A furnace temperature measurement system

By designing a furnace temperature measurement system with support columns, an adjustable telescopic mechanism, and a real-time display dial, the problems of easy equipment damage and difficult adjustment in existing technologies have been solved. This system enables real-time, convenient measurement of furnace temperature and ensures equipment stability, adapting to the measurement needs of different operating scenarios.

CN224498472UActive Publication Date: 2026-07-14POWERCHINA FUJIAN ELECTRIC POWER SURVEY & DESIGN INST CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
POWERCHINA FUJIAN ELECTRIC POWER SURVEY & DESIGN INST CO LTD
Filing Date
2025-06-26
Publication Date
2026-07-14

AI Technical Summary

Technical Problem

Existing furnace temperature measurement equipment is prone to damage and has a complex measurement system. It cannot adjust the height and orientation of the equipment as needed, making manual measurement time-consuming, labor-intensive, and posing safety hazards.

Method used

A furnace temperature measurement system was designed, including a support column, an adjustable telescopic mechanism, a temperature detection mechanism, and a real-time display dial. The system is moved by universal wheels, and the height and orientation of the equipment are adjusted using the adjustable telescopic mechanism and positioning bolts. It is combined with a temperature sensor and a wireless transceiver for real-time management and unified control.

Benefits of technology

It enables real-time and convenient measurement of furnace temperature, improves equipment stability and safety, reduces manual intervention, and adapts to the measurement needs of different operating scenarios.

✦ Generated by Eureka AI based on patent content.

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Patent Text Reader

Abstract

The utility model provides a hearth temperature measurement system relates to hearth temperature detection equipment technical field. Including support column, support bottom plate is fixedly connected with the bottom of support column, through setting support column, adjusting telescopic mechanism and real -time display dial, through first limit nut convenient to support foot stand and support side plate installation, so that better different height, specification ground support foot stand replacement, so as to improve the stability of equipment static, cooperate subsequent normal temperature measurement, through a plurality of reinforcing side plate support bottom plate and support column reinforcing installation, improved the stability of equipment, when needing to measure height adjustment, through taking off first locating bolt, support column is taken out from installation slipper bottom, thereby realizes the height adjustment of installation slipper, through two first locating bolt height adjustment after installation slipper and support column positioning processing, convenient to the equipment height adjustment of temperature measurement, thereby satisfies different operation scene measurement temperature required.
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Description

Technical Field

[0001] This utility model relates to the technical field of furnace temperature detection equipment, and in particular to a furnace temperature measurement system. Background Technology

[0002] Boiler furnace temperature is a crucial operating parameter for coal-fired power units. Real-time monitoring of furnace temperature helps ensure safe operation, and effective control of furnace temperature can suppress pollutant generation. Currently, there are various furnace temperature measurement technologies, including thermocouples, fiber optics, infrared spectrometers, ultrasonic thermometers, and radiation thermometers. Among these, thermocouples are the most common in practical applications due to their simple structure and wide temperature range. Fiber optics, as a carrier of temperature information, offer advantages such as high upper temperature limit, high accuracy, and fast dynamic response. Infrared spectrometers determine temperature by measuring the radiant energy of specific gases (such as CO2) in the furnace.

[0003] In practice, existing technologies for measuring furnace temperature suffer from problems such as easily damaged measuring equipment, complex measuring systems, and the inability to adjust the height, orientation, or length of the measuring equipment as needed. This necessitates manual measurement with human assistance, which is time-consuming, labor-intensive, and poses certain safety hazards, causing numerous inconveniences.

[0004] Therefore, this utility model provides a furnace temperature measurement system. Utility Model Content

[0005] The purpose of this invention is to overcome the shortcomings of existing technologies and provide a furnace temperature measurement system.

[0006] To achieve the above objectives, this utility model adopts the following technical solution: a furnace temperature measurement system, including a support column,

[0007] The bottom of the support column is fixedly connected to a support base plate, and support side plates are fixedly connected to all four sides of the support base plate. All four support side plates are equipped with casters at their bottoms. The four support side plates and the support base plate are used to support the overall equipment. The casters drive the overall equipment to move, which is convenient for different work locations.

[0008] The top of the support column is fitted with a mounting sleeve, and the top of the mounting sleeve is fixedly connected to an electrical control compartment. Two adjusting telescopic mechanisms are installed on one side of the electrical control compartment, and a temperature detection mechanism is installed between the two adjusting telescopic mechanisms. Each adjusting telescopic mechanism includes a first mounting flange. The first mounting flange is installed on one side of the electrical control compartment. A dustproof sleeve is installed on one side of the first mounting flange. A second mounting flange is installed on one side of the dustproof sleeve. A first positioning frame and a second positioning frame are installed on the outer side of the dustproof sleeve. The first positioning frame is located on one side of the second positioning frame. Four third positioning bolts are threaded into the interior of both the first and second positioning frames. A second limit nut is fitted on the outer side of each third positioning bolt. A connecting sealing ring is installed on one side of the second mounting flange. A temperature monitoring instrument is installed at one end of the connecting sealing ring for temperature detection and processing.

[0009] The temperature detection mechanism includes a real-time display dial. A real-time display dial is installed between the two adjustment and telescopic mechanisms. A bottom fixing post is fixedly connected to the bottom of the real-time display dial. A connecting rod is fixedly connected to one side of the bottom fixing post. One end of the connecting rod is connected to one of the adjustment and telescopic mechanisms. A fixing frame is installed on one side of the bottom fixing post. A connecting circuit extending into the other adjustment and telescopic mechanism is installed inside the fixing frame. One end of the connecting circuit is connected to one end of a connecting sealing ring. A fourth positioning bolt for positioning the connecting circuit is installed on the outside of the fixing frame. A first cavity for mounting the fixing frame is reserved inside one of the dustproof sleeves, and a second cavity for mounting the fixing shaft is reserved inside the other dustproof sleeve.

[0010] In a preferred embodiment, a drive motor is fixedly connected inside the electrical control compartment. The output end of the drive motor is fixedly connected to a fixed shaft. One of the adjustment and telescopic mechanisms is located outside the fixed shaft. A mounting slot for use with the drive motor is installed on the outside of the electrical control compartment. A protective cover is installed inside the mounting slot. During actual operation, the protective cover is removed, and normal heat dissipation is achieved through the mounting slot. To improve the protection of the drive motor, a filter screen can be installed inside the mounting slot. A first limiting nut is fixedly connected to the outside of each support side plate. A support foot is threaded into the inside of each first limiting nut. Each support foot is located on one side of the corresponding support side plate. The first limiting nut facilitates the installation of the support foot and the support side plate, thereby allowing for better replacement of support feet of different heights and specifications, thus improving the stability of the equipment when stationary and facilitating subsequent normal temperature measurement.

[0011] In a preferred embodiment, reinforcing side plates are fixedly connected to the top of the support base plate and around the perimeter of the support column. One side of each reinforcing side plate is fixedly connected to the support column, and the bottom of each reinforcing side plate is fixedly connected to the support base plate. The support base plate and support column are reinforced and installed using multiple reinforcing side plates, improving the stability of the equipment. A fixing frame is fixedly connected to one side of the mounting sleeve, and a mounting sleeve is fitted onto the outside of the fixing frame. A temperature sensor is fixedly connected to one side of the mounting sleeve, and a second positioning bolt is threaded onto one side of the fixing frame to position the mounting sleeve. The mounting sleeve and fixing frame are positioned and installed using the second positioning bolt. On-site temperature measurement is performed using the temperature sensor, facilitating real-time management.

[0012] In a preferred embodiment, the mounting sleeve is threaded with two first positioning bolts on the side adjacent to the fixed frame. When the measurement height needs to be adjusted, the first positioning bolts are removed, and the support column is pulled out from the bottom of the mounting sleeve, thereby adjusting the height of the mounting sleeve. The two first positioning bolts are used to position the mounting sleeve and the support column after the height adjustment, which facilitates the adjustment of the equipment height during temperature measurement and meets the temperature measurement requirements of different working scenarios.

[0013] In a preferred embodiment, a fixed frame with the same structure as the outer side of the mounting sleeve is fixedly connected to the side of the electrical control compartment adjacent to the adjusting telescopic mechanism. A wireless transceiver is installed on the outer side of the fixed frame, and a main control board is fixedly connected inside the wireless transceiver. A control chip is fixedly connected to the outer side of the main control board. The temperature sensor, electrical control compartment, wireless transceiver, temperature monitor, real-time display dial, connection circuit, and drive motor are all electrically connected to the control chip. The control chip is used to control the operation of the temperature sensor, electrical control compartment, wireless transceiver, temperature monitor, real-time display dial, connection circuit, and drive motor, thereby realizing unified management of power equipment.

[0014] Compared with the prior art, the advantages and positive effects of this utility model are as follows:

[0015] By setting up support columns, a fixed frame, an adjustable telescopic mechanism, and a real-time display dial, the temperature monitor is used for temperature detection and processing during operation. The temperature monitor can select appropriate measuring equipment as needed, including fiber optic temperature measuring equipment, infrared spectrometer temperature measuring equipment, ultrasonic thermometers, and temperature and humidity sensors. The outside of the electrical control compartment is equipped with a mounting slot for use with the drive motor. The mounting sleeve and fixed frame are positioned and installed using the second positioning bolt. On-site temperature measurement is performed using a temperature sensor for convenient real-time management. A protective cover is installed inside the mounting slot; this cover is removed during actual operation, allowing for normal heat dissipation through the mounting slot. To improve protection for the drive motor, a filter can be installed inside the mounting slot for dust protection during use. The fourth positioning bolt is used for positioning the connecting circuit. Four support side plates and a support base plate are used to support the overall equipment. The equipment is moved by casters to accommodate different work locations. The first limit nut facilitates the installation of support feet and support side plates, allowing for better replacement of support feet of different heights and specifications, thereby improving the stability of the equipment when stationary. In conjunction with subsequent normal temperature measurement, multiple reinforced side plates reinforce the support base plate and support column, improving the stability of the equipment. When the measurement height needs to be adjusted, the first positioning bolt is removed, and the support column is pulled out from the bottom of the mounting sleeve, thereby adjusting the height of the mounting sleeve. The two first positioning bolts are used to position the mounting sleeve and support column after height adjustment, facilitating the adjustment of the equipment height during temperature measurement, thus meeting the temperature measurement needs of different work scenarios. Attached Figure Description

[0016] Figure 1 A schematic diagram of the overall structure of a furnace temperature measurement system provided by this utility model. Figure 1 ;

[0017] Figure 2 A schematic diagram of the overall structure of a furnace temperature measurement system provided by this utility model. Figure 2 ;

[0018] Figure 3 A top view of the adjusting telescopic mechanism and temperature detection mechanism of a furnace temperature measurement system provided by this utility model;

[0019] Figure 4 An enlarged schematic diagram of the temperature detection mechanism of a furnace temperature measurement system provided by this utility model;

[0020] Figure 5 An accessory to the furnace temperature measurement system provided by this utility model Figure 1 Enlarged schematic diagram of the structure at point A in the diagram.

[0021] Legend:

[0022] 1. Support column; 11. Mounting sleeve; 12. Support base plate; 13. Reinforced side plate; 14. Support side plate; 15. Support feet; 16. First limit nut; 17. Caster wheel; 18. First positioning bolt;

[0023] 2. Fixing frame; 21. Mounting sleeve; 22. Second positioning bolt; 23. Temperature sensor; 24. Electrical control compartment; 25. Wireless transceiver;

[0024] 3. Adjustable telescopic mechanism; 31. First mounting flange; 32. Dustproof sleeve; 33. First positioning frame; 34. Second positioning frame; 35. Third positioning bolt; 36. Second limit nut; 37. Second mounting flange; 38. Connecting sealing ring; 39. Temperature monitor;

[0025] 4. Real-time display dial; 41. Bottom fixing post; 42. Connecting rod; 43. Fixing bracket; 44. Connecting circuit; 45. Fourth positioning bolt; 46. Drive motor;

[0026] 5. Temperature detection mechanism. Detailed Implementation

[0027] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0028] like Figures 1-5 As shown, this embodiment provides a technical solution: a furnace temperature measurement system, including a support column 1, a support base plate 12 fixedly connected to the bottom of the support column 1, support side plates 14 fixedly connected to all four sides of the support base plate 12, and casters 17 installed at the bottom of each of the four support side plates 14. The four support side plates 14 and the support base plate 12 are used to support the overall equipment, and the casters 17 drive the overall equipment to move, which is convenient for different work locations.

[0029] In this design, a mounting sleeve 11 is fitted onto the top of the support column 1. An electrical control compartment 24 is fixedly connected to the top of the mounting sleeve 11. Two adjusting telescopic mechanisms 3 are installed on one side of the electrical control compartment 24. A temperature detection mechanism 5 is installed between the two adjusting telescopic mechanisms 3. Each adjusting telescopic mechanism 3 includes a first mounting flange 31. A dustproof sleeve 32 is installed on one side of the first mounting flange 31, and a second mounting flange 37 is installed on one side of the dustproof sleeve 32. A first positioning frame 33 and a second positioning frame 34 are installed on the outer side of the dustproof sleeve 32. A positioning frame 33 is located on one side of the second positioning frame 34. The interiors of the first positioning frame 33 and the second positioning frame 34 are threaded with four third positioning bolts 35. The outer side of the third positioning bolts 35 is fitted with a second limiting nut 36. A connecting sealing ring 38 is installed on one side of another second mounting flange 37. A temperature monitoring instrument 39 is installed at one end of the connecting sealing ring 38. The temperature monitoring instrument 39 is used for temperature detection and processing. The temperature monitoring instrument 39 can select the corresponding measuring equipment as needed, including fiber optic temperature measuring equipment, infrared spectrometer temperature measuring equipment, ultrasonic thermometer, temperature and humidity sensor, etc.

[0030] In this scheme, the temperature detection mechanism 5 includes a real-time display dial 4. The real-time display dial 4 is installed between two adjusting telescopic mechanisms 3. A bottom fixing post 41 is fixedly connected to the bottom of the real-time display dial 4. A connecting rod 42 is fixedly connected to one side of the bottom fixing post 41. One end of the connecting rod 42 is connected to one of the adjusting telescopic mechanisms 3. A fixing frame 43 is installed on one side of the bottom fixing post 41. A connecting circuit 44 extending into the other adjusting telescopic mechanism 3 is installed inside the fixing frame 43. One end of the connecting circuit 44 is connected to one end of the connecting sealing ring 38. A fourth positioning bolt 45 for use with the connecting circuit 44 is installed on the outside of the fixing frame 43. The fourth positioning bolt 45 is used for positioning the connecting circuit 44. A first cavity for installation with the fixing frame 43 is reserved inside one of the dustproof sleeves 32. A second cavity for installation with the fixing shaft is reserved inside the other dustproof sleeve 32.

[0031] Going further, such as Figures 2-3 As shown: In this scheme, the drive motor 46 is fixedly connected inside the electrical control compartment 24. The output end of the drive motor 46 is fixedly connected to a fixed shaft. One of the adjustment and telescopic mechanisms 3 is located outside the fixed shaft. The outside of the electrical control compartment 24 is equipped with a mounting slot for use with the drive motor 46. A protective cover is installed inside the mounting slot. During actual operation, the protective cover is removed and normal heat dissipation is carried out through the mounting slot. In order to improve the protection of the drive motor 46, a filter screen can be installed inside the mounting slot.

[0032] Going further, such as Figures 1-2As shown: In this solution, the outer side of the support side plate 14 is fixedly connected with a first limiting nut 16, and the inside of the first limiting nut 16 is threaded with a support foot 15. The support foot 15 is located on one side of the corresponding support side plate 14. The first limiting nut 16 facilitates the installation of the support foot 15 and the support side plate 14, thereby making it easier to replace the support foot 15 of different heights and specifications, thereby improving the stability of the equipment when it is stationary, and cooperating with subsequent normal temperature measurement.

[0033] In this design, reinforcing side plates 13 are fixedly connected to the top of the supporting base plate 12 and around the supporting column 1. One side of each reinforcing side plate 13 is fixedly connected to the supporting column 1, and the bottom of each reinforcing side plate 13 is fixedly connected to the supporting base plate 12. By reinforcing the supporting base plate 12 and the supporting column 1 with multiple reinforcing side plates 13, the stability of the equipment is improved.

[0034] Going further, such as Figures 1-5 As shown, in this scheme, a fixed frame 2 is fixedly connected to one side of the mounting sleeve 11, and a mounting sleeve 21 is fitted on the outside of the fixed frame 2. A temperature sensor 23 is fixedly connected to one side of the mounting sleeve 21, and a second positioning bolt 22 is threadedly connected to one side of the fixed frame 2 to cooperate with the positioning of the mounting sleeve 21. The mounting sleeve 21 and the fixed frame 2 are positioned and installed by the second positioning bolt 22, and the temperature is measured on site by the temperature sensor 23, which facilitates real-time management.

[0035] In this scheme, a fixed frame 2 with the same structure as the outer side of the mounting sleeve 11 is fixedly connected to the side of the electrical control compartment 24 adjacent to the adjusting telescopic mechanism 3. A wireless signal transceiver 25 is installed on the outer side of the fixed frame 2. The main control board is fixedly connected inside the wireless signal transceiver 25. A control chip is fixedly connected to the outer side of the main control board. The temperature sensor 23, electrical control compartment 24, wireless signal transceiver 25, temperature monitor 39, real-time display dial 4, connection circuit 44 and drive motor 46 are all electrically connected to the control chip. The control chip is used to control the operation of the temperature sensor 23, electrical control compartment 24, wireless signal transceiver 25, temperature monitor 39, real-time display dial 4, connection circuit 44 and drive motor 46, realizing unified management of power equipment.

[0036] Going further, such as Figures 1-5 As shown in the diagram, in this design, the mounting sleeve 11 is connected to two first positioning bolts 18 on the side adjacent to the fixed frame 2. When the measurement height needs to be adjusted, the support column 1 is pulled out from the bottom of the mounting sleeve 11 by removing the first positioning bolts 18, thereby adjusting the height of the mounting sleeve 11. The two first positioning bolts 18 are used to position the mounting sleeve 11 and the support column 1 after the height adjustment, which facilitates the adjustment of the equipment height during temperature measurement and meets the temperature measurement requirements of different operating scenarios.

[0037] Working principle:

[0038] like Figures 1-5 As shown:

[0039] By setting up a support column 1, a fixed frame 2, an adjustable telescopic mechanism 3, and a real-time display dial 4, the temperature monitor 39 is used for temperature detection and processing during use. The temperature monitor 39 can select the corresponding measuring equipment as needed, including fiber optic temperature measuring equipment, infrared spectrometer temperature measuring equipment, ultrasonic thermometer, temperature and humidity sensor, etc.

[0040] The outer side of the electrical control compartment 24 is equipped with a mounting slot for use with the drive motor 46. The mounting sleeve 21 and the fixing frame 2 are positioned and installed by the second positioning bolt 22. The temperature is measured on site by the temperature sensor 23, which facilitates real-time management.

[0041] The control chip is used to control the operation of temperature sensor 23, electrical control compartment 24, wireless signal transceiver 25, temperature monitor 39, real-time display dial 4, connection circuit 44 and drive motor 46, realizing unified management of power equipment.

[0042] The mounting slot is equipped with a protective cover. During actual operation, the protective cover is removed and the mounting slot is used for normal heat dissipation. In order to improve the protection of the drive motor 46, a filter screen can be installed inside the mounting slot for dust protection when entering and leaving the equipment. The fourth positioning bolt 45 is used to position the connecting circuit 44. The four support side plates 14 and the support base plate 12 are used to support the overall equipment.

[0043] The entire equipment is moved by the casters 17, which is convenient for different work locations. The first limit nut 16 facilitates the installation of the support feet 15 and the support side plate 14, so as to better replace the support feet 15 of different heights and specifications, thereby improving the stability of the equipment when it is stationary, and cooperating with subsequent normal temperature measurement.

[0044] The support base plate 12 and support column 1 are reinforced and installed by multiple reinforcing side plates 13, which improves the stability of the equipment. When the measurement height needs to be adjusted, the support column 1 is pulled out from the bottom of the mounting sleeve 11 by removing the first positioning bolt 18, thereby realizing the height adjustment of the mounting sleeve 11. The mounting sleeve 11 and support column 1 are positioned by the two first positioning bolts 18 after the height adjustment, which facilitates the height adjustment of the equipment during temperature measurement, thereby meeting the temperature measurement needs of different working scenarios.

[0045] The above description is merely a preferred embodiment of the present utility model and is not intended to limit the present utility model in any other way. Any person skilled in the art may make changes or modifications to the above-disclosed technical content to create equivalent embodiments for application in other fields. However, any simple modifications, equivalent changes, and modifications made to the above embodiments based on the technical essence of the present utility model without departing from the technical solution of the present utility model shall still fall within the protection scope of the technical solution of the present utility model.

Claims

1. A furnace temperature measurement system, comprising a support column (1), characterized in that, The bottom of the support column (1) is fixedly connected to the support base plate (12). The top of the support column (1) is fitted with a mounting sleeve (11), and the top of the mounting sleeve (11) is fixedly connected to an electrical control compartment (24). Two adjustment telescopic mechanisms (3) are installed on one side of the electrical control compartment (24), and a temperature detection mechanism (5) is installed between the two adjustment telescopic mechanisms (3). The adjustment telescopic mechanism (3) includes a first mounting flange (31). The first mounting flange (31) is installed on one side of the electrical control compartment (24). A dustproof sleeve (32) is installed on one side of the first mounting flange (31). A second mounting flange (37) is installed on one side of the dustproof sleeve (32). A first positioning frame (33) and a second positioning frame (34) are installed on the outside of the dustproof sleeve (32). Four third positioning bolts (35) are threaded inside the first positioning frame (33) and the second positioning frame (34). A connecting sealing ring (38) is installed on one side of another second mounting flange (37). A temperature monitoring instrument (39) is installed at one end of the connecting sealing ring (38). The temperature detection mechanism (5) includes a real-time display dial (4). The real-time display dial (4) is installed between the two adjustment telescopic mechanisms (3). A bottom fixing column (41) is fixedly connected to the bottom of the real-time display dial (4). A connecting rod (42) is fixedly connected to one side of the bottom fixing column (41). One end of the connecting rod (42) is connected to one of the adjustment telescopic mechanisms (3). A fixing frame (43) is installed on one side of the bottom fixing column (41). A connecting circuit (44) extending to the interior of the other adjustment telescopic mechanism (3) is installed inside the fixing frame (43).

2. The furnace temperature measurement system according to claim 1, characterized in that: The drive motor (46) is fixedly connected inside the electrical control compartment (24). The output end of the drive motor (46) is fixedly connected to a fixed shaft. One of the adjustment telescopic mechanisms (3) is located outside the fixed shaft. The outer side of the electrical control compartment (24) is equipped with a mounting slot for use with the drive motor (46).

3. The furnace temperature measurement system according to claim 1, characterized in that: The support base plate (12) is fixedly connected to all four sides of the support side plate (14). The bottom of each of the four support side plates (14) is equipped with casters (17). The outer side of each support side plate (14) is fixedly connected to a first limiting nut (16). The inside of each first limiting nut (16) is threaded with a support foot (15). Each support foot (15) is located on one side of the corresponding support side plate (14).

4. The furnace temperature measurement system according to claim 2, characterized in that: The top of the supporting base plate (12) and around the supporting column (1) are all fixedly connected to the reinforcing side plate (13). One side of the reinforcing side plate (13) is fixedly connected to the supporting column (1), and the bottom of the reinforcing side plate (13) is fixedly connected to the supporting base plate (12).

5. The furnace temperature measurement system according to claim 4, characterized in that: A fixed frame (2) is fixedly connected to one side of the mounting sleeve (11), and a mounting sleeve (21) is fitted on the outside of the fixed frame (2). A temperature sensor (23) is fixedly connected to one side of the mounting sleeve (21), and a second positioning bolt (22) is threadedly connected to one side of the fixed frame (2) for positioning with the mounting sleeve (21).

6. The furnace temperature measurement system according to claim 1, characterized in that: The mounting sleeve (11) is located on the side adjacent to the fixed frame (2) and has two first positioning bolts (18) threadedly connected. One of the dustproof sleeves (32) has a first cavity reserved inside for installation with the fixed bracket (43), and the other dustproof sleeve (32) has a second cavity reserved inside for installation with the fixed shaft.

7. The furnace temperature measurement system according to claim 5, characterized in that: The electrical control compartment (24) is fixedly connected to a fixed frame (2) with the same structure as the outer side of the mounting sleeve (11) on the side adjacent to the adjustment telescopic mechanism (3). A wireless transceiver (25) is installed on the outer side of the fixed frame (2). A main control board is fixedly connected inside the wireless transceiver (25). A control chip is fixedly connected to the outer side of the main control board. The temperature sensor (23), electrical control compartment (24), wireless transceiver (25), temperature monitor (39), real-time display dial (4), connection circuit (44) and drive motor (46) are all electrically connected to the control chip.