CN217823550U - Wiring structure, temperature control system and electrical equipment - Google Patents

Abstract

The utility model discloses a wiring structure, temperature control system and electrical equipment, wherein, the wiring structure is applied to electrical equipment, including terminal seat and temperature-detecting device, temperature-detecting device can locate detachablely on the terminal seat, be used for detecting wiring structure's temperature. The temperature detection device is used for solving the problem that the temperature is too high and even potential safety hazards appear due to the fact that the temperature of the wiring terminal and the temperature of the surrounding environment of the wiring terminal cannot be detected in time.

Description

Wiring structure, temperature control system and electrical equipment

Technical Field

The utility model relates to an electrical connection technical field, concretely relates to wiring structure, temperature control system and electrical equipment.

Background

Generally, in electrical connection, it is inevitable that a wiring structure generates heat due to current transmission, but if the wiring structure is not completely connected, contact resistance increases due to poor contact, and in the case of a large current, the temperature of the position of the wiring structure with poor contact continuously increases, and if the temperature of the wiring structure cannot be detected in time and prevented, potential safety hazards such as machine burn or fire hazard easily occur.

SUMMERY OF THE UTILITY MODEL

One of the main objects of the utility model is to provide a wiring structure for solve because of the temperature that can't in time detect binding post and surrounding environment, lead to the high temperature problem that appears the potential safety hazard even.

In order to achieve the above object, the utility model provides a wiring structure is applied to electrical equipment, wiring structure includes:

a terminal block;

and the temperature detection device is detachably arranged on the terminal seat and is used for detecting the temperature of the wiring structure.

In an embodiment, the terminal block is provided with a plurality of insulating baffles, the insulating baffles are arranged on the terminal block at intervals, and an installation position is arranged between any two adjacent insulating baffles.

In one embodiment, the mounting site is provided with a conductive sheet.

In one embodiment, the temperature detection device is connected to the insulating baffle; and/or the temperature detection device is connected to the mounting position.

In an embodiment, the temperature detecting device employs a temperature sensor, the terminal block is provided with a first connecting portion, the temperature sensor is provided with a second connecting portion, and the wiring structure further includes a first locking member, which connects the first connecting portion and the second connecting portion to fix the temperature sensor and the terminal block.

In an embodiment, the first connecting portion includes a first connecting hole provided on the terminal block, the second connecting portion includes a second connecting hole provided on the temperature sensor, a first nut is further provided at a position of the terminal block corresponding to the first connecting hole, and the first locking member is configured to connect and fix the first nut and the second connecting hole.

In an embodiment, the wiring structure further includes a wiring terminal connected to the terminal block, and the temperature detection device is disposed near the wiring terminal and used for detecting the temperature of the wiring terminal and the ambient environment.

In one embodiment, the connecting terminal is provided in plurality, and a plurality of the connecting terminals are connected to a plurality of the terminal blocks in a one-to-one manner.

The utility model discloses a second main objective lies in providing a temperature control system for solve because of the temperature of unable in time detecting binding post and surrounding environment, lead to the high temperature problem that the potential safety hazard appears even.

In order to achieve the above object, the present invention provides a temperature control system for an electrical device, the electrical device including a working circuit, the temperature control system including a control circuit, an early warning circuit and a wiring structure according to one of the objects of the present invention, the control circuit being electrically connected to the temperature detection device and the early warning circuit respectively, the control circuit being further configured to be connected to the working circuit;

and the control circuit is used for controlling the early warning circuit to carry out early warning when the temperature detected by the temperature detection device reaches a preset temperature, and controlling the working circuit to stop working.

The utility model discloses a third of main purpose provides an electrical equipment for solve because of the temperature of unable timely detection binding post and surrounding environment, lead to the high temperature problem that appears the potential safety hazard even.

In order to achieve the above object, the present invention provides an electrical apparatus, which includes a wiring structure according to one of the objects of the present invention; alternatively, the electrical apparatus comprises a working circuit and a temperature control system as in the second aspect of the invention, the control circuit of the temperature control system further being adapted to be connected to the working circuit.

Compared with the prior art the utility model discloses following beneficial effect has:

a temperature detection device is arranged for detecting the temperature of the wiring structure in time, optimizing the temperature detection precision and stability and reducing the detection error; the temperature detection device is arranged at any position of the terminal base through detachable connection, and is used for flexibly setting the connection position of the temperature detection device according to the actual connection condition, so that the temperature detection device is suitable for detecting the temperature of the wiring structure at different connection positions of the electrical equipment in real time and is convenient to disassemble and assemble; the temperature of the wiring structure is timely detected through the temperature detection device, the wiring structure is used for monitoring the current temperature in real time, the temperature caused by poor contact is prevented from being too high as early warning, potential safety hazards are effectively prevented, and when the current temperature caused by ineffective connection of the connection structure of the electrical equipment is too low, the electrical connection condition is verified according to the temperature detected in real time.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

Fig. 1 is a schematic structural diagram of an embodiment of the wiring structure of the present invention;

FIG. 2 is a schematic view of the assembled structure of FIG. 1;

fig. 3 is a schematic structural diagram of another embodiment of the wiring structure of the present invention;

FIG. 4 is a schematic view of the assembled structure of FIG. 3;

FIG. 5 is a schematic view of the structure of FIG. 3 in another assembled state;

fig. 6 is a schematic structural diagram of another embodiment of the wiring structure of the present invention;

fig. 7 is a schematic structural diagram of a wiring structure according to another embodiment of the present invention;

fig. 8 is a functional block diagram of an embodiment of the temperature control system of the present invention;

fig. 9 is a flow chart of an embodiment of the present invention;

in the figure: 100. a wiring terminal; 101. a wiring slot; 1011. a connecting member; 102. mounting holes; 200. a terminal block; 201. an installation position; 202. an insulating baffle; 203. a first connection portion; 2031. a first connection hole; 204. a conductive sheet; 205. a connection bit; 300. a temperature detection device; 301. a second connecting portion; 3011. a second connection hole; 401. a first locking member; 402. a second locking member; 501. a first nut; 600. connecting a lead; 701. a control circuit; 702. a working circuit; 703. and an early warning circuit.

The realization, the functional characteristics and the advantages of the utility model are further explained by combining the embodiment and referring to the attached drawings.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art without making creative efforts belong to the protection scope of the present invention.

It should be noted that, if all the directional indications in the embodiments of the present invention are only used to explain the relative position relationship between the components, the motion situation, etc. in a certain posture, if the certain posture is changed, the directional indication is changed accordingly.

If in the present application the description referring to "first", "second", etc. is used for descriptive purposes only and not to be construed as indicating or implying a relative importance or implying a number of indicated technical features. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. If in the present invention a description of "a and/or B" is referred to, this means either comprising scheme a or scheme B, or comprising scheme a and scheme B. In addition, the technical solutions in the embodiments may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory to each other or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.

Referring to fig. 1 to 9, the utility model provides a wiring structure, temperature control system and electrical equipment.

Wiring structure, be applied to electrical equipment, wiring structure includes terminal seat 200 and temperature-detecting device 300. Wherein:

the temperature detecting device 300 is detachably disposed on the terminal base 200, and is used for detecting the temperature of the wiring structure.

The temperature detection device 300 is arranged and used for detecting the temperature of the wiring structure in time, optimizing the temperature detection precision and stability and reducing the detection error; referring to fig. 1 to 7, the temperature detection device 300 is detachably connected to any position of the terminal block 200, and is used to flexibly set the connection position of the temperature detection device 300 according to the actual connection condition, so as to be suitable for detecting the temperature of the wiring structure at different connection positions of the electrical equipment in real time, thereby facilitating the disassembly and assembly; the temperature of the wiring structure is timely detected through the temperature detection device 300, the current temperature is monitored in real time, the temperature caused by poor contact is prevented from being too high as early warning, potential safety hazards are effectively prevented, and the electric connection condition can be verified according to the temperature detected in real time when the current temperature caused by ineffective connection of the connection structure of the electric equipment is too low.

Optionally, for the dismouting, set up temperature-detecting device 300 is located detachablely on the terminal seat 200, temperature-detecting device, terminal seat can adopt threaded connection, cup joint, lock joint, bonding, magnetism etc. to be suitable for the mode of in-service use wantonly to link into an integrated entity, specifically can temperature-detecting device and/or terminal seat set up connection screens, threaded connection position, spliced pole, nut or lock joint spare etc. to link into an integrated entity with the two, of course, also can set up connecting piece such as locking part alone, through the cooperation of being connected of this connecting piece and temperature-detecting device and/or terminal seat, accomplish terminal seat and temperature-detecting device's being connected.

In an embodiment, for convenience of material drawing and processing, the temperature detecting device 300 employs a temperature sensor, the terminal block 200 is provided with a first connecting portion 203, the temperature sensor is provided with a second connecting portion 301, the wiring structure further includes a first locking member 401, and the first locking member 401 is connected to the first connecting portion 203 and the second connecting portion 301, so as to connect and fix the temperature sensor and the terminal block 200.

It is understood that the first connecting portion 203 may be disposed at different positions of the terminal block 200, the first connecting portion 203 may be one or more, and when there are a plurality of first connecting portions 203, the plurality of first connecting portions 203 are partially disposed at different positions of the terminal block 200. The second connecting portion 301 is also located in the temperature detecting device 300.

According to practical applications, the first connection portion 203 refers to a position where the terminal block 200 is connected to the temperature sensor, and optionally, one or more connection sites on the terminal block 200 may be used as the first connection portion 203; alternatively, the first connection portion 203 may be configured as a connection structure that is attached to the terminal block 200 in any form suitable for practical use, such as riveting, welding, and clamping, and the first connection portion 203 may be disposed at any one or more positions of the terminal block 200; of course, in practical use, it is not excluded that the terminal base 200 and the first connecting portion 203 are integrally formed by injection molding or the like. The second connecting portion 301 is also located at the temperature sensor.

The temperature sensor and the terminal block 200 are connected and fixed through the first locking piece 401, so that the temperature sensor and the terminal block 200 are prevented from being shifted to influence the actual detection effect.

Alternatively, the first connection portion 203 and/or the second connection portion 301 may be provided as a connection hole for easy processing.

In an embodiment, the first connection portion 203 includes a first connection hole 2031 disposed on the terminal block 200, the second connection portion 301 includes a second connection hole 3011 disposed on the temperature sensor, a first nut 501 is further disposed on the terminal block 200 at a position corresponding to the first connection hole 2031, and the first locking member 401 is configured to connect and fix the first nut 501 and the second connection hole 3011.

It is understood that the first connection hole 2031 and/or the second connection hole 3011 may have a slightly larger diameter than the first locking member 401, so that the first locking member 401 may partially or completely pass through the first connection hole 2031 and the second connection hole 3011 to connect and fix the temperature sensor with the terminal block 200. The first locking member 401 may be configured as a bolt, a screw, a clip, etc. adapted to the first connection hole 2031 and the second connection hole 3011. Of course, according to practical applications, it is not excluded that the first locking member 401 is configured as a locking structure formed by combining one or more connecting members.

In addition, the first locking member 401 may be configured to pass through the first connection hole 2031 and the second connection hole 3011 to connect and fix the temperature sensor and the terminal block 200.

In an embodiment, referring to fig. 7, the first nut 501 may be disposed in any position of the terminal block 200 through a first connection hole 2031 by riveting, welding, bonding, integral molding, and the like, corresponding to the position of the first connection hole. The first nut 501 may be provided on an outer surface of any position of the terminal base 200 by aligning the first connection hole 2031, or the first nut 501 may be directly fitted into the first connection hole 2031; of course, the first connection hole 2031 may be formed in the middle of the first nut 501. Alternatively, there may be one or more first nuts 501, and when there are a plurality of first nuts 501, the plurality of first nuts 501 may be disposed on the plurality of first connection holes 2031 at different positions of the terminal block 200 in a manner that one first nut 501 corresponds to one first connection hole 2031. Of course, according to practical use, it is not excluded that the first nut 501 is separately provided at any position of the terminal block 200 without providing the first connection hole 2031, and the first nut 501 may be provided at any position such as an end portion and a side edge of the terminal block 200.

In an embodiment, the connection structure further includes a connection terminal 100, the connection terminal 100 is connected to the terminal block 200, and the temperature detection device 300 is disposed near the connection terminal 100 and is configured to detect the temperature of the connection terminal 100 and the surrounding environment thereof.

The temperature detection device 300 is arranged on the terminal block 200 in a manner of being close to the wiring terminal 100, so that the connection position of the temperature detection device 300 is flexibly set according to the actual connection condition, the temperature detection device is suitable for detecting the temperature of the wiring terminal 100 and the surrounding environment thereof in different positions of electrical equipment in real time, and the temperature detection device 300 is prevented from directly contacting the wiring terminal 100 to influence the detection result.

In the present invention, the terminal block 200 may be provided with one or more insulating baffles 202, and when a plurality of insulating baffles 202 are provided, the connection terminal 100 is connected between two insulating baffles 202 arranged at adjacent intervals; of course, the insulating barrier 202 may not be provided, and the connection terminal 100 is directly connected to the terminal block 200.

In one embodiment, the mounting site 201 is provided with a conductive sheet 204. In order to realize electric conduction, a conducting strip 204 is arranged between the terminal block 200 and the connecting terminal 100, and the connecting terminal is arranged on the conducting strip 204.

The conductive sheet 204 may be fixed to the terminal base 200 by any form of welding, bonding, and the like, in an example, a conductive sheet is disposed between any two adjacent insulating barriers, and the terminal 100 is disposed on the conductive sheet 204.

In an embodiment, the terminal block 200 is provided with a plurality of insulating barriers 202, the insulating barriers 202 are spaced apart from each other on the terminal block 200, a mounting position 201 is disposed between any two adjacent insulating barriers 202, the terminal 100 is provided with a plurality of terminals 100, and the plurality of terminals 100 are connected to the mounting positions 201 one by one. Further, the connection terminal 100 is disposed at the mounting position 201 through the conductive sheet 204.

Alternatively, for convenience of processing, a connection position such as a screw hole, a connection hole, etc. may be provided at the mounting position 201, and the connection terminal 100 is fixed on the mounting position 201 by the second locking member 402 to complete the connection and fixation of the connection terminal 100 and the terminal block 200.

In an embodiment, a plurality of insulating baffles 202 are disposed on the terminal block 200, a connection position 205 suitable for the connection terminal 100 is disposed between two adjacent insulating baffles 202, the connection position 205 is used as an installation region of the connection terminal 100 disposed on the terminal block 200, and the installation position 201 is disposed on the connection position 205 or the insulating baffles 202 for spacing the connection positions. One or more of the mounting positions 201 may be disposed between two adjacent insulation barriers 202.

Optionally, a plurality of insulating barriers 202 are disposed on the terminal block 200 to be suitable for connecting a plurality of terminals 100, each terminal 100 is separated by the insulating barriers 202 to avoid mutual influence, and the plurality of terminals 100 are connected to the connecting position between two adjacent insulating barriers 202 one by one. A plurality of the insulation blocking plates 202 may be provided at one or more sides of the terminal block 200 at intervals.

In one embodiment, the temperature detecting device 300 is connected to the insulating barrier 202; and/or the temperature detection device 300 is connected to the installation site.

Optionally, the temperature detection device 300 is connected to the insulating barrier 202, the first connection portion 203 is disposed on the insulating barrier 202, and the first locking member 401 is connected to the first connection portion 203 and the second connection portion 301 to connect and fix the temperature detection device 300 and the insulating barrier 202 of the terminal block 200; the temperature detecting device 300 may be connected to the mounting position 201, or connected to the mounting position 201 through the conductive sheet 204, wherein the conductive sheet 204 may be disposed between the terminal 100 and the terminal block 200, the first connection portion 203 is disposed on the conductive sheet 204, or the conductive sheet 204 is relatively independently disposed at the insulating baffle 202 of the terminal block 200 or the connection position 205 between the insulating baffles 202, the first connection portion 203 is disposed on the conductive sheet 204, and the first locking member 401 is connected to the first connection portion 203 and the second connection portion 301 to connect and fix the temperature detecting device 300 and the conductive sheet 204 disposed on the terminal block; of course, the terminal block 100 may be provided in plurality, the terminal block 200 may be provided with a plurality of mounting portions 201, the plurality of terminal blocks 100 may be connected to the plurality of mounting portions 201 one to one, a plurality of temperature detection devices 300 may be provided corresponding to the number of the terminal blocks 100, the plurality of temperature detection devices 300 may be provided adjacent to the terminal block 100 one to one, and referring to fig. 1 to 7, the temperature detection devices 300 may be connected to the insulating barrier 202 and/or the conductive sheet 204 of the terminal block 200 corresponding to each of the terminal blocks 100. Alternatively, referring to fig. 6, the connection terminal and the temperature detection device corresponding to the connection terminal may be connected to the same conductive sheet according to actual use.

In addition, it is not excluded that the temperature detection device 300 is connected to any position of the corresponding terminal depending on actual use.

In one embodiment, the wire connecting terminal 100 has a first end and a second end opposite to each other, the first end is provided with the mounting hole 102, the second end is provided with the wire connecting slot 101, the wire connecting slot 101 extends along the length of the wire connecting terminal 100 for inserting a connecting wire, and the wire connecting structure further includes a second locking member 402, the second locking member 402 penetrates through the mounting hole 102 for fixing the wire connecting terminal 100 to the terminal base 200.

Further, for convenience of processing, the connection terminal 100 has a cylindrical shape, and a second end of the connection terminal 100 is provided with a connection groove 101 extending along an axial direction thereof for inserting and connecting the wire 600. Alternatively, in one example, the terminal 100 may be provided in a cylindrical shape with a peripheral side wall surface closed by a connector 1011.

Alternatively, in another example, the peripheral sidewall of the terminal 100 is opened with a gap extending along the length thereof, and the gap is disposed through at least one end of the terminal 100 in the length direction. The peripheral sidewall of the terminal 100 is provided with a gap extending along the length thereof, the gap being provided at least through one end of the length of the terminal 100. When grafting connecting wire 600, binding post 100 can take place deformation of certain degree, makes it have certain ductility in order to be applicable to the connecting wire 600 of different external diameters or be equipped with connecting wire 600's spliced pole, and after the completion is pegged graft, presss from both sides tightly connecting wire 600 by the inside wall face of wiring groove 101, with stable connection connecting wire 600 or be equipped with connecting wire 600's spliced pole etc. avoid taking place the offset.

In the above example, the gap is at least provided through one end of the length of the connection terminal 100, that is, the gap may extend from the middle of the peripheral side wall of the connection terminal 100 to one end of the connection terminal 100 near the connection wire 600, and the gap is provided through one end of the length of the connection terminal 100; or, the gap extends from one end of the connection terminal 100 to the other end along the length of the connection terminal 100, so that the gap penetrates through both ends of the length of the connection terminal 100; of course, it is not excluded that the gap extends from the middle of the peripheral side wall of the connection terminal 100 to both ends of the connection terminal 100, respectively.

Alternatively, the peripheral side wall of the terminal 100 may be provided with one or more gaps, and when there are a plurality of gaps, the plurality of gaps may be provided at equal or unequal intervals along the peripheral side wall of the terminal 100.

Further, in addition to the above example, for convenience of processing, the terminal 100 may be provided in a tubular shape, and a gap extending in an axial direction of the terminal 100 may be provided on a peripheral side wall of the tubular terminal 100, the gap being provided to penetrate at least one axial end of the terminal 100. When the terminal 100 has only one gap, the terminal 100 may be optionally provided in a cylindrical shape surrounded by a connecting member, and both end sides of the terminal 100 are not in contact with each other, so that the gap is formed between both end sides of the terminal 100.

The second locking piece 402 is connected with the mounting hole 102 and the mounting position 201, and the wiring terminal 100 is fixed to the mounting position 201 of the terminal block 200 through locking connection of the second locking piece 402, so that loose or loose locking of the wiring terminal 100 is avoided, and machine burning or fire caused by poor contact of electrical equipment with the wiring structure is effectively prevented.

Optionally, a conductive plate 204 is disposed between the terminal block 200 and the connection terminal 100, according to practical use, the mounting hole 102 is disposed on the conductive plate 204, and the second locking member 402 is connected to the mounting hole 102 and the mounting position 201, and is used to fix the connection terminal 100 on the corresponding mounting position 201 on the conductive plate 204.

Further, the mounting hole 102 and the mounting position 201 may be configured as connecting hole positions such as a screw hole, or connecting parts such as a nut are disposed on the mounting position 201, and the second locking member 402 adopts locking parts such as a bolt adapted to be connected with the screw hole or the nut, so as to fixedly connect the terminal 100 to the terminal base 200.

As an example of the present invention, the mounting hole 102 is formed at a first end of the connection terminal 100, and the connection slot 101 is formed at a second end of the connection terminal 100. Optionally, the installation hole 102 is not excluded from being disposed at any position of the connection terminal 100 according to practical use.

The utility model also provides a temperature control system, temperature control system be used for electrical equipment, electrical equipment includes working circuit 702, temperature control system includes control circuit 701, early warning circuit 703 and as above the wiring structure, control circuit 701 with temperature-detecting device 300 early warning circuit 703 electricity respectively connects, control circuit 701 still be used for with working circuit 702 connects.

The control circuit 701 is configured to control the early warning circuit 703 to perform early warning when the temperature detected by the temperature detection device 300 reaches a preset temperature, and control the working circuit 702 to stop working.

It can be understood that, in order to avoid the situation that the electrical equipment cannot normally work due to incomplete connection, non-connection or failure in connection or the like, or potential safety hazards such as machine burning or fire caused by poor contact, the temperature of the electrical equipment is preset, and the temperature of the connection terminal 100 and the surrounding environment thereof is detected in real time by the temperature detection device 300. The temperature of the electrical device is preset, optionally, the temperature threshold of the electrical device is preset, the temperature threshold is used as a temperature range of a wiring circuit in a normal working state of the electrical device, the temperature detection device 300 transmits the detected temperature to the control circuit 701, the control circuit 701 judges whether the detected temperature exceeds the preset temperature threshold, and the temperature detection device is used for controlling the early warning circuit 703 to perform early warning when the temperature detected by the temperature detection device 300 is higher than or lower than the preset temperature threshold of the electrical device, so as to remind the user, and controlling the working circuit 702 to stop working, and performing shutdown processing on the electrical device, so as to further complete verification of the circuit connection condition of the electrical device, effectively detect the connection fault between the wiring terminal 100 and the terminal base 200, prevent potential safety hazards such as burn-out and fire due to poor contact between the wiring terminal 100 and the terminal base 200, avoid shutdown through manual control, facilitate use, and reduce dependence on manual work.

In practical use, optionally, a fuse is not connected to the control circuit 701, the temperature detection device 300 is used for detecting the temperature of the wiring terminal 100 and the temperature around the wiring terminal in real time, the temperature detection device 300 is used for transmitting the detected temperature to the control circuit 701, the control circuit 701 is used for comparing the detected temperature with a preset temperature threshold value, when the current temperature reaches a preset open circuit temperature, the fuse is disconnected, a power supply loop of the electrical equipment is further controlled, the electrical equipment stops running, after the electrical equipment stops running, the working current of the electrical equipment does not flow through the wiring terminal 100 any more, the situation that the current still flows through the wiring terminal 100 when the temperature is high is avoided, the protection effect on the electrical equipment can be achieved, the power utilization safety is optimized, and accidents are avoided.

The utility model also provides an electrical equipment.

In an embodiment, the utility model provides an but electrical equipment of real-time detection temperature, electrical equipment includes as above the wiring structure, electrical equipment passes through the temperature of temperature-detecting device 300 real-time detection binding post 100 and surrounding environment, the specific implementation mode of wiring structure as above, no longer describe herein.

Optionally, the electrical equipment of the present invention can be stopped in time when the temperature is too high or too low, so as to avoid potential safety hazards, and on the basis of the above example, the electrical equipment includes the wiring structure, further includes a working circuit 702 and the temperature control system, and the control circuit 701 is connected to the temperature detection device 300 and the working circuit 702 respectively; the control circuit 701 is configured to control the working circuit 702 to stop working when the temperature detected by the temperature detecting device 300 reaches a preset temperature.

Optionally, electrical equipment when the high temperature or cross early warning in time of low, warn through buzzer, pilot lamp and other audible and visual alarm forms, or through being connected to modes such as remote equipment to remind and carry out corresponding precautionary measure, avoid appearing the potential safety hazard. On the basis of the above example, the electrical equipment further includes an early warning circuit 703, and the control circuit 701 is connected to the early warning circuit 703 and is configured to control the early warning circuit 703 to perform early warning when the temperature detected by the temperature detection device 300 reaches a preset temperature.

The control circuit 701 is configured to control the working circuit 702 to stop working when the temperature detected by the temperature detection device 300 reaches a preset temperature, and control the early warning circuit 703 to perform early warning, so as to implement shutdown and alarm processing on the electrical equipment. It should be noted that, optionally, the control circuit 701 is configured to control the early warning circuit 703 to perform early warning when the temperature detected by the temperature detection device 300 reaches a preset temperature, and then control the working circuit 702 to stop working, so as to implement shutdown and alarm processing on the electrical equipment; and vice versa, so as to realize the shutdown and alarm processing of the electrical equipment. Of course, according to actual use, the preset temperature of the electrical device includes a preset early warning temperature and a preset shutdown temperature, the control circuit 701 is configured to control the early warning circuit 703 to perform early warning when the temperature detected by the temperature detection device 300 reaches the preset early warning temperature, and control the working circuit 702 to stop working when the detected temperature reaches the preset shutdown temperature.

In another embodiment, the electrical device comprises an operating circuit 702 and the temperature control system described above, and the control circuit 701 of the temperature control system is further configured to be connected to the operating circuit 702. The specific embodiments of the wiring structure and the temperature control system are as described above, and are not described herein again.

The above is only the optional embodiment of the present invention, and not therefore the limit of the patent scope of the present invention, all of which are in the concept of the present invention, the equivalent structure transformation of the content of the specification and the drawings is utilized, or the direct/indirect application is included in other related technical fields in the patent protection scope of the present invention.

Claims (10)

1. A wiring structure applied to an electric device, characterized in that the wiring structure comprises:

a terminal block;

and the temperature detection device is detachably arranged on the terminal seat and is used for detecting the temperature of the wiring structure.

2. The wiring structure according to claim 1, wherein the terminal block is provided with a plurality of insulating baffles, the insulating baffles are arranged on the terminal block at intervals, and a mounting position is arranged between any two adjacent insulating baffles.

3. The wiring structure according to claim 2, wherein the mounting site is provided with a conductive sheet.

4. The wiring structure according to claim 2, wherein said temperature detecting means is connected to said insulating shutter; and/or the temperature detection device is connected to the mounting position.

5. The wiring structure according to claim 1, wherein the temperature detection device employs a temperature sensor, the terminal block is provided with a first connecting portion, the temperature sensor is provided with a second connecting portion, and the wiring structure further comprises a first locking member, the first locking member connects the first connecting portion and the second connecting portion to fix the temperature sensor and the terminal block.

6. The wiring structure according to claim 5, wherein the first connecting portion includes a first connecting hole disposed on the terminal block, the second connecting portion includes a second connecting hole disposed on the temperature sensor, a first nut is disposed on the terminal block at a position corresponding to the first connecting hole, and the first locking member is configured to connect and fix the first nut and the second connecting hole.

7. The wiring structure according to claim 1, further comprising a wiring terminal connected to the terminal block, wherein the temperature detection means is disposed near the wiring terminal for detecting a temperature of the wiring terminal and its surroundings.

8. The wiring structure according to claim 7, wherein said wiring terminal is plural in number, and a plurality of said wiring terminals are connected to a plurality of said terminal blocks one to one.

9. A temperature control system for electrical equipment, the electrical equipment comprising a working circuit, wherein the temperature control system comprises a control circuit, an early warning circuit and a wiring structure according to any one of claims 1 to 8, the control circuit is electrically connected with the temperature detection device and the early warning circuit respectively, and the control circuit is also used for being connected with the working circuit;

and the control circuit is used for controlling the early warning circuit to carry out early warning when the temperature detected by the temperature detection device reaches a preset temperature, and controlling the working circuit to stop working.

10. An electrical apparatus, characterized in that it comprises a wiring structure according to any one of claims 1-8; alternatively, the electrical device comprises an operating circuit and a temperature control system according to claim 9, the control circuit of the temperature control system being further adapted to be connected to the operating circuit.

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