CN114614355A

CN114614355A - Power distribution cabinet capable of accurately acquiring and monitoring temperature field data

Info

Publication number: CN114614355A
Application number: CN202210224146.9A
Authority: CN
Inventors: 孙伟; 杨小平; 姚久明; 郭文祥; 葛晨; 蔡菲
Original assignee: Dahang Youneng Electrical Co ltd
Current assignee: Dahang Youneng Electrical Co ltd
Priority date: 2022-03-09
Filing date: 2022-03-09
Publication date: 2022-06-10

Abstract

The invention provides a power distribution cabinet for accurately acquiring and monitoring temperature field data, which relates to the technical field of electrical equipment and comprises the following components: the power distribution cabinet comprises a power distribution cabinet shell, wherein a guide rail is fixedly arranged in the power distribution cabinet shell; a wiring terminal is arranged on the guide rail, and a temperature sensor is arranged at the right end of the wiring terminal; and a controller and an alarm are arranged on the guide rail. According to the invention, the plug board can be slidably inserted into the clamping sleeve, and the buckle can be more firmly clamped with the clamping sleeve, so that the connection tightness between the temperature sensor and the connecting terminal is ensured; the installation actions of the temperature sensor, the guide rail and the wiring terminal are combined together through mechanical transmission and are carried out at one time, so that the trouble of step-by-step operation is saved, and the disassembly efficiency of the temperature sensor is improved; the problem of temperature sensor assembly efficiency lower, temperature sensor is poor with binding post's compactness simultaneously, influence the precision that the temperature detected, the controller needs the bolt fastening on the guide rail usually moreover, is difficult to ann tear it open under the dim condition of light is solved.

Description

Power distribution cabinet capable of accurately acquiring and monitoring temperature field data

Technical Field

The invention relates to the technical field of electrical equipment, in particular to a power distribution cabinet for accurately acquiring and monitoring temperature field data.

Background

The power distribution cabinet is a general name of a motor control center. The power distribution cabinet is used in the occasions with dispersed loads and less loops; the motor control center is used for occasions with concentrated loads and more loops. They distribute the power of a certain circuit of the upper-level distribution equipment to the nearby loads. This level of equipment should provide protection, monitoring and control of the load.

However, with present traditional switch board, temperature sensor and guide rail and binding post's connection structure is comparatively complicated, and assembly efficiency is lower, and temperature sensor is poor with binding post's compactness simultaneously, influences the precision that the temperature detected, and the controller needs the bolt fastening on the guide rail usually moreover, is difficult to install it under the dim condition of light and tears open.

Disclosure of Invention

In view of the above, the invention provides a power distribution cabinet for accurately acquiring and monitoring temperature field data, wherein a plug board can be slidably inserted into a clamping sleeve, and a buckle can be clamped with the clamping sleeve more firmly, so that the connection tightness between a temperature sensor and a connecting terminal is ensured; the mounting actions of the temperature sensor, the guide rail and the wiring terminal are combined together through mechanical transmission and are carried out at one time, so that the trouble of step-by-step operation is eliminated, and the dismounting efficiency of the temperature sensor is improved; through the setting of mounting bracket and sliding plate, the controller need not to take off from the guide rail through the instrument, is convenient for change and maintain under the dim condition of light.

The invention provides a power distribution cabinet for accurately acquiring and monitoring temperature field data, which specifically comprises: the power distribution cabinet comprises a power distribution cabinet shell, wherein a guide rail is fixedly arranged in the power distribution cabinet shell; a wiring terminal is arranged on the guide rail, and a temperature sensor is arranged at the right end of the wiring terminal; and the controller and the alarm are arranged on the guide rail, and the controller is positioned on the right side of the temperature sensor.

Optionally, the binding post right-hand member is equipped with connecting slot, and the binding post top is equipped with spacing, and spacing is L type structure, and the binding post right side is equipped with the mounting groove, and is equipped with the cutting ferrule in the mounting groove to the cutting ferrule is U type structure.

Optionally, a connecting plug-in is arranged on the left side of the temperature sensor, the connecting plug-in is inserted into the connecting slot, a limiting plate is arranged at the top of the temperature sensor, the limiting plate is clamped with the limiting frame, two buckles are arranged on the left side of the temperature sensor, an inserting plate is arranged between the two buckles, the two buckles are slidably inserted into the mounting groove, the buckles are clamped with the clamping sleeve, the inserting plate is slidably inserted into the clamping sleeve, a clamping block is arranged at the rear end of the temperature sensor, the clamping block is clamped with the guide rail, a fixing plate is arranged in the temperature sensor, a ratchet sleeve is arranged on the fixing plate, a rotating shaft rod is arranged below the fixing plate, and the rotating shaft rod is rotatably connected with the fixing plate through a bearing;

the limiting plate bottom is equipped with the rotating tube, and the rotating tube is cylindricality cavity structure to the rotating tube passes through the bearing and is connected with temperature sensor rotation, and the rotating tube bottom is equipped with the ratchet claw, and the ratchet claw corresponds with the ratchet cover.

Optionally, a rack is arranged at the right end of the inserting plate, the rack is meshed with a toothed ring outside the ratchet sleeve, and a first sliding block is arranged at the rear end of the inserting plate.

Optionally, the clamping block is slidably connected with the temperature sensor through a chute, a supporting block is arranged above the clamping block, the supporting block is fixedly connected with the temperature sensor, and two compression springs a are arranged between the clamping block and the supporting block.

Optionally, the fixed plate top is equipped with the mounting panel, and the mounting panel is vertical mode and distributes, and mounting panel one side is equipped with the guide way, and the picture peg passes through the guide way sliding connection of first slider and mounting panel.

Optionally, a rotating shaft is arranged at the bottom of the ratchet sleeve, the ratchet sleeve is rotatably connected with the fixing plate through the rotating shaft, an inserting rod is arranged in the ratchet sleeve, a compression spring b is sleeved on the inserting rod and located in the rotating pipe, the compression spring b is supported between the top wall of the cavity of the rotating pipe and the ratchet sleeve, and a first bevel gear is arranged at the bottom end of the rotating shaft.

Optionally, the front end of the rotating shaft rod is provided with a second bevel gear, the second bevel gear is meshed with the first bevel gear, the rear end of the rotating shaft rod is provided with a swing arm, the swing arm is rotatably provided with a pull rod through a pin shaft, and the pull rod is rotatably connected with the clamping block through the pin shaft.

Optionally, two limiting jacks are arranged on the controller and are distributed in a symmetrical mode, a limiting round rod is inserted into each limiting jack in a sliding mode and is fixedly connected with the guide rail, a mounting frame is arranged at the rear part of the controller and penetrates through the mounting frame and is controlled by a locking nut, two sliding plates are arranged on the mounting frame and are positioned on the left side and the right side of the controller;

the mounting bracket front end both sides are equipped with the baffle, and two baffles are the symmetric mode and distribute, and the relative inboard of two baffles all is equipped with two slide bars, and the cover is equipped with compression spring c on the slide bar, and the slide bar slides and runs through the sliding plate, and compression spring c supports between baffle and sliding plate, and two spacing grooves have been seted up to the mounting bracket front portion.

Optionally, the front end of the sliding plate is provided with a limiting sleeve, the limiting sleeve is located on the front side of the controller and is clamped with the limiting round rod, the rear end of the sliding plate is provided with a second sliding block, and the sliding plate is connected with the limiting groove of the mounting frame in a sliding mode through the second sliding block.

Advantageous effects

According to the power distribution cabinet for accurately acquiring and monitoring the temperature field data, compared with the traditional power distribution cabinet, two buckles are slidably inserted into the installation groove, the limiting plate is pressed downwards and rotated while the buckles are clamped with the clamping sleeves, the limiting plate is clamped with the limiting frame, the ratchet pawl is slidably inserted into the ratchet sleeve and drives the ratchet sleeve to rotate, the inserting plate slides leftwards along the guide groove by utilizing the transmission of the toothed ring and the rack outside the ratchet sleeve, the inserting plate can be slidably inserted into the clamping sleeve, the buckles can be clamped with the clamping sleeves more firmly, the connection tightness of the temperature sensor and the connecting terminal is further ensured, the temperature detection accuracy is greatly improved, and dust is effectively prevented from entering the connection part of the connecting plug-in and the connecting slot.

In addition, when the ratchet cover is rotatory, utilize second bevel gear and first bevel gear transmission to make the rotation axostylus axostyle rotate to carry through the pull rod and pull up the fixture block and slide from top to bottom along the spout, and then accomplish the ann with the guide rail and tear the process open, once only go on in the same place temperature sensor and guide rail and binding post's installation action through mechanical transmission, save the trouble of substep operation, and then improved temperature sensor's dismantlement efficiency, the change and the maintenance in the later stage of being convenient for.

In addition, through the setting of mounting bracket and sliding plate, manual promote two sliding plates to relative direction, make the notch of spacing round bar and stop collar lose the joint relation, remove the spacing state of stop collar to the controller, make the controller slide forward along spacing round bar to make the controller pull down from the guide rail fast, whole dismantlement in-process, owing to need not to take off a large amount of bolts by unscrewing through the instrument, be convenient for change and maintain under the dim condition of light.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings of the embodiments will be briefly described below.

The drawings in the following description relate to some embodiments of the invention only and are not intended to limit the invention.

In the drawings:

fig. 1 shows a schematic view of the overall structure of a power distribution cabinet according to an embodiment of the invention;

fig. 2 shows a schematic view of a temperature sensor, a controller, an alarm and a rail of a power distribution cabinet according to an embodiment of the invention;

fig. 3 shows a schematic view of an explosive state of a temperature sensor, a controller and a part of a rail of a power distribution cabinet according to an embodiment of the invention;

fig. 4 shows a schematic view of the rotated view from fig. 3 of a power distribution cabinet according to an embodiment of the invention;

fig. 5 shows a schematic view of an exploded state of the connection terminals of the electrical distribution cabinet according to an embodiment of the invention;

fig. 6 shows a schematic view of an explosion state of a temperature sensor of a power distribution cabinet according to an embodiment of the invention;

fig. 7 shows a schematic view of an exploded state of a limiting plate, a plug plate, a fixing plate and a ratchet sleeve of a power distribution cabinet according to an embodiment of the invention;

fig. 8 shows a schematic view of a fixture block, a fixing plate and a rotating shaft of a power distribution cabinet according to an embodiment of the present invention;

fig. 9 shows a schematic view of a controller of a power distribution cabinet according to an embodiment of the invention;

fig. 10 shows a schematic diagram of the explosion situation of the switch board according to the embodiment of the invention after removal of the controller from fig. 9.

List of reference numerals

1. A power distribution cabinet housing; 2. a wiring terminal; 201. connecting the slots; 202. a limiting frame; 203. mounting grooves; 204. a card sleeve; 3. a temperature sensor; 301. connecting the plug-in; 302. a limiting plate; 3021. rotating the tube; 3022. a ratchet pawl; 303. buckling; 304. inserting plates; 3041. a rack; 3042. a first slider; 305. a clamping block; 3051. a supporting block; 3052. a compression spring a; 306. a fixing plate; 3061. mounting a plate; 3062. a guide groove; 307. a ratchet sleeve; 3071. a rotating shaft; 3072. inserting a rod; 3073. a compression spring b; 3074. a first bevel gear; 308. rotating the shaft lever; 3081. a second bevel gear; 3082. a swing arm; 3083. a pull rod; 4. a controller; 401. limiting the jacks; 402. a limiting round rod; 403. a mounting frame; 4031. a baffle plate; 4032. a slide bar; 4033. a compression spring c; 4034. a limiting groove; 404. a sliding plate; 4041. a limiting sleeve; 4042. a second slider; 5. an alarm; 6. a guide rail.

Detailed Description

In order to make the objects, aspects and advantages of the embodiments of the present invention more apparent, the embodiments of the present invention will be described in detail with reference to the accompanying drawings. Unless otherwise indicated, terms used herein have the ordinary meaning in the art. Like reference symbols in the various drawings indicate like elements.

Example (b): please refer to fig. 1 to 10:

the invention provides a power distribution cabinet for accurately acquiring and monitoring temperature field data, which comprises: the power distribution cabinet comprises a power distribution cabinet shell 1, wherein a guide rail 6 is fixedly arranged in the power distribution cabinet shell 1; a wiring terminal 2 is arranged on the guide rail 6, and a temperature sensor 3 is arranged at the right end of the wiring terminal 2; the guide rail 6 is provided with a controller 4 and an alarm 5, and the controller 4 is positioned on the right side of the temperature sensor 3.

In addition, according to the embodiment of the present invention, as shown in fig. 5 to 7, the right end of the connection terminal 2 is provided with a connection slot 201, the top end of the connection terminal 2 is provided with a limiting frame 202, the limiting frame 202 is of an L-shaped structure, the right side of the connection terminal 2 is provided with a mounting groove 203, a clamping sleeve 204 is arranged in the mounting groove 203, and the clamping sleeve 204 is of a U-shaped structure;

a connecting plug-in 301 is arranged on the left side of the temperature sensor 3, the connecting plug-in 301 is inserted into the connecting slot 201, a limiting plate 302 is arranged on the top of the temperature sensor 3, the limiting plate 302 is clamped with the limiting frame 202, two buckles 303 are arranged on the left side of the temperature sensor 3, an inserting plate 304 is arranged between the two buckles 303, a clamping block 305 is arranged at the rear end of the temperature sensor 3, the clamping block 305 is clamped with the guide rail 6, a fixing plate 306 is arranged in the temperature sensor 3, a ratchet sleeve 307 is arranged on the fixing plate 306, a rotating shaft 308 is arranged below the fixing plate 306, and the rotating shaft 308 is rotatably connected with the fixing plate 306 through a bearing;

the bottom of the limiting plate 302 is provided with a rotating pipe 3021, the rotating pipe 3021 is of a cylindrical cavity structure, the rotating pipe 3021 is rotatably connected with the temperature sensor 3 through a bearing, the bottom end of the rotating pipe 3021 is provided with a ratchet pawl 3022, and the ratchet pawl 3022 corresponds to the ratchet sleeve 307;

the right end of the inserting plate 304 is provided with a rack 3041, the rack 3041 is meshed and connected with a gear ring outside the ratchet sleeve 307, and the rear end of the inserting plate 304 is provided with a first sliding block 3042;

the top of the fixed plate 306 is provided with a mounting plate 3061, the mounting plate 3061 is vertically distributed, one side of the mounting plate 3061 is provided with a guide groove 3062, and the inserting plate 304 is slidably connected with the guide groove 3062 of the mounting plate 3061 through a first sliding block 3042;

a rotating shaft 3071 is arranged at the bottom of the ratchet sleeve 307, the ratchet sleeve 307 is rotatably connected with the fixed plate 306 through the rotating shaft 3071, an inserting rod 3072 is arranged in the ratchet sleeve 307, a compression spring b3073 is sleeved on the inserting rod 3072, the inserting rod 3072 is positioned in the rotating tube 3021, the compression spring b3073 is supported between the top wall of the cavity of the rotating tube 3021 and the ratchet sleeve 307, a first bevel gear 3074 is arranged at the bottom end of the rotating shaft 3071, two buckles 303 are slidably inserted into the mounting groove 203, the buckle 303 is clamped with the cutting sleeve 204 and presses the limiting plate 302 downwards and rotates at the same time, so that the limiting plate 302 is clamped with the limiting frame 202, meanwhile, the ratchet claw 3022 is slidably inserted into the ratchet sleeve 307 and drives the ratchet sleeve 307 to rotate, a gear ring outside the ratchet sleeve 307 is used for transmission with the rack 3041, so that the inserting plate 304 slides leftwards along the guide groove 3062, the inserting plate 304 can be slidably inserted into the cutting sleeve 204, and the buckle 303 can be clamped with the cutting sleeve 204 more firmly.

In addition, according to the embodiment of the present invention, as shown in fig. 8, the fixture block 305 is slidably connected to the temperature sensor 3 through the chute, a support block 3051 is disposed above the fixture block 305, the support block 3051 is fixedly connected to the temperature sensor 3, and two compression springs a3052 are disposed between the fixture block 305 and the support block 3051;

the front end of the rotating shaft rod 308 is provided with a second bevel gear 3081, the second bevel gear 3081 is meshed with the first bevel gear 3074, the rear end of the rotating shaft rod 308 is provided with a swinging arm 3082, the swinging arm 3082 is rotatably provided with a pull rod 3083 through a pin shaft, the pull rod 3083 is rotatably connected with the fixture block 305 through a pin shaft, the rotating shaft rod 308 rotates by utilizing the transmission of the second bevel gear 3081 and the first bevel gear 3074 while the ratchet sleeve 307 rotates, the fixture block 305 is lifted through the pull rod 3083 to slide up and down along the sliding groove, the mounting and dismounting process of the temperature sensor 3 and the guide rail 6 is further completed, the mounting and dismounting processes of the temperature sensor 3 and the guide rail 6 and the connecting terminal 2 are combined together through mechanical transmission at one time, and the trouble of step operation is omitted.

In addition, according to the embodiment of the present invention, as shown in fig. 9 and 10, two limiting insertion holes 401 are arranged on the controller 4, the two limiting insertion holes 401 are distributed symmetrically, a limiting round rod 402 is inserted into the limiting insertion holes 401, the limiting round rod 402 is fixedly connected with the guide rail 6, a mounting frame 403 is arranged at the rear portion of the controller 4, the limiting round rod 402 penetrates through the mounting frame 403 and is controlled by a locking nut, two sliding plates 404 are arranged on the mounting frame 403, and the sliding plates 404 are located on the left side and the right side of the controller 4;

two sides of the front end of the mounting frame 403 are provided with a baffle 4031, the two baffles 4031 are distributed in a symmetrical mode, two sliding rods 4032 are arranged on the opposite inner sides of the two baffles 4031, a compression spring c4033 is sleeved on the sliding rod 4032, the sliding rod 4032 penetrates through the sliding plate 404 in a sliding mode, the compression spring c4033 is supported between the baffle 4031 and the sliding plate 404, and two limiting grooves 4034 are formed in the front portion of the mounting frame 403.

The front end of the sliding plate 404 is provided with a limit sleeve 4041, the limit sleeve 4041 is positioned on the front side of the controller 4, the limit sleeve 4041 is clamped with the limit round rod 402, the rear end of the sliding plate 404 is provided with a second slider 4042, the sliding plate 404 is slidably connected with the limit groove 4034 of the mounting frame 403 through the second slider 4042, the two sliding plates 404 are manually pushed towards opposite directions, the limit round rod 402 and the groove opening of the limit sleeve 4041 lose the clamping relation, the limit state of the limit sleeve 4041 on the controller 4 is released, the controller 4 slides forwards along the limit round rod 402, and therefore the controller 4 can be rapidly detached from the guide rail 6.

The specific use mode and function of the embodiment are as follows: according to the invention, two buckles 303 are slidably inserted into the mounting groove 203, the limit plate 302 is pressed downwards and rotated while the buckles 303 are clamped with the clamping sleeve 204, so that the limit plate 302 is clamped with the limit frame 202, meanwhile, the ratchet pawl 3022 is slidably inserted into the ratchet sleeve 307 and drives the ratchet sleeve 307 to rotate, and a toothed ring outside the ratchet sleeve 307 is used for transmission with a rack 3041, so that the plug board 304 slides leftwards along a guide groove 3062, the plug board 304 can be slidably inserted into the clamping sleeve 204, and the buckles 303 can be more firmly clamped with the clamping sleeve 204; when the ratchet sleeve 307 rotates, the rotating shaft rod 308 rotates by utilizing the transmission of the second bevel gear 3081 and the first bevel gear 3074, and the pull block 305 is lifted by the pull rod 3083 to slide up and down along the sliding groove, so that the mounting and dismounting process with the guide rail 6 is completed; the two sliding plates 404 are pushed to opposite directions manually, so that the limiting round rod 402 and the groove openings of the limiting sleeves 4041 lose the clamping relation, the limiting state of the limiting sleeves 4041 on the controller 4 is released, the controller 4 slides forwards along the limiting round rod 402, and the controller 4 can be detached from the guide rail 6 quickly.

Finally, it should be noted that, when describing the positions of the components and the matching relationship therebetween, the present invention is usually illustrated by one/a pair of components, however, it should be understood by those skilled in the art that such positions, matching relationship, etc. are also applicable to other/other pairs of components.

The above description is intended to be illustrative of the present invention and not to limit the scope of the invention, which is defined by the claims appended hereto.

Claims

1. The utility model provides a switch board of accurate collection control of temperature field data which characterized in that includes: the power distribution cabinet comprises a power distribution cabinet shell (1), wherein a guide rail (6) is fixedly arranged in the power distribution cabinet shell (1); the guide rail (6) is provided with a wiring terminal (2), and the right end of the wiring terminal (2) is provided with a temperature sensor (3); and a controller (4) and an alarm (5) are arranged on the guide rail (6), and the controller (4) is positioned on the right side of the temperature sensor (3).

2. The power distribution cabinet for accurately acquiring and monitoring the temperature field data according to claim 1, characterized in that: binding post (2) right-hand member is equipped with connect slot (201), and binding post (2) top is equipped with spacing (202), and spacing (202) be L type structure, and binding post (2) right side is equipped with mounting groove (203), and is equipped with cutting ferrule (204) in dress groove (203), and cutting ferrule (204) are U type structure.

3. The power distribution cabinet for accurately acquiring and monitoring the temperature field data according to claim 1, characterized in that: a connecting plug-in (301) is arranged on the left side of the temperature sensor (3), the connecting plug-in (301) is plugged in the connecting slot (201), a limiting plate (302) is arranged on the top of the temperature sensor (3), the limit plate (302) is clamped with the limit frame (202), the left side of the temperature sensor (3) is provided with two buckles (303), an inserting plate (304) is arranged between the two buckles (303), the two buckles (303) are inserted in the mounting groove (203) in a sliding way, the buckles (303) are clamped with the clamping sleeve (204), the inserting plate (304) is inserted in the cutting sleeve (204) in a sliding way, the rear end of the temperature sensor (3) is provided with a clamping block (305), the clamping block (305) is clamped with the guide rail (6), a fixing plate (306) is arranged in the temperature sensor (3), a ratchet sleeve (307) is arranged on the fixed plate (306), a rotating shaft lever (308) is arranged below the fixed plate (306), the rotating shaft rod (308) is rotationally connected with the fixed plate (306) through a bearing;

the bottom of the limiting plate (302) is provided with a rotating pipe (3021), the rotating pipe (3021) is of a cylindrical cavity structure, the rotating pipe (3021) is rotatably connected with the temperature sensor (3) through a bearing, the bottom end of the rotating pipe (3021) is provided with a ratchet pawl (3022), and the ratchet pawl (3022) corresponds to the ratchet sleeve (307).

4. The power distribution cabinet for accurately acquiring and monitoring the temperature field data according to claim 3, characterized in that: the right end of the inserting plate (304) is provided with a rack (3041), the rack (3041) is meshed and connected with a toothed ring outside the ratchet sleeve (307), and the rear end of the inserting plate (304) is provided with a first sliding block (3042).

5. The power distribution cabinet for accurately acquiring and monitoring the temperature field data according to claim 3, characterized in that: the fixture block (305) is in sliding connection with the temperature sensor (3) through the sliding groove, a supporting block (3051) is arranged above the fixture block (305), the supporting block (3051) is fixedly connected with the temperature sensor (3), and two compression springs a (3052) are arranged between the fixture block (305) and the supporting block (3051).

6. The power distribution cabinet for accurately acquiring and monitoring the temperature field data according to claim 3, characterized in that: the fixed plate (306) top is equipped with mounting panel (3061), and mounting panel (3061) is vertical mode and distributes, and mounting panel (3061) one side is equipped with guide way (3062), and picture peg (304) through first slider (3042) and guide way (3062) sliding connection of mounting panel (3061).

7. The power distribution cabinet for accurately acquiring and monitoring the temperature field data according to claim 3, characterized in that: ratchet cover (307) bottom is equipped with pivot (3071), and ratchet cover (307) rotate with fixed plate (306) through pivot (3071) and be connected, be equipped with inserted bar (3072) in ratchet cover (307), and the cover is equipped with compression spring b (3073) on inserted bar (3072), inserted bar (3072) are located rotating tube (3021), and compression spring b (3073) support between rotating tube (3021) cavity roof and ratchet cover (307), pivot (3071) bottom is equipped with first bevel gear (3074).

8. The power distribution cabinet for accurately acquiring and monitoring the temperature field data according to claim 3, characterized in that: the front end of the rotating shaft rod (308) is provided with a second bevel gear (3081), the second bevel gear (3081) is meshed with the first bevel gear (3074), the rear end of the rotating shaft rod (308) is provided with a swinging arm (3082), the swinging arm (3082) is rotatably provided with a pull rod (3083) through a pin shaft, and the pull rod (3083) is rotatably connected with the fixture block (305) through the pin shaft.

9. The power distribution cabinet for accurately acquiring and monitoring the temperature field data according to claim 1, characterized in that: the controller (4) is provided with two limiting jacks (401), the two limiting jacks (401) are distributed in a symmetrical mode, limiting round rods (402) are inserted into the limiting jacks (401) in a sliding mode, the limiting round rods (402) are fixedly connected with the guide rails (6), the rear portion of the controller (4) is provided with a mounting frame (403), the limiting round rods (402) penetrate through the mounting frame (403) and are controlled by locking nuts, two sliding plates (404) are arranged on the mounting frame (403), and the sliding plates (404) are located on the left side and the right side of the controller (4);

mounting bracket (403) front end both sides are equipped with baffle (4031), and two baffle (4031) are the symmetric mode and distribute, two baffle (4031) inboard relatively all is equipped with two slide bars (4032), and the cover is equipped with compression spring c (4033) on slide bar (4032), slide bar (4032) slide run through sliding plate (404), and compression spring c (4033) support between baffle (4031) and sliding plate (404), mounting bracket (403) front portion has seted up two spacing grooves (4034).

10. The power distribution cabinet for accurately acquiring and monitoring the temperature field data according to claim 9, characterized in that: the front end of the sliding plate (404) is provided with a limiting sleeve (4041), the limiting sleeve (4041) is located on the front side of the controller (4), the limiting sleeve (4041) is clamped with the limiting round rod (402), the rear end of the sliding plate (404) is provided with a second sliding block (4042), and the sliding plate (404) is in sliding connection with a limiting groove (4034) of the mounting frame (403) through the second sliding block (4042).