CN111272300A

CN111272300A - High radiator protector temperature sensor that stability is strong of security

Info

Publication number: CN111272300A
Application number: CN202010123113.6A
Authority: CN
Inventors: 王敏; 刘忠诚
Original assignee: Mingguang Xusheng Technology Co ltd
Current assignee: Mingguang Xusheng Technology Co ltd
Priority date: 2020-02-27
Filing date: 2020-02-27
Publication date: 2020-06-12

Abstract

The invention discloses a radiator protector temperature sensor with high safety and stability, belonging to the technical field of measuring devices, comprising a shell, a fusing protector, a sensor box and an inductor, wherein the top of the inner cavity of the shell is contacted with the fusing protector, the bottom of the inner cavity of the shell is contacted with the protector, and the right side wall of the shell is fixedly connected with the sensor box through a bolt, the radiator protector temperature sensor with high safety and stability has good protection effect on a radiating fin by selecting a fusing protector with 73 ℃ and corresponds to a program of a main control board, a wire-buckle compression mode is adopted, so that a good protection effect can be achieved, an induction element is utilized to induce the internal temperature condition of the protector, data is transmitted to the inductor and is transmitted to a controller through a variable frequency controller, and the fusing protector connected with the radiating fin can be controlled by the main control board, the safety is improved, and the overall stability is strong.

Description

High radiator protector temperature sensor that stability is strong of security

Technical Field

The invention relates to the technical field of measuring devices, in particular to a temperature sensor of a radiator protector, which has high safety and strong stability.

Background

The measuring device is a group of measuring instruments and auxiliary devices combined for measuring, and some auxiliary devices or tools for measuring are also commonly classified as a measuring tool, wherein the temperature measuring device is a category of measuring devices.

The temperature measuring device is an instrument for measuring temperature, the temperature sensor is one of temperature measuring instrument types, and is a sensor which can sense temperature and convert the temperature into a usable output signal, and the temperature sensor is a core part of the temperature measuring instrument and has a plurality of varieties. The measurement method can be divided into a contact type and a non-contact type, and the measurement method can be divided into a thermal resistor and a thermocouple according to the characteristics of sensor materials and electronic elements.

The sensor industry in China starts late, and through the development of more than ten years, an industrial pattern with a certain scale is formed at present, and the sensor industry has the characteristics that (1) more manufacturers are provided, and enterprises with the larger scale are fewer; (2) regional development is unbalanced; (3) the variety is many, the grade is not high; (4) the production and the research are mostly supported by universities and research institutes, and the number of professional companies is small.

Along with the continuous improvement of the degree of automatic production, the requirement on the sensor technology is also continuously improved, the existing temperature sensor has poor protectiveness, cannot avoid effective disconnection in a high-temperature environment, and cannot ensure the reliability of production automation.

Disclosure of Invention

The invention aims to provide a radiator protector temperature sensor with high safety and high stability, and aims to solve the problems that the requirements on sensor technology are continuously improved along with the continuous improvement of the automation production degree, the existing temperature sensor has poor protection performance, the effective disconnection in a high-temperature environment cannot be avoided, and the reliability of production automation cannot be ensured in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a high stability strong radiator protector temperature sensor of security, includes shell, fusing protector, sensor case and inductor, shell cavity top contact the fusing protector, the inner chamber bottom contact of shell the protector, the right side wall of shell passes through bolt fixed connection the sensor case, the inner chamber bottom of sensor case passes through screw fixed connection the inductor, the preceding lateral wall contact of fusing protector has the fin, screw fixed connection has the power through the top of protector, the right side wall of protector passes through screw fixed connection and has the main control board, the electrical output end of main control board passes through wire electric connection the fusing protector, the inner chamber bottom of sensor case passes through screw fixed connection and has the controller, the inside electric connection of controller has induction module, a sensor module, Storage module and trigger module, the electrical property input of controller has frequency conversion controller through wire electric connection, the electrical property output of inductor pass through the wire with frequency conversion controller's electrical property input electric connection, the inside electric connection of inductor has microelectronic chip module, analysis module and transmission module, the electrical property output electric connection of microelectronic chip module analysis module, analysis module's electrical property output electric connection transmission module, the electrical property output electric connection of inductor frequency conversion controller, the electrical property input electric connection of inductor has sensing element, the controller frequency conversion controller with the electrical property input of inductor pass through the wire with the electrical property output electric connection of power.

Preferably, the front side wall of the housing is movably connected with a first flip cover through a hinge, and the front side wall of the first flip cover is provided with a heat dissipation grid.

Preferably, the front side wall of the protector is movably connected with a second flip cover through a hinge.

Preferably, the side surface of the fusing protector is fixedly connected with a side frame through a bolt, and the left side wall of the side frame is fixedly connected with the left side wall of the inner cavity of the shell through a bolt.

Preferably, the front side wall of the power supply is provided with a transverse groove.

Preferably, the inductive element is in contact with the protector.

Preferably, the fusing protector is connected in a wire buckle compression mode, and the fusing degree of the fusing protector is 73 ℃.

Preferably, the front side wall of the sensor box is movably connected with a third flip cover through a hinge.

Compared with the prior art, the invention has the beneficial effects that: this kind of high stability strong radiator protector temperature sensor of security, combination application through the accessory, it is effectual to the protection of fin to select 73 ℃ fusing protector, and correspond with the main control board procedure, adopt the line to detain the crimping mode, can play fine guard action, utilize the inside temperature condition of inductive element to the protector to respond to, and transmit data transmission for the inductor, and transmit for the controller through frequency conversion controller, make the fusing protector who is connected with the fin control with the help of the main control board, increase the security, overall stability is strong.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the interior of the structure of the present invention;

FIG. 3 is a schematic view of the interior of the sensor housing of the present invention;

FIG. 4 is a schematic diagram of the system of the present invention.

In the figure: 100 outer shell, 110 first flip, 120 heat dissipation grid, 130 second flip, 200 fuse protector, 210 side frame, 220 heat sink, 230 power supply, 240 main control board, 300 protector, 400 sensor box, 410 third flip, 420 controller, 421 sensing module, 422 storage module, 423 trigger module, 430 frequency conversion controller, 500 sensor, 510 microelectronic chip module, 520 analysis module, 530 transmission module, 540 sensing element.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The invention provides a high-safety high-stability temperature sensor of a radiator protector, which is convenient for increasing the protection performance through the combined application of accessories, and please refer to fig. 1-4, wherein the temperature sensor comprises a shell 100, a fusing protector 200, a protector 300, a sensor box 400 and an inductor 500;

referring to fig. 1 again, the front side wall of the housing 100 has a first flip 110, specifically, the front side wall of the housing 100 is movably connected with the first flip 110 through a hinge, and the front side wall of the first flip 110 is provided with a heat dissipation grid 120;

referring to fig. 1-2 again, the left sidewall of the fuse protector 200 is fixedly connected to the right sidewall of the inner cavity of the housing 100, specifically, the top of the inner cavity of the housing 100 contacts the fuse protector 200, the front sidewall of the fuse protector 200 contacts the heat sink 220, the side of the fuse protector 200 is fixedly connected to the side frame 210 by a bolt, and the left sidewall of the side frame 210 is fixedly connected to the left sidewall of the inner cavity of the housing 100 by a bolt;

referring to fig. 1-2 again, the bottom of the protector 300 is fixedly connected to the bottom of the inner cavity of the housing 100, specifically, the bottom of the inner cavity of the housing 100 contacts the protector 300, the top of the protector 300 is fixedly connected to the power supply 230 through screws, the right side wall of the protector 300 is fixedly connected to the main control board 240 through screws, and the electrical output end of the main control board 240 is electrically connected to the fuse protector 200 through a wire;

referring to fig. 1-3 again, the left side wall of the sensor box 400 is fixedly connected with the right side wall of the housing 100, specifically, the right side wall of the housing 100 is fixedly connected with the sensor box 400 through bolts, the bottom of the inner cavity of the sensor box 400 is fixedly connected with a controller 420 through screws, the interior of the controller 420 is electrically connected with an induction module 421, a storage module 422 and a trigger module 423, and the electrical input end of the controller 420 is electrically connected with a variable frequency controller 430 through a wire;

referring to fig. 3-4 again, the bottom of the sensor 500 is fixedly connected to the bottom of the inner cavity of the sensor box 400, specifically, the bottom of the inner cavity of the sensor box 400 is fixedly connected to the sensor 500 through screws, the electrical output end of the sensor 500 is electrically connected to the electrical input end of the frequency conversion controller 430 through wires, the interior of the sensor 500 is electrically connected to the microelectronic chip module 510, the analysis module 520 and the transmission module 530, the electrical output end of the microelectronic chip module 510 is electrically connected to the analysis module 520, the electrical output end of the analysis module 520 is electrically connected to the transmission module 530, the electrical output end of the sensor 500 is electrically connected to the frequency conversion controller 430, the electrical input end of the sensor 500 is electrically connected to the sensing element 540 and the controller 420, the electrical input ends of the frequency conversion controller 430 and the inductor 500 are electrically connected with the electrical output end of the power supply 230 through a conducting wire, and the induction element 540 is in contact with the protector 300;

when the fuse protector is used specifically, the first flip 110, the second flip 130 and the third flip 410 are arranged on the casing 100 to respectively shield the fuse protector 200 part, the protector 300 part and the sensor box 400 part, the side frame 210 is connected to the left side wall of the fuse protector 200 to facilitate the fixation of the fuse protector 200 and the casing 100, the heat sink 220 is connected to the front side wall of the casing 100, the fuse protector 200 has good protection effect on the heat sink 220 at 73 ℃, the fuse protector corresponds to the program of the main control board 240, the sensing element 540 is arranged at the position of the protector 300 and transmits data to the sensor 500, the sensor 500 transmits data to the controller 420 through the microelectronic chip module 510, the analysis module 520 and the transmission module 530, the output end of the controller 420 is also connected with the main control board 240, so that the fuse protector 200 connected with the heat sink 220 can be controlled by the main control board 240, the safety is improved, and the overall stability is strong.

Referring to fig. 1-2 again, in order to increase the daily protection performance of the protector 300 and facilitate the heat dissipation performance of the power supply 230, specifically, the front side wall of the protector 300 is movably connected with the second flip cover 130 through a hinge, and the front side wall of the power supply 230 is provided with a transverse groove.

Referring to fig. 2 again, in order to ensure the protection effect, specifically, the fuse protector 200 is connected by a wire-buckle compression method, and the fuse degree of the fuse protector 200 is 73 ℃.

Referring to fig. 2 again, in order to ensure the daily protection of the sensor box 400, specifically, the front side wall of the sensor box 400 is movably connected with a third flip 410 through a hinge.

While the invention has been described above with reference to an embodiment, various modifications may be made and equivalents may be substituted for elements thereof without departing from the scope of the invention. In particular, the various features of the embodiments disclosed herein may be used in any combination, provided that there is no structural conflict, and the combinations are not exhaustively described in this specification merely for the sake of brevity and conservation of resources. Therefore, it is intended that the invention not be limited to the particular embodiments disclosed, but that the invention will include all embodiments falling within the scope of the appended claims.

Claims

1. The utility model provides a high strong radiator protector temperature sensor of security stability which characterized in that: the fuse protector comprises a shell (100), a fuse protector (200), a protector (300), a sensor box (400) and an inductor (500), wherein the top of an inner cavity of the shell (100) is contacted with the fuse protector (200), the bottom of an inner cavity of the shell (100) is contacted with the protector (300), a right side wall of the shell (100) is fixedly connected with the sensor box (400) through a bolt, the bottom of the inner cavity of the sensor box (400) is fixedly connected with the inductor (500) through a screw, a front side wall of the fuse protector (200) is contacted with a cooling fin (220), the top of the protector (300) is fixedly connected with a power supply (230) through a screw, the right side wall of the protector (300) is fixedly connected with a main control board (240) through a screw, and an electrical output end of the main control board (240) is electrically connected with the, the bottom of the inner cavity of the sensor box (400) is fixedly connected with a controller (420) through a screw, the interior of the controller (420) is electrically connected with a sensing module (421), a storage module (422) and a trigger module (423), the electrical input end of the controller (420) is electrically connected with a variable frequency controller (430) through a lead, the electrical output end of the sensor (500) is electrically connected with the electrical input end of the variable frequency controller (430) through a lead, the interior of the sensor (500) is electrically connected with a microelectronic chip module (510), an analysis module (520) and a transmission module (530), the electrical output end of the microelectronic chip module (510) is electrically connected with the analysis module (520), the electrical output end of the analysis module (520) is electrically connected with the transmission module (530), and the electrical output end of the sensor (500) is electrically connected with the variable frequency controller (430), the electrical input end of the inductor (500) is electrically connected with an induction element (540), and the electrical input ends of the controller (420), the frequency conversion controller (430) and the inductor (500) are electrically connected with the electrical output end of the power supply (230) through a lead.

2. The heat sink protector temperature sensor as recited in claim 1, wherein the sensor further comprises: the front side wall of the shell (100) is movably connected with a first turnover cover (110) through a hinge, and the front side wall of the first turnover cover (110) is provided with a heat dissipation grid (120).

3. The heat sink protector temperature sensor as recited in claim 1, wherein the sensor further comprises: the front side wall of the protector (300) is movably connected with a second flip cover (130) through a hinge.

4. The heat sink protector temperature sensor as recited in claim 1, wherein the sensor further comprises: the side face of the fusing protector (200) is fixedly connected with a side frame (210) through a bolt, and the left side wall of the side frame (210) is fixedly connected with the left side wall of the inner cavity of the shell (100) through a bolt.

5. The heat sink protector temperature sensor as recited in claim 1, wherein the sensor further comprises: the front side wall of the power supply (230) is provided with a transverse groove.

6. The heat sink protector temperature sensor as recited in claim 1, wherein the sensor further comprises: the inductive element (540) is in contact with the protector (300).

7. The heat sink protector temperature sensor as recited in claim 1, wherein the sensor further comprises: the fusing protector (200) is connected in a wire buckle compression mode, and the fusing degree of the fusing protector (200) is 73 ℃.

8. The heat sink protector temperature sensor as recited in claim 1, wherein the sensor further comprises: the front side wall of the sensor box (400) is movably connected with a third flip cover (410) through a hinge.