CN215898287U

CN215898287U - Heat radiator for energy-conserving high-efficient electromechanical device

Info

Publication number: CN215898287U
Application number: CN202121751434.7U
Authority: CN
Inventors: 于曰娟
Original assignee: Shandong Technology and Business University
Current assignee: Cai Lei
Priority date: 2021-07-29
Filing date: 2021-07-29
Publication date: 2022-02-22
Anticipated expiration: 2031-07-29

Abstract

The utility model relates to the technical field of heat dissipation equipment, in particular to a heat dissipation device of energy-saving and efficient electromechanical equipment, which can perform multi-directional blowing heat dissipation on an electromechanical equipment body, and can dissipate heat from heat dissipation holes, so that the heat dissipation speed and the heat dissipation effect of the device are improved; the motor comprises a housin, the fixed plate, the electromechanical device body, servo motor, first gear, the second gear, the turning block, first axis of rotation, two sets of T type sliders, the first flabellum of multiunit, first initiative bevel gear, two sets of first driven bevel gear, two sets of second axis of rotation, two sets of fixed blocks, two sets of second initiative bevel gear, two sets of second driven bevel gear, two sets of screw shaft, two sets of slide bars, two sets of sliders, two sets of fixed axle beds, two sets of third axis of rotation, two sets of third gear, two sets of rack and multiunit second flabellum, the inside cavity that is provided with of casing, the top is provided with the multiunit louvre, and the middle part at the casing cavity is fixed to the fixed plate, be provided with the multiunit through-hole on the fixed plate.

Description

Heat radiator for energy-conserving high-efficient electromechanical device

Technical Field

The utility model relates to the technical field of heat dissipation equipment, in particular to a heat dissipation device of energy-saving and efficient electromechanical equipment.

Background

A heat dissipating double-fuselage of the electromechanical device of energy-conserving high efficiency is the auxiliary device used for heat dissipation of the electromechanical device, it has been used extensively in the field of heat dissipating double-fuselage; the existing heat dissipation device of the electromechanical equipment only drives the fan blades through the motor to perform blowing heat dissipation in a single direction, so that the heat dissipation rate and the heat dissipation effect of the electromechanical equipment are poor.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problems, the utility model provides the energy-saving and efficient heat dissipation device for the electromechanical device, which can perform multi-directional air blowing heat dissipation on the electromechanical device body, dissipate heat from the heat dissipation holes and improve the heat dissipation rate and the heat dissipation effect of the electromechanical device.

The utility model relates to a heat dissipation device of energy-saving high-efficiency electromechanical equipment, which comprises a shell, a fixed plate, an electromechanical equipment body, a servo motor, a first gear, a second gear, a rotating block, a first rotating shaft, two groups of T-shaped sliding blocks, a plurality of groups of first fan blades, a first driving bevel gear, two groups of first driven bevel gears, two groups of second rotating shafts, two groups of fixed blocks, two groups of second driving bevel gears, two groups of second driven bevel gears, two groups of screw shafts, two groups of sliding rods, two groups of sliding blocks, two groups of fixed shaft seats, two groups of third rotating shafts, two groups of third gears, two groups of racks and a plurality of groups of second fan blades, wherein a cavity is arranged in the shell, a plurality of groups of heat dissipation holes are arranged at the top end of the shell, the fixed plate is fixed in the middle of the cavity of the shell, a plurality of groups of through holes are arranged on the fixed plate, the electromechanical equipment body is fixed in the middle of the top end of the fixed plate, and the servo motor is fixed at the bottom end of the cavity of the shell, the output end of the servo motor is connected with a first gear, the first gear is in meshing transmission connection with a second gear, the second gear is fixed on the outer side wall of a rotating block, the rotating block is fixed at the bottom of a first rotating shaft, the first rotating shaft is in rotating connection with the bottom end of a housing cavity, two groups of T-shaped sliding blocks are respectively fixed at the left side and the right side of the bottom end of the rotating block and are in sliding clamping connection with the bottom end of the housing cavity, a plurality of groups of first blades are uniformly fixed at the top of the first rotating shaft, a first driving bevel gear is fixed at the top end of the rotating block, the first rotating shaft penetrates through the first driving bevel gear, two groups of first driven bevel gears are in meshing transmission connection with the first driving bevel gear, two groups of first driven bevel gears are respectively fixed at the inner side ends of two groups of second rotating shafts, the second rotating shafts are in rotating connection with fixed blocks, and two groups of fixed blocks are respectively fixed at the left side and the right side of the bottom end of the housing cavity, two groups of second driving bevel gears are respectively fixed at the outer side ends of the two groups of second rotating shafts and are respectively in meshed transmission connection with two groups of second driven bevel gears which are respectively fixed at the bottoms of the two groups of screw shafts, two groups of lead screw shafts are respectively connected with the left side and the right side of the fixed plate in a rotating way, two groups of slide bars are respectively fixed on the left side and the right side of the top end of the fixed plate and are positioned at the inner side of the lead screw shafts, and two groups of sliding blocks are respectively connected with two groups of screw shafts in a screw way and are connected with the sliding rods in a sliding way, the fixed shaft seat is fixed at the front end of the sliding block, the third rotating shafts are rotatably connected with the fixed shaft seats, two groups of third gears are respectively fixed at the outer side ends of the two groups of third rotating shafts, and are respectively engaged and connected with two groups of racks in a transmission way, the two groups of racks are respectively fixed at the left side and the right side of the top end of the fixed plate, and are positioned at the outer side of the screw shaft, and the multiple groups of second fan blades are respectively and uniformly fixed at the inner side ends of the two groups of third rotating shafts.

The utility model relates to a heat dissipation device of energy-saving high-efficiency electromechanical equipment, which further comprises a mounting plate, a dust collection net, a connecting plate and a first handle, wherein the mounting plate is inserted into a cavity of a shell and is positioned above a sliding rod, the bottom end of the mounting plate is provided with a fixed groove, the top end of the mounting plate is provided with an opening, the dust collection net is fixed in the fixed groove of the mounting plate, the right end of the mounting plate is connected with the connecting plate, the connecting plate is in threaded connection with the upper part of the right end of the shell through a bolt, and the first handle is fixed on the connecting plate.

The heat dissipation device of the energy-saving high-efficiency electromechanical equipment further comprises a temperature sensor and an alarm, wherein the temperature sensor is fixed at the left end of the cavity of the shell and is positioned between the mounting plate and the rack, the temperature sensor is electrically connected with the alarm, and the alarm is fixed at the upper part of the left end of the shell.

The heat dissipation device of the energy-saving high-efficiency electromechanical equipment further comprises a push handle and a plurality of groups of universal wheels, wherein the push handle is fixed at the right end of the shell, the plurality of groups of universal wheels are uniformly fixed at the bottom end of the shell, and the universal wheels are provided with brake pads.

The utility model relates to a heat dissipation device of energy-saving high-efficiency electromechanical equipment, which further comprises an access door, two groups of hinges and a second handle, wherein the front end of a shell is provided with an access hole, the access door covers the access hole of the shell and is hinged with the shell through the hinges, and the second handle is fixed on the right side of the front end of the access door.

The heat dissipation device of the energy-saving high-efficiency electromechanical equipment further comprises two groups of limiting blocks, wherein the two groups of limiting blocks are respectively fixed at the top ends of the two groups of sliding rods and are respectively and rotatably connected with the two groups of screw shafts.

According to the heat dissipation device of the energy-saving high-efficiency electromechanical equipment, lubricating oil is coated between the first gear and the second gear.

Compared with the prior art, the utility model has the beneficial effects that: the first gear is driven to rotate by a servo motor, the first gear is in meshing transmission connection with the second gear, the first rotating shaft drives the rotating block to rotate under the matching use of the T-shaped sliding block, the first rotating shaft drives the plurality of groups of first fan blades to rotate, the rotating block drives the first driving bevel gear to rotate at the same time, the first driving bevel gear is in meshing transmission connection with the first driven bevel gear, so that the second rotating shaft drives the fixed block to rotate, the fixed block is in meshing transmission connection with the second driving bevel gear, so that the screw shaft rotates, the sliding block moves up and down on the movable fixed shaft seat and the third rotating shaft, so that the third rotating shaft drives the third gear to move up and down, the third gear is in meshing transmission connection with the rack, so that the third rotating shaft drives the second fan blades to rotate, and the electromechanical device body is blown with the second fan blades and the first fan blades in a multidirectional mode to dissipate heat, and the heat is dissipated from the heat dissipation holes, so that the heat dissipation rate and the heat dissipation effect of the device are improved.

Drawings

FIG. 1 is a schematic front view and partial cross-sectional structural view of the present invention;

FIG. 2 is a front view of the housing of the present invention;

FIG. 3 is an enlarged schematic view of the utility model at B;

FIG. 4 is an enlarged schematic view of the utility model at A;

in the drawings, the reference numbers: 1. a housing; 2. heat dissipation holes; 3. a fixing plate; 4. an electromechanical device body; 5. a servo motor; 6. a first gear; 7. a second gear; 8. rotating the block; 9. a first rotating shaft; 10. a T-shaped slider; 11. a first fan blade; 12. a first drive bevel gear; 13. a first driven bevel gear; 14. a second rotating shaft; 15. a fixed block; 16. a second drive bevel gear; 17. a second driven bevel gear; 18. a screw shaft; 19. a slide bar; 20. a slider; 21. fixing the shaft seat; 22. a third rotating shaft; 23. a third gear; 24. a rack; 25. a second fan blade; 26. mounting a plate; 27. a dust collection net; 28. a connecting plate; 29. a first handle; 30. a temperature sensor; 31. an alarm; 32. a pushing handle; 33. a universal wheel; 34. an access door; 35. a hinge; 36. a second handle; 37. and a limiting block.

Detailed Description

The following detailed description of embodiments of the present invention is provided in connection with the accompanying drawings and examples. The following examples are intended to illustrate the utility model but are not intended to limit the scope of the utility model.

As shown in fig. 1 to 4, the heat dissipation device for energy-saving and high-efficiency electromechanical equipment of the present invention comprises a housing 1, a fixing plate 3, an electromechanical equipment body 4, a servo motor 5, a first gear 6, a second gear 7, a rotating block 8, a first rotating shaft 9, two sets of T-shaped sliders 10, a plurality of sets of first blades 11, a first driving bevel gear 12, two sets of first driven bevel gears 13, two sets of second rotating shafts 14, two sets of fixing blocks 15, two sets of second driving bevel gears 16, two sets of second driven bevel gears 17, two sets of screw shafts 18, two sets of sliding rods 19, two sets of sliders 20, two sets of fixing shaft seats 21, two sets of third rotating shafts 22, two sets of third gears 23, two sets of racks 24, and a plurality of second blades 25, wherein a cavity is disposed inside the housing 1, a plurality of heat dissipation holes 2 are disposed at the top end of the housing, the fixing plate 3 is fixed in the middle of the cavity of the housing 1, a plurality of through holes are disposed on the fixing plate 3, the electromechanical device body 4 is fixed at the middle part of the top end of the fixed plate 3, the servo motor 5 is fixed at the bottom end of the cavity of the shell 1, the output end of the servo motor 5 is connected with the first gear 6, the first gear 6 is in meshing transmission connection with the second gear 7, the second gear 7 is fixed on the outer side wall of the rotating block 8, the rotating block 8 is fixed at the bottom of the first rotating shaft 9, the first rotating shaft 9 is in rotating connection with the bottom end of the cavity of the shell 1, two groups of T-shaped sliding blocks 10 are respectively fixed at the left side and the right side of the bottom end of the rotating block 8 and are in sliding clamping connection with the bottom end of the cavity of the shell 1, and a plurality of groups of first fan blades 11 are uniformly fixed at the top part of the first rotating shaft 9, the first driving bevel gear 12 is fixed at the top end of the rotating block 8, the first rotating shaft 9 passes through the first driving bevel gear 12, and two groups of first driven bevel gears 13 are in meshing transmission connection with the first driving bevel gear 12, two groups of first driven bevel gears 13 are respectively fixed at the inner side ends of two groups of second rotating shafts 14, the second rotating shafts 14 are rotatably connected with fixed blocks 15, two groups of fixed blocks 15 are respectively fixed at the left and right sides of the bottom end of the cavity of the shell 1, two groups of second driving bevel gears 16 are respectively fixed at the outer side ends of the two groups of second rotating shafts 14 and are respectively in meshed transmission connection with the two groups of second driven bevel gears 17, two groups of second driven bevel gears 17 are respectively fixed at the bottoms of the two groups of screw shafts 18, the two groups of screw shafts 18 are respectively in rotatable connection with the left and right sides of the fixed plate 3, two groups of sliding rods 19 are respectively fixed at the left and right sides of the top end of the fixed plate 3 and are positioned at the inner sides of the screw shafts 18, two groups of sliding blocks 20 are respectively in screwed connection with the two groups of screw shafts 18 and are in slidable connection with the sliding rods 19, a fixed shaft seat 21 is fixed at the front end of the sliding blocks 20, and a third rotating shaft 22 is rotatably connected with the fixed shaft seat 21, two groups of third gears 23 are respectively fixed at the outer side ends of the two groups of third rotating shafts 22 and are respectively in meshed transmission connection with two groups of racks 24, the two groups of racks 24 are respectively fixed at the left side and the right side of the top end of the fixed plate 3 and are positioned at the outer side of the lead screw shaft 18, and a plurality of groups of second fan blades 25 are respectively and uniformly fixed at the inner side ends of the two groups of third rotating shafts 22; the servo motor 5 drives the first gear 6 to rotate, the first gear 6 is in meshing transmission connection with the second gear 7, so that the first rotating shaft 9 drives the rotating block 8 to rotate under the matching use of the T-shaped sliding block 10, the first rotating shaft 9 drives a plurality of groups of first fan blades 11 to rotate, meanwhile, the rotating block 8 drives the first driving bevel gear 12 to rotate, the first driving bevel gear 12 is in meshing transmission connection with the first driven bevel gear 13, so that the second rotating shaft 14 drives the fixed block 15 to rotate, the fixed block 15 is in meshing transmission connection with the second driving bevel gear 16, further, the lead screw shaft 18 rotates, the sliding block 20 moves up and down on the movable fixed shaft seat 21 and the third rotating shaft 22, further, the third rotating shaft 22 drives the third gear 23 to move up and down, the third gear 23 is in meshing transmission connection with the rack 24, so that the third rotating shaft 22 drives the second fan blades 25 to rotate, through the cooperation of second flabellum 25 and first flabellum 11 use, carry out diversified heat dissipation of blowing to electromechanical device body 4 to make the heat radiate out from louvre 2, improved the radiating rate and the radiating effect of device.

The heat dissipation device of the energy-saving high-efficiency electromechanical equipment further comprises a mounting plate 26, a dust collection net 27, a connecting plate 28 and a first handle 29, wherein the mounting plate 26 is inserted into the cavity of the shell 1 and is positioned above the sliding rod 19, a fixing groove is formed in the bottom end of the mounting plate 26, an opening is formed in the top end of the mounting plate 26, the dust collection net 27 is fixed in the fixing groove of the mounting plate 26, the right end of the mounting plate 26 is connected with the connecting plate 28, the connecting plate 28 is in threaded connection with the upper portion of the right end of the shell 1 through a bolt, and the first handle 29 is fixed on the connecting plate 28; through setting up dust absorption net 27, be convenient for absorb the dust in the casing 1, avoid the dust to cover the heat dissipation that influences electromechanical device body 4 on electromechanical device body 4, simultaneously through setting up mounting panel 26, connecting plate 28 and the first in command 29, be convenient for carry out regular change to dust absorption net 27, ensure dust absorption effect of dust absorption net 27, improve the use convenience of device.

The heat dissipation device of the energy-saving high-efficiency electromechanical equipment further comprises a temperature sensor 30 and an alarm 31, wherein the temperature sensor 30 is fixed at the left end of the cavity of the shell 1 and is positioned between the mounting plate 26 and the rack 24, the temperature sensor 30 is electrically connected with the alarm 31, and the alarm 31 is fixed at the upper part of the left end of the shell 1; temperature in the casing 1 is monitored in real time through the temperature sensor 30, and when the temperature in the casing 1 is too high, the alarm 31 is triggered through the temperature sensor 30 to give an alarm, so that the electromechanical device body 4 is stopped timely to run, the fire caused by overheating of the electromechanical device body 4 is avoided, and the use safety of the device is improved.

The heat dissipation device of the energy-saving high-efficiency electromechanical equipment further comprises a push handle 32 and a plurality of groups of universal wheels 33, wherein the push handle 32 is fixed at the right end of the shell 1, the plurality of groups of universal wheels 33 are uniformly fixed at the bottom end of the shell 1, and the universal wheels 33 are provided with brake pads; by arranging the push handle 32 and the universal wheel 33, the whole movement of the device is convenient, and the flexibility and the usability of the device are improved.

The heat dissipation device of the energy-saving high-efficiency electromechanical equipment further comprises an access door 34, two groups of hinges 35 and a second handle 36, wherein the front end of the shell 1 is provided with an access hole, the access door 34 covers the access hole of the shell 1 and is hinged with the shell 1 through the hinges 35, and the second handle 36 is fixed on the right side of the front end of the access door 34; through setting up access door 34, hinge 35 and second handle 36, be convenient for carry out regular maintenance and change to the inside spare part of casing 1, shorten the repair time, ensure the steady operation of device, further improve the use convenience of device.

The heat dissipation device of the energy-saving high-efficiency electromechanical device further comprises two groups of limiting blocks 37, wherein the two groups of limiting blocks 37 are respectively fixed at the top ends of the two groups of sliding rods 19 and are respectively in rotating connection with the two groups of screw shafts 18; through setting up stopper 37, carry on spacingly to slider 20, avoid slider 20 and screw shaft 18 to break away from, further improve the stability in use of device.

According to the heat dissipation device of the energy-saving high-efficiency electromechanical equipment, lubricating oil is coated between the first gear 6 and the second gear 7; by applying lubricating oil, the friction loss between the first gear 6 and the second gear 7 is reduced, and the service life of the device is prolonged.

The utility model relates to a heat dissipation device of energy-saving high-efficiency electromechanical equipment, which is operated, firstly, a servo motor 5 drives a first gear 6 to rotate, the first gear 6 is in meshed transmission connection with a second gear 7, so that a first rotating shaft 9 drives a rotating block 8 to rotate under the matching use of a T-shaped sliding block 10, the first rotating shaft 9 drives a plurality of groups of first fan blades 11 to rotate, meanwhile, the rotating block 8 drives a first driving bevel gear 12 to rotate, the first driving bevel gear 12 is in meshed transmission connection with a first driven bevel gear 13, so that a second rotating shaft 14 drives a fixed block 15 to rotate, the fixed block 15 is in meshed transmission connection with a second driving bevel gear 16, further, a screw shaft 18 rotates, a sliding block 20 moves up and down on a movable fixed shaft seat 21 and a third rotating shaft 22, and then the third rotating shaft 22 drives a third gear 23 to move up and down, the third gear 23 is engaged with the rack 24 for transmission connection, so that the third rotating shaft 22 drives the second fan blade 25 to rotate, the electromechanical device body 4 is blown to dissipate heat in multiple directions by matching the second fan blade 25 with the first fan blade 11, and heat is dissipated from the heat dissipating holes 2, thereby improving the heat dissipating rate and the heat dissipating effect of the device, then the dust in the housing 1 is absorbed by the dust absorption net 27, the heat dissipation of the electromechanical device body 4 is prevented from being affected by the dust covering on the electromechanical device body 4, meanwhile, the dust absorption net 27 is replaced regularly by the mounting plate 26, the connecting plate 28 and the first handle 29, the dust absorption effect of the dust absorption net 27 is ensured, the convenience of the device is improved, the temperature in the housing 1 is monitored in real time by the temperature sensor 30, when the temperature in the housing 1 is too high, the alarm 31 is triggered by the temperature sensor 30, the operation of the electromechanical device body 4 is stopped timely, the fire caused by the overheat of the electromechanical device body 4 is avoided, the use safety of the device is improved, the push handle 32 and the universal wheel 33 are arranged, the integral movement of the device is facilitated, and the flexibility and the usability of the device are improved.

According to the heat dissipation device of the energy-saving high-efficiency electromechanical equipment, the installation mode, the connection mode or the arrangement mode are common mechanical modes, and the heat dissipation device can be implemented as long as the beneficial effects of the heat dissipation device can be achieved; the temperature sensor 30 and the alarm 31 of the heat dissipation device of the energy-saving high-efficiency electromechanical equipment are purchased from the market, and technicians in the industry only need to install and operate the heat dissipation device according to the attached operating instructions.

The above description is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, several modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations should also be regarded as the protection scope of the present invention.

Claims

1. A heat-dissipating device for energy-saving and high-efficiency electromechanical equipment, characterized in that it comprises a casing (1), a fixing plate (3), an electromechanical equipment body (4), a servo motor (5), a first gear (6), a first gear (6), a Two gears (7), a rotating block (8), a first rotating shaft (9), two sets of T-shaped sliders (10), multiple sets of first fan blades (11), a first driving bevel gear (12), two A set of first driven bevel gears (13), two sets of second rotating shafts (14), two sets of fixed blocks (15), two sets of second drive bevel gears (16), and two sets of second driven bevel gears (17) ), two sets of screw shafts (18), two sets of sliding rods (19), two sets of sliders (20), two sets of fixed shaft seats (21), two sets of third rotating shafts (22), two sets of third A gear (23), two groups of racks (24) and a plurality of groups of second fan blades (25), a cavity is provided inside the casing (1), a plurality of groups of heat dissipation holes (2) are provided at the top, and the fixing plate (3) ) is fixed in the middle of the chamber of the housing (1), the fixing plate (3) is provided with a plurality of groups of through holes, the electromechanical equipment body (4) is fixed in the middle of the top of the fixing plate (3), and the servo motor (5) is fixed At the bottom end of the chamber of the housing (1), the output end of the servo motor (5) is connected with the first gear (6), the first gear (6) is meshed with the second gear (7), and the second gear (7) is fixed on the outer side wall of the rotating block (8), the rotating block (8) is fixed on the bottom of the first rotating shaft (9), the first rotating shaft (9) and the bottom end of the housing (1) chamber Rotationally connected, two sets of T-shaped sliders (10) are respectively fixed on the left and right sides of the bottom end of the rotating block (8), and are slidably clamped with the bottom end of the housing (1) chamber, and there are multiple sets of first fan blades. (11) is evenly fixed on the top of the first rotating shaft (9), the first driving bevel gear (12) is fixed on the top of the rotating block (8), and the first rotating shaft (9) passes through the first driving bevel gear (12) ), and the two sets of first driven bevel gears (13) are meshed and connected with the first drive bevel gears (12), and the two sets of first driven bevel gears (13) are respectively fixed on the two sets of second rotating shafts (14). ), the second rotating shaft (14) is rotatably connected with the fixing block (15), the two sets of fixing blocks (15) are respectively fixed on the left and right sides of the bottom end of the chamber of the housing (1), and the two sets of second active The bevel gears (16) are respectively fixed on the outer ends of the two sets of second rotating shafts (14), and are respectively meshed and connected with the two sets of second driven bevel gears (17). The two sets of second driven bevel gears (17) The two sets of screw shafts (18) are respectively fixed on the bottoms of the two sets of screw shafts (18), and the two sets of screw shafts (18) are respectively rotatably connected to the left and right sides of the fixing plate (3), and the two sets of sliding rods (19) are respectively fixed on the fixing plate ( 3) The left and right sides of the top end are located on the inner side of the screw shaft (18), and the two sets of sliders (20) are screwed and connected to the two sets of screw shafts (18) respectively, and are slidably connected to the sliding rod (19). , the fixed shaft seat (21) is fixed on the front end of the slider (20), and the third rotating shaft (22) is rotatably connected with the fixed shaft seat (21), and the two sets of third gears (23) are respectively fixed on the two sets of The outer end of the third rotating shaft (22) is meshed and connected with two sets of racks (24) respectively, and the two sets of racks (24) are respectively fixed on the left and right sides of the top of the fixing plate (3) and are located on the lead screw The outer side of the shaft (18), and the multiple groups of second fan blades (25) are respectively uniformly fixed on the inner side ends of the two groups of third rotating shafts (22).

2. The heat-dissipating device for energy-saving and high-efficiency electromechanical equipment as claimed in claim 1, further comprising a mounting plate (26), a dust suction net (27), a connecting plate (28) and a first handle (29), The mounting plate (26) is inserted into the cavity of the housing (1), and is located above the sliding rod (19). ) is fixed in the fixing groove of the mounting plate (26), the right end of the mounting plate (26) is connected with the connecting plate (28), the connecting plate (28) is connected with the upper right end of the housing (1) by bolts, and the first A handle (29) is fixed on the connecting plate (28).

3. The heat-dissipating device for energy-saving and high-efficiency electromechanical equipment according to claim 2, further comprising a temperature sensor (30) and an alarm (31), the temperature sensor (30) being fixed in the cavity of the casing (1) The left end of the chamber is located between the mounting plate (26) and the rack (24), and the temperature sensor (30) is electrically connected to the alarm (31), and the alarm (31) is fixed on the left end of the housing (1) upper.

4. The heat-dissipating device for energy-saving and high-efficiency electromechanical equipment as claimed in claim 3, further comprising a pusher (32) and multiple sets of universal wheels (33), the pusher (32) being fixed on the casing (1) At the right end of the casing (1), a plurality of sets of universal wheels (33) are evenly fixed on the bottom end of the casing (1), and the universal wheels (33) are provided with brake pads.

5. The heat-dissipating device for energy-saving and high-efficiency electromechanical equipment according to claim 4, characterized in that it further comprises an access door (34), two combination pages (35) and a second handle (36), and the casing (1) The front end is provided with an inspection opening, the inspection door (34) covers the inspection opening of the casing (1), and is hinged with the casing (1) through a hinge (35), and the second handle (36) is fixed on the inspection door (34) on the right side of the front end.

6. The heat-dissipating device for energy-saving and high-efficiency electromechanical equipment as claimed in claim 5, further comprising two sets of limit blocks (37), and the two sets of limit blocks (37) are respectively fixed on two sets of slide bars (37). 19), and are respectively rotatably connected with the two sets of screw shafts (18).

7. The heat dissipation device for energy-saving and high-efficiency electromechanical equipment according to claim 6, characterized in that lubricating oil is coated between the first gear (6) and the second gear (7).