equipment fastener wider.

The temperature sensor is arranged outside the first insulating shell 40, so that the temperature sensor can be prevented from influencing the cable conductor, and the reliable connection between the cable conductor is ensured; and, still set up second insulating housing 50 to can carry out reliable physical protection and electrical protection to temperature measurement module 30 setting, thereby guarantee the reliable operation of temperature measurement module 30, guarantee the reliability of temperature measurement function, thereby guarantee the security of equipment fastener.

Further, in this embodiment, the power taking structure 31 supplies power to the temperature sensor in the following manner:

as shown in fig. 5, the electricity taking structure 31 includes a high-voltage connection terminal 311, a high-voltage capacitor 312, a resonance circuit 313 and a ground terminal 314; the resonant circuit 313 includes a low voltage capacitor 3131 and an inductor 3132 in parallel;

one end of the high-voltage wiring terminal 311 is used for taking electricity from a high-voltage wire, the other end of the high-voltage wiring terminal is electrically connected with the high-voltage capacitor 312, and the high-voltage capacitor 312 is connected with the resonance circuit 313 in series; the output end of the resonant circuit 313 is electrically connected with the temperature sensor; one end of the ground terminal 314 is connected in series to the resonance circuit 313, and the other end is grounded.

Further, the temperature measurement module 30 further includes a rectifier bridge 315; one input end of the rectifier bridge 315 is connected to the inductor 3132, the other input end is connected to the low-voltage capacitor 3131, and the output end of the rectifier bridge 315 is electrically connected to a temperature sensor.

Specifically, one end of the high-voltage capacitor 312 is electrically connected to the high-voltage connection terminal 311, the other end of the high-voltage capacitor is electrically connected to the low-voltage capacitor and the inductor 3132, the other end of the low-voltage capacitor is electrically connected to the ground terminal 314 and one input terminal of the rectifier bridge 315, and the other end of the inductor 3132 is electrically connected to the other input terminal of the rectifier bridge 315; two output ends of the rectifier bridge 315 are electrically connected to the temperature sensors, respectively.

In this embodiment, the high voltage connection terminal 311 may be electrically connected to a high voltage wire in a direct or indirect manner to take electricity; the high-voltage capacitor 312 filters the electricity obtained from the high-voltage connection terminal 311, and converts the electricity into a voltage signal by using the leakage current of the high-voltage capacitor 312; the resonant circuit 313 generates oscillation by using the voltage signal obtained by the high-voltage capacitor 312 to obtain an oscillation current and an alternating current signal; the rectifier bridge 315 converts the obtained ac signal into a dc signal, and outputs the dc signal to an electric component such as a temperature sensor.

Further, the high voltage connection terminal 311 may be powered by a cable wire by direct or indirect connection to the wire. In one embodiment, the high voltage wire terminals 311 pass through the first insulative housing 40 to make electrical contact with the clip body 10 or a wire to obtain electricity.

Further, the temperature measuring module 30 further includes a wireless transmission module, and the wireless transmission module is electrically connected to the power taking structure 31 to supply power to the wireless transmission module through the power taking structure 31; the wireless transmission module is electrically connected with the temperature sensor so as to transmit temperature measurement data in the temperature sensor to terminal equipment, wherein the terminal equipment is a computer, a mobile phone and the like; so set up to make things convenient for operating personnel to look over analysis temperature data at any time. Further, a metal shell 60 is further included, and the metal shell 60 is sleeved outside the first insulating shell 40; the metal shell 60 is provided with a first avoidance hole, and the temperature sensor is fixed on the first insulating shell 40 and penetrates out of the first avoidance hole. The metal shell 60 is in close contact with the first insulating shell 40, so that the metal shell 60 can conduct the temperature in the insulating protection cavity to the outside of the first insulating shell 40, and the temperature measurement data of the temperature sensor is more accurate. Further, the metal shell 60 includes a first metal shell 60 and a second metal shell 60 respectively sleeved at two ends of the first insulating housing 40.

In some embodiments, the metal housing 60 is a copper housing.

Further, in another embodiment of the device wire clamp, because get electric structure 31 directly or indirectly by cable conductor get the electricity in order to give the temperature sensor power supply, for get the electricity that electric structure 31 acquireed can with temperature sensor's operating voltage, electric current match, avoid the temperature sensor trouble temperature measurement module 30 still includes the rectifier bridge, the input of rectifier bridge with it connects to get electric structure 31 electricity, the output of rectifier bridge with the temperature sensor electricity is connected.

It should be noted that, those skilled in the art may design the specific structure of the rectifier bridge according to actual requirements, which is not described herein.

Further, the equipment wire clamp further comprises a microcontroller, the input end of the rectifier bridge is electrically connected with the power taking structure 31, the output end of the rectifier bridge is electrically connected with the microcontroller, and the temperature sensor is electrically connected with the microcontroller.

Further, the equipment wire clamp further comprises a wireless communication module, the wireless communication module is electrically connected with the microcontroller, and the wireless communication module is used for sending the temperature measured by the temperature sensor to a background or other electronic terminals.

Further, in another embodiment of the utility model, in order to make the electronic device in the temperature measuring module 30 be reliably fixed to the first insulating housing 40 and protect the electronic device, the outer side of the first insulating housing 40 is provided with a mounting groove 401, and the temperature measuring module 30 is fixed in the mounting groove 401.

Specifically, the mounting groove 401 is formed by surrounding a plurality of mounting side plates fixed to the first insulating housing.

Specifically, the first insulating housing is integrally formed with the mounting side plate.

Further, in another embodiment of the present invention, in order to reduce the overall size of the device clip and make the device clip compact so that it can be applied to various installation environments, the second insulating housing 50 is provided with a first protrusion 501 protruding from the inside to the outside, and the first protrusion 501 is used for accommodating the electronic device (e.g. temperature sensor) in the temperature measuring module 30; since the second insulating housing 50 is provided with the convex portion only at the position corresponding to the temperature sensor to provide the installation space for the temperature sensor, the second insulating housing 50 at the other part can approach the first insulating housing 40, thereby making the structure more compact.

Further, in another embodiment of the device clamp of the present invention, the clamp body 10 includes a stationary clamp 11, a first movable clamp 12, and a second movable clamp 13; the first movable chuck 12 and/or the static chuck 11 is/are provided with a first groove, so that when the first movable chuck 12 is clamped with the static chuck 11, a first wire clamping channel 14 is formed between the first movable chuck 12 and the static chuck 11; the second movable chuck 13 and/or the static chuck 11 is/are provided with a second groove, so that when the second movable chuck 13 is clamped with the static chuck 11, a second wire clamping channel 15 is formed between the second movable chuck 13 and the static chuck 11; the first wire clamping channel 14 is used for clamping the internal conducting wire of the first cable, and the second wire clamping channel 15 is used for clamping the internal conducting wire of the second cable;

the equipment wire clamp further comprises a first locking assembly and a second locking assembly, the first locking assembly comprises a first bolt 21 and a first nut 22, the second locking assembly comprises a second bolt 23 and a second nut 24, and step surfaces are arranged on the first bolt 21 and the second bolt 23; the first bolt 21 sequentially penetrates through the first movable chuck 12 and the static chuck 11, and the step surface of the first bolt 21 abuts against the first movable chuck 12; the first nut 22 is used for being matched with the first bolt 21 so as to enable the first movable chuck 12 to be in clamping fit with the static chuck 11 and adjust the channel size of the first wire clamping channel 14; the second bolt 23 sequentially penetrates through the second movable chuck 13 and the static chuck 11, and the step surface of the second bolt 23 abuts against the second movable chuck 13; the second nut 24 is used for cooperating with the second bolt 23 to enable the second movable chuck 13 to be in clamping fit with the static chuck 11, and adjusting the size of the second wire clamping channel 15.

In this embodiment, the distance between the first movable chuck 12 and the static chuck 11 can be adjusted by the first locking assembly, and the distance between the second movable chuck 13 and the static chuck 11 can be adjusted by the second locking assembly, so that the device is suitable for connecting wires with various wire diameters; and through the fastening cooperation mode of bolt and nut, be convenient for adjust the operation.

Specifically, the first bolt 21 and the second bolt 23 are reducing bolts, so that the end surface (step surface) of the part with the larger diameter abuts against the movable chuck, the movable chuck and the static chuck 11 are clamped more tightly, and the lead is fixed more reliably.

Furthermore, anti-slip lines are arranged in the first groove and/or the second groove to increase the friction force between the wire and the wire clamp body 10, so that the connection of the wire is more stable and reliable.

Further, the first insulating outer shell 40 comprises a first insulating male shell 41 and a first insulating female shell 42, and the first insulating male shell 41 and the first insulating female shell 42 are hinged and snap-connected; the first male insulating shell 41 is provided with two second convex parts 411 protruding from inside to outside so as to accommodate the first bolt 21 and the second bolt 23 protruding relative to the cable clamp body 10; the first female insulating shell 42 is provided with two third convex parts 421 protruding from inside to outside to accommodate the first locking component and the second locking component protruding relative to the cable clamp body 10; through the arrangement, installation space can be provided for the first locking assembly and the second locking assembly, and the structure of the first insulating shell 40 can be more compact; in addition, through the joint structure between first insulating male shell 41 and the first insulating female shell 42, the dismouting of being convenient for, the wire of being convenient for is connected.

Further, the second insulating housing 50 comprises a second insulating male shell 51 and a second insulating female shell 52, and the second insulating male shell 51 and the second insulating female shell 52 are hinged and connected in a snap-fit manner; two fourth convex parts 511 which protrude from the inside to the outside are arranged on the second insulating male shell 51 to accommodate the two second convex parts 411 on the first insulating male shell 41; two fifth bulges 521 protruding from the inside to the outside are arranged on the second female insulating shell 52 to accommodate the two third bulges 421 on the first female insulating shell 42; by the arrangement, installation space can be provided for the first locking assembly and the second locking assembly, and the structure of the second insulating shell 50 can be more compact; in addition, through the joint structure between the second insulating male shell 51 and the second insulating female shell 52, the disassembly and assembly are convenient, the wire connection is convenient, and the installation of the temperature measurement module 30 in the maintenance is convenient.

In the description herein, it is to be understood that the terms "upper", "lower", "left", "right", and the like are used in a descriptive sense and with reference to the illustrated orientation or positional relationship, and are used for convenience in description and simplicity in operation, and do not indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used merely for descriptive purposes and are not intended to have any special meaning.

In the description herein, references to the description of "an embodiment," "an example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be appropriately combined to form other embodiments as will be appreciated by those skilled in the art.

The technical principle of the present invention is described above with reference to specific embodiments. The description is made for the purpose of illustrating the principles of the invention and should not be construed in any way as limiting the scope of the invention. Based on the explanations herein, those skilled in the art will be able to conceive of other embodiments of the present invention without any inventive effort, which would fall within the scope of the present invention.

Claims (10)

1. The utility model provides an equipment fastener with temperature measurement module which characterized in that includes:

the wire clamp comprises a wire clamp body (10), wherein a wire clamping channel for clamping a wire is arranged in the wire clamp body, and the sectional area of the wire clamping channel is adjustable; the wire clamp body (10) is of a conductive structure;

the wire clamp body (10) is arranged in an insulation protection cavity of the first insulation shell (40); the first insulating shell (40) is provided with a wire passing hole corresponding to the wire clamping channel, and a cable passes through the wire passing hole so that a lead wire penetrates into the wire clamping channel;

the temperature measuring module (30) comprises a temperature sensor and a power taking structure (31) which are electrically connected; the temperature sensor is arranged outside the first insulating shell (40); the power taking structure (31) is used for supplying power to the temperature sensor in a voltage induction power taking mode;

and the second insulating shell (50) is sleeved outside the first insulating shell (40) to protect the temperature measuring module (30).

2. The equipment clamp with the temperature measurement module according to claim 1, wherein the electricity taking structure (31) comprises a high-voltage wiring terminal (311), a high-voltage capacitor (312), a resonant circuit (313) and a grounding terminal (314); the resonant circuit (313) comprises a low voltage capacitor (3131) and an inductor (3132) in parallel;

one end of the high-voltage wiring terminal (311) is used for taking electricity from a high-voltage wire, the other end of the high-voltage wiring terminal is electrically connected with the high-voltage capacitor (312), and the high-voltage capacitor (312) is connected with the resonance circuit (313) in series; the output end of the resonance circuit (313) is electrically connected with the temperature sensor; one end of the ground terminal (314) is connected in series with the resonance circuit (313), and the other end is grounded.

3. The equipment clamp provided with the temperature measuring module according to claim 2, wherein the temperature measuring module (30) further comprises a rectifier bridge (315); one input end of the rectifying bridge (315) is connected with the inductor (3132), the other input end of the rectifying bridge is connected with the low-voltage capacitor (3131), and the output end of the rectifying bridge (315) is electrically connected with the temperature sensor.

4. The equipment clamp with the temperature measuring module according to claim 1 or 2, wherein the temperature measuring module (30) further comprises a wireless transmission module, and the wireless transmission module is electrically connected with a power taking structure (31) so as to supply power to the wireless transmission module through the power taking structure (31); the wireless transmission module is electrically connected with the temperature sensor so as to transmit temperature measurement data in the temperature sensor to the terminal equipment.

5. The equipment clamp provided with the temperature measuring module according to claim 1, further comprising a metal shell (60), wherein the metal shell (60) is sleeved outside the first insulating shell (40); the temperature sensor is fixed on the first insulating shell (40) and penetrates out of the first avoiding hole.

6. The equipment clamp provided with the temperature measuring module according to claim 1, wherein the first insulating housing (40) comprises a first insulating shell and a hollow cylindrical insulating part (402) protruding outwards from the first insulating shell, the wire through hole is formed in an end part of the cylindrical insulating part (402), and a cable is threaded into the insulating protection cavity from the cylindrical insulating part (402).

7. The equipment clamp provided with the temperature measuring module according to claim 1, wherein an installation groove (401) is formed on the outer side of the first insulating housing (40), and the temperature measuring module (30) is fixed in the installation groove (401).

8. The equipment clamp provided with a thermometric module according to claim 1, wherein the second insulating housing (50) is provided with a first protrusion (501) protruding from the inside towards the outside, the first protrusion (501) being intended to receive the thermometric module (30).

9. The equipment clamp provided with the temperature measuring module according to claim 1, wherein the clamp body (10) comprises a static chuck (11), a first movable chuck (12) and a second movable chuck (13); the first movable chuck (12) and/or the static chuck (11) is/are provided with a first groove, so that when the first movable chuck (12) is clamped with the static chuck (11), a first wire clamping channel (14) is formed between the first movable chuck and the static chuck; the second movable chuck (13) and/or the static chuck (11) is/are provided with a second groove, so that when the second movable chuck (13) is clamped with the static chuck (11), a second wire clamping channel (15) is formed between the second movable chuck and the static chuck; the first wire clamping channel (14) is used for clamping the internal conducting wire of a first cable, and the second wire clamping channel (15) is used for clamping the internal conducting wire of a second cable;

the equipment wire clamp further comprises a first locking assembly and a second locking assembly, the first locking assembly comprises a first bolt (21) and a first nut (22), the second locking assembly comprises a second bolt (23) and a second nut (24), and step surfaces are arranged on the first bolt (21) and the second bolt (23); the first bolt (21) sequentially penetrates through the first movable chuck (12) and the static chuck (11), and the step surface of the first bolt (21) abuts against the first movable chuck (12); the first nut (22) is used for being matched with the first bolt (21) so as to enable the first movable chuck (12) to be in clamping fit with the static chuck (11) and adjust the channel size of the first wire clamping channel (14); the second bolt (23) sequentially penetrates through the second movable chuck (13) and the static chuck (11), and the step surface of the second bolt (23) abuts against the second movable chuck (13); the second nut (24) is used for being matched with the second bolt (23) so as to enable the second movable chuck (13) to be in clamping fit with the static chuck (11) and adjust the size of the second wire clamping channel (15).

10. The equipment clamp provided with the thermometric module according to claim 9, wherein the first insulating outer shell (40) comprises a first male insulating shell (41) and a first female insulating shell (42), the first male insulating shell (41) and the first female insulating shell (42) are hinged and snap-connected; the first insulating male shell (41) is provided with two second convex parts (411) protruding from inside to outside so as to accommodate a first bolt (21) and a second bolt (23) protruding relative to the wire clamp body (10); the first insulating female shell (42) is provided with two third convex parts (421) which protrude from the inside to the outside so as to accommodate a first locking assembly and a second locking assembly which protrude relative to the wire clamp body (10);

the second insulating shell (50) comprises a second insulating male shell (51) and a second insulating female shell (52), and the second insulating male shell (51) is hinged and connected with the second insulating female shell (52) in a buckling mode; two fourth convex parts (511) protruding from inside to outside are arranged on the second insulating male shell (51) so as to accommodate the two second convex parts (411) on the first insulating male shell (41); two fifth convex parts (521) which protrude from the inside to the outside are arranged on the second insulating female shell (52) so as to accommodate the two third convex parts (421) on the first insulating female shell (42).

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