CN219495266U - Sensor probe with high temperature protection structure - Google Patents

Abstract

The utility model relates to the technical field of sensors, in particular to a sensor probe with a high-temperature protection structure, which comprises a connecting shell main body, wherein a sensing head is arranged in the connecting shell main body, a sensor is arranged on the right side of the connecting shell main body, the sensor is connected with the sensing head through a connecting pipe, a mini water pump is arranged on the front surface of the sensor, a water suction pipe is arranged at the input end of the mini water pump, a water storage tank is arranged in the end, far away from the mini water pump, of the water suction pipe, a conveying pipe is arranged at the output end of the mini water pump, and a circulating pipe is arranged in the end, far away from the mini water pump, of the conveying pipe.

Description

Sensor probe with high temperature protection structure

Technical Field

The utility model relates to the technical field of sensors, in particular to a sensor probe with a high-temperature protection structure.

Background

The sensor is a detection device, can sense the measured information, and can convert the sensed information into an electric signal or other information output in a required form according to a certain rule so as to meet the requirements of information transmission, processing, storage, display, recording, control and the like;

patent document CN214794341U discloses a sensor probe, a sensor and a terminal, comprising: the detection rod is axially provided with a first light path channel, a plurality of detection air holes are formed in the radial direction of the detection rod, and the detection air holes are distributed on two sides of the first light path channel and are communicated with the first light path channel; the transmitting and receiving assembly is arranged at one end of the detecting rod and is used for transmitting and/or receiving detection light to the first light path channel; the reflecting component is arranged at the other end of the detecting rod and is fixed in the first light path channel, and is provided with a reflecting surface for reflecting the detection light, so that the detecting device is simple in structure and high in detection precision;

the defects are that: working under high temperature environment, because the inside subassembly does not possess high temperature resistant function, lead to high Wen Chuantou shell to get into inside, lead to inside subassembly to lead to damaging because of high temperature, unable sensing work to influence the progress of work, consequently to the improvement of current sensor probe, design a novel sensor probe that has high temperature protection architecture in order to change above-mentioned technical defect, improve whole sensor probe's practicality, it is important to appear.

Disclosure of Invention

The present utility model is directed to a sensor probe with a high temperature protection structure, so as to solve the above-mentioned problems in the prior art.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

the utility model provides a sensor probe with high temperature protection architecture, includes connects the shell main part, the inside of connecting the shell main part is provided with the sensing head, just the right side of connecting the shell main part is provided with the sensor, the sensor is connected with the sensing head through the connecting pipe, just the front of sensor is provided with mini water pump, the input of mini water pump is provided with the drinking-water pipe, the one end that mini water pump was kept away from to the drinking-water pipe extends to the inside of sensor and is provided with the storage water tank, the output of mini water pump is provided with the conveyer pipe, the one end that mini water pump was kept away from to the conveyer pipe extends to the inside of connecting pipe and is provided with the circulating pipe.

As a preferable scheme of the utility model, a sensing chip is arranged in the sensor, a lead is arranged on the outer side of the sensing head, the lead extends to the inside of the sensor through a connecting pipe to be connected with the sensing chip, and the sensing chip is electrically connected with the sensing head.

As a preferable scheme of the utility model, a first radiating block is arranged on the outer side of the sensing head, a second radiating block is arranged at one end of the water storage tank, which is far away from the mini water pump, and the first radiating block and the second radiating block are made of aluminum alloy materials.

As a preferable scheme of the utility model, a cooling fan is arranged at one end of the sensor, which is close to the second cooling block, a return pipe is arranged at one end of the water storage tank, which is far away from the mini water pump, a cooling pipe is arranged at the outer side of the first cooling block, the circulation pipe and the return pipe are connected with the cooling pipe through connecting pipes, and the connecting pipes, the return pipe and the circulation pipe are made of flexible pipes.

As a preferable scheme of the utility model, a plurality of groups of heat dissipation holes are formed in the outer side of the sensor, heat dissipation grooves are formed in the top of the sensor, and fixing pipes are arranged at two ends, close to the connecting shell main body and the sensor, of the connecting pipe.

As a preferable scheme of the utility model, the inside of the connecting shell main body is sequentially provided with an alloy layer, a titanium alloy layer, a nickel tungsten alloy layer and a connecting layer from outside to inside.

Compared with the prior art, the utility model has the beneficial effects that:

1. according to the utility model, the mini water pump is started through the design of the mini water pump, the cooling liquid in the water storage tank is led into the conveying pipe through the water suction pipe, the cooling liquid is led into the cooling pipe through the circulating pipe, the generated temperature is led to the outer side of the sensing head through the first radiating block when the sensing head operates, the sensing head can be cooled through the cooling pipe, the sensing head is prevented from being influenced by high temperature, sensing work cannot be carried out, and therefore the working progress is influenced.

2. According to the utility model, through the design of the connecting shell main body, the alloy layer has excellent high-temperature strength, good oxidation resistance and hot corrosion resistance, good comprehensive properties such as fatigue property, fracture toughness and the like, the titanium alloy layer has the characteristics of high strength, good corrosion resistance and high heat resistance, the nickel-tungsten alloy is an alloy with high melting point, high hardness and high corrosion resistance, the connecting layer is made of asbestos material, the asbestos has the characteristics of high tensile strength, high flexibility, chemical and thermal corrosion resistance and electric insulation, the problem that components are damaged due to the fact that high temperature enters the inside of the connecting shell main body, normal work cannot be performed, and the problem that the inside components cannot be damaged due to the fact that the inside components do not have the high-temperature resistance function, the inside components cannot be sensed due to the fact that the high Wen Chuantou connecting shell main body enters the inside is solved, and the working process is affected is solved.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic diagram of a sensor head according to the present utility model;

FIG. 3 is a cross-sectional view of the internal structure of the sensor of the present utility model;

fig. 4 is a sectional view showing the internal structure of the connection housing main body of the present utility model.

In the figure: 1. a connection housing body; 2. a sensing head; 3. a sensor; 4. a connecting pipe; 5. a mini water pump; 6. a water pumping pipe; 7. a water storage tank; 8. a delivery tube; 9. a circulation pipe; 10. a sensing chip; 11. a first heat dissipation block; 12. a second heat sink block; 13. a heat radiation fan; 14. a return pipe; 15. a cooling pipe; 16. a heat sink; 17. an alloy layer; 18. a titanium alloy layer; 19. a nickel tungsten alloy layer; 20. and a connection layer.

Detailed Description

The technical solutions of the embodiments of the present utility model will be clearly and completely described below in conjunction with the embodiments of the present utility model, and it is apparent that the described embodiments are only some embodiments of the present utility model, but not all embodiments, and all other embodiments obtained by those skilled in the art without making any inventive effort based on the embodiments of the present utility model are within the scope of protection of the present utility model.

Examples

The embodiment provides a sensor probe with high temperature protection structure, and this equipment can play fine guard action when sensing head 2 uses, has improved sensor probe's whole practicality.

Referring to fig. 1-4, the present utility model provides a technical solution:

the utility model provides a sensor probe with high temperature protection architecture, including connecting shell main part 1, the inside of connecting shell main part 1 is provided with sensing head 2, and the right side of connecting shell main part 1 is provided with sensor 3, sensor 3 is connected with sensing head 2 through connecting pipe 4, and the front of sensor 3 is provided with mini water pump 5, mini water pump 5's input is provided with suction pipe 6, suction pipe 6 is kept away from mini water pump 5's one end and is extended to sensor 3's inside and be provided with storage water tank 7, mini water pump 5's output is provided with conveyer pipe 8, conveyer pipe 8 is kept away from mini water pump 5's one end and is extended to connecting pipe 4's inside and be provided with circulating pipe 9.

Further, referring to fig. 1-3, a sensing chip 10 is disposed in the sensor 3, a wire is disposed on the outer side of the sensing head 2, the wire extends to the inside of the sensor 3 through a connecting pipe 4 to be connected with the sensing chip 10, the sensing chip 10 is electrically connected with the sensing head 2, and the sensing head 2 can sense through the sensing chip 10, so that the sensing chip 10 and the sensing head 2 are required to be specially declared to be in the prior art, and are not excessively described.

Referring to fig. 1-3, a first heat dissipation block 11 is disposed on the outer side of the sensing head 2, the first heat dissipation block 11 and the second heat dissipation block 12 are made of aluminum alloy materials, and the temperature generated by the sensing head 2 during operation is conducted to the outer side through the first heat dissipation block 11.

Secondly, please refer to fig. 1-3, the one end that mini water pump 5 was kept away from to storage water tank 7 is provided with back flow 14, the inside of storage water tank 7 is provided with the coolant liquid, the outside of first radiating block 11 is provided with cooling tube 15, circulating pipe 9 and back flow 14 all are connected with cooling tube 15 through connecting pipe 4, connecting pipe 4 and back flow 14 and circulating pipe 9 are the hose preparation and form, start mini water pump 5, the inside of carrying tube 8 is led into to the inside coolant liquid of storage water tank 7 through drinking water pipe 6, the inside of cooling tube 15 is led into through circulating pipe 9, when the operation is carried out to sensing head 2, the temperature that produces, outside through first radiating block 11 direction its sensing head 2, can cool down it through cooling tube 15, prevent that high temperature from causing the influence to sensing head 2, can't carry out the sensing work, thereby influence the progress of work, the inside of storage water tank 7 can be led into through back flow 14, the inside of sensor 3 is provided with radiator fan 13 near the one end of second radiating block 12, the one end that mini water pump 5 was kept away from to storage water tank 7 is provided with second radiating block 12, the inside of cooling tube 13, guide 7 heat of leading to radiator fan 13 through second radiating block 12, can cool down the inside of second radiating block 12, thereby the cooling tube 13 can be cooled down to the inside of the cooling water tank 7, the temperature can be cooled down, the inside can be cooled down by the second radiating fan 13, the temperature is enabled, the inside can be cooled down.

Furthermore, referring to fig. 1-3, a plurality of groups of heat dissipation holes are formed in the outer side of the sensor 3, and a heat dissipation groove 16 is formed in the top of the sensor 3, so that the air inside the sensor 3 and the air outside the sensor 3 can be exchanged through the heat dissipation holes and the heat dissipation groove 16, the temperature inside the sensor 3 can be reduced, the sensor chip 10 is prevented from being too high in temperature, the sensor chip is prevented from being influenced, fixing pipes are arranged at two ends, close to the connecting shell main body 1 and the sensor 3, of the connecting pipe 4, and the connecting pipe 4 can be connected with the connecting shell main body 1 and the sensor 3 through the fixing pipes.

Further, referring to fig. 1, 2 and 4, the alloy layer 17, the titanium alloy layer 18, the nickel tungsten alloy layer 19 and the connection layer 20 are sequentially disposed in the connection shell body 1 from outside to inside, the alloy layer 17 has excellent high temperature strength, good oxidation resistance and hot corrosion resistance, good fatigue performance, fracture toughness and other comprehensive properties, the titanium alloy layer 18 has the characteristics of high strength, good corrosion resistance and high heat resistance, the nickel tungsten alloy is an alloy with high melting point, high hardness and high corrosion resistance, the connection layer 20 is made of asbestos material, the asbestos has the characteristics of high tensile strength, high flexibility, chemical and thermal corrosion resistance and electrical insulation, the components are prevented from being damaged due to the fact that high temperature enters the connection shell body 1, normal operation is prevented from being performed, the problem that the high Wen Chuantou connection shell body 1 enters the inside due to the fact that the internal components do not have the high temperature resistance function, the internal components are damaged due to high temperature, sensing operation is prevented from being performed, and thus the working progress is affected is avoided.

In this embodiment, the implementation scenario specifically includes: in actual use, the sensing head 2 is firstly placed at a designated position, the whole device is electrified, when the sensing head 2 operates, the generated temperature is guided to the outer side of the sensing head 2 through the first radiating block 11, the mini water pump 5 is started, the cooling liquid in the water storage tank 7 is guided into the conveying pipe 8 through the water suction pipe 6, the cooling liquid is guided into the cooling pipe 15 through the circulating pipe 9, the cooling liquid can be cooled through the cooling pipe 15, the sensing head 2 is prevented from being influenced by high temperature, sensing work cannot be performed, the working process is influenced, at the moment, the heat in the water storage tank 7 can be guided into the water storage tank 7 through the return pipe 14 in the cooling pipe 15, the heat of the water storage tank 7 is guided to the heat dissipation fan 13 through the second radiating block 12, the heat dissipation fan 13 is started, the second radiating block 12 can be cooled, the temperature in the water storage tank 7 can be reduced, so that the cooling liquid can cool the cooling tube 15, the air inside the sensor 3 and the air outside can be exchanged through the heat dissipation holes and the heat dissipation grooves 16, the temperature inside the sensor 3 can be reduced, the alloy layer 17 has excellent high temperature strength, good oxidation resistance and hot corrosion resistance, good fatigue property, fracture toughness and other comprehensive properties, the titanium alloy layer 18 has the characteristics of high strength, good corrosion resistance and high heat resistance, the nickel tungsten alloy is an alloy with high melting point, high hardness and high corrosion resistance, the connecting layer 20 is made of asbestos material, the asbestos has the characteristics of high tensile strength, high flexibility, chemical and heat corrosion resistance and electric insulation, the components are prevented from being damaged due to the fact that high temperature enters the inside of the connecting shell main body 1, normal operation cannot be performed, the phenomenon that the internal components do not have the high temperature resistance function is prevented, the high Wen Chuantou connecting shell main body 1 is led to enter the inside, so that the inner components are damaged due to high temperature, sensing work cannot be carried out, and the working process is influenced.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. Sensor probe with high temperature protection architecture, including connecting shell main part (1), its characterized in that: the inside of connecting shell main part (1) is provided with sensing head (2), just the right side of connecting shell main part (1) is provided with sensor (3), sensor (3) are connected with sensing head (2) through connecting pipe (4), just the front of sensor (3) is provided with mini water pump (5), the input of mini water pump (5) is provided with drinking-water pipe (6), the inside that one end that mini water pump (5) was kept away from to drinking-water pipe (6) extends to sensor (3) is provided with storage water tank (7), the output of mini water pump (5) is provided with conveyer pipe (8), the one end that mini water pump (5) was kept away from to conveyer pipe (8) extends to the inside of connecting pipe (4) and is provided with circulating pipe (9).

2. A sensor probe with high temperature protection architecture according to claim 1, characterized in that: the inside of sensor (3) is provided with sensing chip (10), the outside of sensing head (2) is provided with the wire, the wire is connected with sensing chip (10) through inside and the sensing chip (10) that connecting pipe (4) extend to sensor (3), sensing chip (10) are electric connection with the connected mode of sensing head (2).

3. A sensor probe with high temperature protection architecture according to claim 1, characterized in that: the outside of sensing head (2) is provided with first radiating block (11), the one end that mini water pump (5) was kept away from to storage water tank (7) is provided with second radiating block (12), first radiating block (11) and second radiating block (12) are the aluminium alloy material preparation and form.

4. A sensor probe with high temperature protection architecture according to claim 3, characterized in that: the sensor (3) is close to one end of second radiating block (12) and is provided with radiator fan (13), the one end that mini water pump (5) was kept away from to storage water tank (7) is provided with back flow (14), the outside of first radiating block (11) is provided with cooling tube (15), circulating pipe (9) all are connected with cooling tube (15) through connecting pipe (4) with back flow (14), connecting pipe (4) and back flow (14) and circulating pipe (9) are the hose preparation and form.

5. A sensor probe with high temperature protection architecture according to claim 1, characterized in that: the sensor is characterized in that a plurality of groups of heat dissipation holes are formed in the outer side of the sensor (3), heat dissipation grooves (16) are formed in the top of the sensor (3), and fixing pipes are arranged at two ends, close to the connecting shell main body (1) and the sensor (3), of the connecting pipe (4).

6. A sensor probe with high temperature protection architecture according to claim 1, characterized in that: the inside of the connecting shell main body (1) is sequentially provided with an alloy layer (17), a titanium alloy layer (18), a nickel tungsten alloy layer (19) and a connecting layer (20) from outside to inside.