CN112489946A - Hedging pressure-boosting heat-dissipation control transformer - Google Patents

Abstract

The invention discloses a hedging pressure-boosting heat-dissipation control transformer, and belongs to the technical field of transformer heat dissipation. The device comprises a storage mechanism, wherein a hedging booster mechanism is fixed on the storage mechanism and consists of a group of blast components, the two blast components are respectively positioned on two sides of the storage mechanism and are fixedly connected with the storage mechanism, an exhaust mechanism is fixed at the top of the storage mechanism, a damping mechanism is slidably matched in the storage mechanism, and a clamping and fixing mechanism is fixed at the top of the damping mechanism. According to the invention, through the use of the opposite-flushing supercharging mechanism, after external cold air enters the storage mechanism, opposite-flushing air flow can be formed, so that the flow velocity of the air flow is increased, heat generated during the operation of the control transformer body can be better led out, and because the storage mechanism is a closed space, the internal air pressure of the control transformer body can be increased due to the entrance of the external air, so that the exhaust mechanism can better lead out the air after heat exchange, and the cooling of the control transformer body is further accelerated.

Description

Hedging pressure-boosting heat-dissipation control transformer

Technical Field

The invention belongs to the technical field of transformer heat dissipation, and particularly relates to a hedging pressure-boosting heat-dissipation control transformer.

Background

The control transformer is mainly suitable for circuits with 50Hz (or 60Hz) AC and 1000V or below, and can continuously work for a long time under rated load. The LED lamp is generally used in machine tools and mechanical equipment as a power supply of control lighting and indicator lamps of electrical appliances. The control transformer operates on the principle of electromagnetic induction. The transformer has two sets of windings. A primary coil and a secondary coil. The secondary coil is outside the primary coil. When alternating current is conducted on the primary coil, the transformer iron core generates an alternating magnetic field, and the secondary coil generates induced electromotive force.

With the development of times, the use of the control transformer is more extensive, which plays a certain role in promoting the development of the control transformer. The use of the control transformer generates a large amount of heat, and the existence of the heat seriously affects the working efficiency of the control transformer and affects the service life of the control transformer to a certain extent. The existing control transformer heat dissipation device is too single in structure and low in heat dissipation efficiency, so that the control transformer cannot work effectively for a long time, and the control transformer is very unfavorable for effective use; meanwhile, when the existing control transformer is used, the protection measures are weak, so that the control transformer is very easy to shift when being influenced by external factors and collide with other structures, the use safety of the control transformer is directly influenced, and the loss is caused to actual industrial production.

Disclosure of Invention

The invention aims to provide a hedging pressure-increasing heat-dissipating type control transformer, through the use of a hedging pressure-increasing mechanism, after external cold air enters a storage mechanism, hedging air flow can be formed, the flow rate of the air flow is increased, heat generated during the operation of a control transformer body can be better led out, and because the storage mechanism is a closed space, the internal air pressure of the control transformer body can be increased due to the entrance of the external air, so that the air after heat exchange can be better led out by an exhaust mechanism, the cooling of the control transformer body is further accelerated, and the problems in the background art are solved.

In order to achieve the purpose, the invention provides the following technical scheme: the opposite-impact supercharging and heat dissipation type control transformer comprises a storage mechanism, wherein an opposite-impact supercharging mechanism is fixed on the storage mechanism and consists of a group of air blowing assemblies, the two air blowing assemblies are respectively positioned on two sides of the storage mechanism and are fixedly connected with the storage mechanism, an exhaust mechanism is fixed at the top of the storage mechanism, a damping mechanism is slidably matched in the storage mechanism, a clamping and fixing mechanism is fixed at the top of the damping mechanism, and a control transformer body is fixed on the clamping and fixing mechanism;

the air blowing assembly comprises an air feeding cover and an air feeding barrel, an air feeding pipe is fixedly communicated between the air feeding cover and the air feeding barrel, a first filter screen is fixed at the port of the air feeding barrel, a first supporting plate is fixed on the inner wall of the air feeding barrel, a first motor is fixed on one surface of the first supporting plate, an air feeding fan is fixed at one end of an output shaft of the first motor, and the air feeding cover, the air feeding barrel, the air feeding pipe and the air feeding fan are all located on the same horizontal axis;

the exhaust mechanism comprises an exhaust hood and an exhaust cylinder, an exhaust pipe is fixedly communicated between the exhaust hood and the exhaust cylinder, a second supporting plate is fixed on the inner wall of the exhaust cylinder, a second motor is fixed on one surface of the second supporting plate, an exhaust fan is fixed at one end of an output shaft of the second motor, the exhaust hood, the exhaust cylinder, the exhaust pipe and the exhaust fan are all located on the same vertical axis, a group of symmetrically distributed fixed columns are fixed on the outer wall of the exhaust cylinder, rain shields are fixed at the other ends of the two fixed columns, and the rain shields are located right above the exhaust cylinder;

the storage mechanism comprises a box body, wherein air supply grooves are formed in opposite side surfaces of the box body, one surface of an air supply cover is fixedly connected with one side surface of the box body, the air supply cover is communicated with the interior of the box body through the air supply grooves which are correspondingly arranged, an exhaust groove is formed in the top of the box body, one surface of an exhaust cover is fixedly connected with the top of the box body, and the exhaust cover is communicated with the interior of the box body through the exhaust groove;

the box comprises a box body and is characterized in that a box door is rotatably connected to one surface of the box body through a hinge, a first handle and a group of lock catches are fixed to one surface of the box door, the box door is fixedly connected with the box body through the group of lock catches, a group of first slide bars are fixed to one inner wall of the box body, and limiting columns are fixed to the other ends of the first slide bars.

The scheme is as follows:

the motor, the air supply fan, the exhaust fan, the air pump and the threaded screw rod are common components in the prior art, and the adopted models and the like can be customized according to actual use requirements;

as a preferred embodiment, damper includes backup pad and connecting plate, open a set of second spout in backup pad side, open a set of first spout in backup pad another side, the second spout communicates with the first spout that corresponds the setting each other, first slide bar and second spout inner wall sliding fit, spacing post and first spout inner wall sliding fit, first spout cross section and second spout cross section are circular structure, second spout external diameter is half of first spout external diameter size.

In a preferred embodiment, a first U-shaped plate is fixed on the upper surface of the supporting plate, a second handle is fixed on one side surface of the first U-shaped plate, and a first damping assembly and a second damping assembly are fixed between the first U-shaped plate and the connecting plate.

As a preferred embodiment, first damper unit includes air pump and a plurality of first cushion, the fixed intercommunication of air pump gas outlet one end has the air supply pipe, the fixed intercommunication of the air supply pipe other end has the gasbag dish, air pump, gasbag dish and a plurality of first cushion all with a U-shaped board inner wall fixed connection, another fixed surface of first cushion has first sleeve, a first sleeve inner wall is fixed with first spring, the first spring other end is fixed with the second sleeve, second sleeve and first sleeve inner wall clearance fit and combination department are equipped with the sealing washer, second sleeve top is fixed with the second cushion, and is a plurality of another surface of second cushion all with connecting plate lower fixed surface be connected.

As a preferred embodiment, a gas pipe is fixedly communicated between the first sleeve and the air bag disc, one end of a gas inlet of the gas pump is fixedly communicated with a gas inlet pipe, the other end of the gas inlet pipe is fixedly provided with a second filter screen, the outer wall of the air bag disc penetrates through and is fixedly provided with an exhaust pipe, and the exhaust pipe is provided with an electromagnetic valve.

As a preferred embodiment, the second damping assembly comprises a second U-shaped plate and a third U-shaped plate, a surface of the second U-shaped plate is fixedly connected with a first inner wall of the first U-shaped plate, a surface of the third U-shaped plate is fixedly connected with a surface of the connecting plate, a set of second sliding rod is fixed between first relative inner walls of the third U-shaped plate, a set of second springs are fixed on the first relative inner walls of the third U-shaped plate, the second springs are sleeved on the second sliding rods correspondingly arranged, a set of first sliding blocks are fixed at the other ends of the second springs, a set of fourth sliding grooves are formed in the first sliding blocks, the second sliding rods are in sliding fit with the inner walls of the fourth sliding grooves, a set of third springs are fixed between the first sliding blocks, and the third springs are sleeved on the second sliding rods correspondingly arranged.

As a preferred embodiment, a U-shaped block is fixed on a surface of the first slider, a first sleeve is rotatably connected between opposite inner walls of the U-shaped block through a rotating shaft, a supporting rod is fixed on an outer wall of the first sleeve, a second sleeve is fixed at the other end of the supporting rod, and the opposite inner walls of the second U-shaped block are rotatably connected with the two second sleeves through a group of rotating shafts respectively.

As a preferred embodiment, the clamping and fixing mechanism comprises a fourth U-shaped plate and a set of third handles, a first threaded screw rod is fixed on one surface of each third handle, the two first threaded screw rods respectively penetrate through two sides of the fourth U-shaped plate and are fixedly connected, the rotating directions of the two first threaded screw rods are opposite, the joint of the first threaded screw rod and the fourth U-shaped plate is rotatably connected through a bearing, a second sliding block is connected to the first threaded screw rod in a threaded manner, a first fixing plate is fixed at the top of the fourth U-shaped plate, and the bottom of the fourth U-shaped plate is fixedly connected with the upper surface of the connecting plate.

As a preferred embodiment, it has the third spout to open on the first fixed plate, second slider and third spout inner wall sliding fit, second slider upper surface is fixed with the second fixed plate, open at second fixed plate top has the spread groove and is fixed with the third fixed plate, an inner wall of spread groove rotates through the bearing and is connected with second screw lead screw, the third fixed plate is run through and is fixed with the fourth handle to the second screw lead screw other end, second screw lead screw passes through the bearing rotation with third fixed plate junction and is connected, threaded connection has the clamp plate on the second screw lead screw, clamp plate and spread groove inner wall sliding fit, spread groove cross section and clamp plate cross section are the rectangle structure.

Compared with the prior art, the hedging pressure-increasing heat-dissipating type control transformer provided by the invention at least has the following beneficial effects:

(1) according to the invention, through the use of the opposite-flushing supercharging mechanism, after external cold air enters the storage mechanism, opposite-flushing air flow can be formed, so that the flow velocity of the air flow is increased, heat generated during the operation of the control transformer body can be better led out, and because the storage mechanism is a closed space, the internal air pressure of the storage mechanism can be increased due to the entrance of the external air, so that the exhaust mechanism can better lead out the air after heat exchange, the cooling of the control transformer body is further accelerated, the heat dissipation effect is better and the heat dissipation efficiency is higher in the actual use process of the control transformer body, and the use of the control transformer body in actual production can be better satisfied.

(2) According to the invention, any one third handle in the clamping and fixing mechanism is screwed to drive a group of first threaded screw rods to rotate, so that the first threaded screw rods drive the second sliding blocks correspondingly arranged on the first threaded screw rods to move in a screw rod transmission manner, the two second fixing plates are close to each other to finish primary clamping of the control transformer body, and then a group of fourth handles in the clamping and fixing mechanism is screwed in sequence to drive the second threaded screw rods to rotate by the fourth handles, so that the pressing plates are driven to move downwards in a screw rod transmission manner to finish clamping and fixing of the control transformer body, so that the control transformer body is simpler to fix and more convenient to use.

(3) According to the invention, through the mutual matching of the first damping component and the second damping component in the damping mechanism, the multistage damping of the control transformer body fixed on the clamping and fixing mechanism can be realized, so that the safety of the control transformer body in the use process is ensured, and the air pump in the first damping component can adjust the damping strength of the first damping component, so that the first damping component can be matched with the second damping component to better complete the support and protection of the control transformer body, unnecessary damage caused by vibration of the control transformer body in the use process is avoided, and the use of the control transformer body is safer.

Drawings

FIG. 1 is a schematic structural diagram of a hedge boost heat dissipation type control transformer;

FIG. 2 is a schematic view of the blower assembly;

FIG. 3 is a schematic structural view of an exhaust mechanism;

FIG. 4 is a schematic structural view of the storage mechanism;

FIG. 5 is a schematic structural view of the box body, the air supply groove, the air exhaust groove and the first slide bar;

FIG. 6 is a schematic structural view of the damping mechanism, the clamping and fixing mechanism and the control transformer body;

FIG. 7 is a schematic structural view of a clamping fixture;

FIG. 8 is a front view of the structure of FIG. 7;

FIG. 9 is a schematic view of the structure of the damper mechanism;

FIG. 10 is a schematic structural view of a first suspension assembly and a connecting plate;

FIG. 11 is a schematic structural view of the first spacer, the first sleeve, the first spring and the second sleeve;

FIG. 12 is a schematic view of a second shock assembly.

In the figure: 1. a storage mechanism; 2. a hedging pressurization mechanism; 3. an exhaust mechanism; 4. a damping mechanism; 5. a clamping and fixing mechanism; 6. controlling the transformer body; 7. an air supply cover; 8. an air supply barrel; 9. an air supply pipe; 10. a first filter screen; 11. a first pallet; 12. a first motor; 13. an air supply fan; 14. an exhaust hood; 15. an exhaust duct; 16. an exhaust duct; 17. a second pallet; 18. a second motor; 19. an exhaust fan; 20. fixing a column; 21. a rain shield; 22. a box body; 23. a box door; 24. a first handle; 25. locking; 26. a wind feeding groove; 27. an exhaust duct; 28. a first slide bar; 29. a limiting column; 30. a support plate; 31. a first chute; 32. a second chute; 33. a first U-shaped plate; 34. a second handle; 35. a first dampening member; 36. a second dampening member; 37. a connecting plate; 38. an air pump; 39. an air supply pipe; 40. an air inlet pipe; 41. a second filter screen; 42. an air bag tray; 43. a gas delivery pipe; 44. a first cushion block; 45. a first sleeve; 46. a first spring; 47. a second sleeve; 48. a second cushion block; 49. a second U-shaped plate; 50. a third U-shaped plate; 51. a second slide bar; 52. a second spring; 53. a first slider; 54. a third spring; 55. a U-shaped block; 56. a first sleeve; 57. a strut; 58. a second sleeve; 59. a fourth U-shaped plate; 60. a third handle; 61. a first threaded lead screw; 62. a second slider; 63. a first fixing plate; 64. a third chute; 65. a second fixing plate; 66. connecting grooves; 67. a third fixing plate; 68. a second threaded screw; 69. a fourth handle; 70. and (7) pressing a plate.

Detailed Description

The present invention will be further described with reference to the following examples.

The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention. The conditions in the embodiments can be further adjusted according to specific conditions, and simple modifications of the method of the present invention based on the concept of the present invention are within the scope of the claimed invention.

Referring to fig. 1-12, the invention provides a hedging pressure-boosting heat-dissipation type control transformer, which comprises a storage mechanism 1, wherein a hedging pressure-boosting mechanism 2 is fixed on the storage mechanism 1, the hedging pressure-boosting mechanism 2 consists of a group of air blowing assemblies, the two air blowing assemblies are respectively positioned on two sides of the storage mechanism 1 and are fixed with the storage mechanism 1 through welding, an exhaust mechanism 3 is fixed at the top of the storage mechanism 1, a damping mechanism 4 is matched in the storage mechanism 1 in a sliding manner, a clamping and fixing mechanism 5 is fixed at the top of the damping mechanism 4, and a control transformer body 6 is fixed on the clamping and fixing mechanism 5;

the air blowing component comprises an air blowing cover 7 and an air blowing barrel 8, an air feeding pipe 9 is fixedly communicated between the air blowing cover 7 and the air blowing barrel 8, a first filter screen 10 is fixed at the port of the air blowing barrel 8, a first supporting plate 11 is fixed on the inner wall of the air blowing barrel 8, a first motor 12 is fixed on one surface of the first supporting plate 11, an air feeding fan 13 is fixed at one end of an output shaft of the first motor 12, and the air blowing cover 7, the air blowing barrel 8, the air feeding pipe 9 and the air feeding fan 13 are all located on the same horizontal axis;

the exhaust mechanism 3 comprises an exhaust hood 14 and an exhaust barrel 15, an exhaust pipe 16 is fixedly communicated between the exhaust hood 14 and the exhaust barrel 15, a second supporting plate 17 is fixed on the inner wall of the exhaust barrel 15, a second motor 18 is fixed on one surface of the second supporting plate 17, an exhaust fan 19 is fixed at one end of an output shaft of the second motor 18, the exhaust hood 14, the exhaust barrel 15, the exhaust pipe 16 and the exhaust fan 19 are all positioned on the same vertical axis, a group of symmetrically distributed fixed columns 20 are fixed on the outer wall of the exhaust barrel 15, a rain shield 21 is fixed at the other end of each fixed column 20, and the rain shield 21 is positioned right above the exhaust barrel 15;

the storage mechanism 1 comprises a box body 22, wherein air supply grooves 26 are formed in opposite side surfaces of the box body 22, one surface of an air supply cover 7 is fixedly welded with one side surface of the box body 22, the air supply cover 7 is communicated with the interior of the box body 22 through the air supply grooves 26 which are correspondingly arranged, an exhaust groove 27 is formed in the top of the box body 22, one surface of an exhaust hood 14 is fixedly welded with the top of the box body 22, and the exhaust hood 14 is communicated with the interior of the box body 22 through the exhaust groove 27;

one surface of the box body 22 is rotatably connected with a box door 23 through a hinge, a first handle 24 and a group of lock catches 25 are fixed on one surface of the box door 23, the box door 23 is fixedly connected with the box body 22 through the group of lock catches 25, a group of first sliding rods 28 are fixed on one inner wall of the box body 22, and a limit column 29 is fixed at the other end of each first sliding rod 28.

Damping mechanism 4 includes backup pad 30 and connecting plate 37, backup pad 30 side is opened has a set of second spout 32, backup pad 30 another side is opened has a set of first spout 31, second spout 32 communicates with each other with the first spout 31 that corresponds the setting, first slide bar 28 and second spout 32 inner wall sliding fit, spacing post 29 and first spout 31 inner wall sliding fit, first spout 31 cross section and second spout 32 cross section are circular structure, second spout 32 external diameter is half of first spout 31 external diameter size, backup pad 30 upper surface is fixed with first U-shaped plate 33, a first U-shaped plate 33 side is fixed with second handle 34, be fixed with first damper 35 and second damper 36 between first U-shaped plate 33 and the connecting plate 37.

The first shock absorption assembly 35 comprises an air pump 38 and four first cushion blocks 44, one end of an air outlet of the air pump 38 is fixedly communicated with an air supply pipe 39, the other end of the air supply pipe 39 is fixedly communicated with an air bag disc 42, the air pump 38, the air bag disc 42 and the four first cushion blocks 44 are all bonded with one inner wall of the first U-shaped plate 33 through bonding agents, the other surface of the first cushion block 44 is fixedly provided with a first sleeve 45, one inner wall of the first sleeve 45 is fixedly provided with a first spring 46, the other end of the first spring 46 is fixedly provided with a second sleeve 47, the second sleeve 47 is in clearance fit with the inner wall of the first sleeve 45, a sealing ring is arranged at the joint, the top of the second sleeve 47 is fixedly provided with a second cushion block 48, the other surfaces of the four second cushion blocks 48 are all bonded with the lower surface of the connecting plate 37 through bonding agents, air conveying pipes 43 are fixedly communicated between the first sleeve 45 and the air bag disc 42, an exhaust pipe is fixedly penetrated through the outer wall of the air bag disc 42, and an electromagnetic valve is arranged on the exhaust pipe.

The second damping assembly 36 comprises a second U-shaped plate 49 and a third U-shaped plate 50, one surface of the second U-shaped plate 49 is fixed with one inner wall of the first U-shaped plate 33 by welding, one surface of the third U-shaped plate 50 is fixed with one surface of the connecting plate 37 by welding, a group of second sliding rods 51 is fixed between the opposite inner walls of the third U-shaped plate 50, a group of second springs 52 are fixed on the opposite inner walls of the third U-shaped plate 50, the second springs 52 are sleeved on the second sliding rods 51 which are correspondingly arranged, the other ends of the group of second springs 52 are fixed with first sliding blocks 53, a group of fourth sliding grooves are arranged on the first sliding blocks 53, the second sliding rods 51 are in sliding fit with the inner walls of the fourth sliding grooves, a group of third springs 54 are fixed between the two first sliding blocks 53, the third springs 54 are sleeved on the correspondingly arranged second sliding rods 51, a U-shaped block 55 is fixed on one surface of the first sliding blocks 53, a first sleeve 56 is rotatably connected between the opposite inner walls, a supporting rod 57 is fixed on the outer wall of the first sleeve 56, a second sleeve 58 is fixed on the other end of the supporting rod 57, and a pair of opposite inner walls of the second U-shaped plate 49 are respectively and rotatably connected with the two second sleeves 58 through a group of rotating shafts.

The clamping and fixing mechanism 5 comprises a fourth U-shaped plate 59 and a group of third handles 60, a first thread screw 61 is fixed on one surface of each third handle 60, the two first thread screws 61 respectively penetrate through two sides of the fourth U-shaped plate 59 and are fixed through welding, the rotating directions of the two first thread screws 61 are opposite, the joint of the first thread screw 61 and the fourth U-shaped plate 59 is rotatably connected through a bearing, a second sliding block 62 is connected on the first thread screw 61 in a threaded manner, a first fixing plate 63 is fixed on the top of the fourth U-shaped plate 59, the bottom of the fourth U-shaped plate 59 is fixedly welded with the upper surface of a connecting plate 37, a third sliding groove 64 is formed on the first fixing plate 63, the second sliding block 62 is in sliding fit with the inner wall of the third sliding groove 64, a second fixing plate 65 is fixed on the upper surface of the second sliding block 62, a connecting groove 66 is formed on the top of the second fixing plate 65 and is fixed with a third fixing plate 67, a second thread screw 68, the other end of the second threaded screw 68 penetrates through the third fixing plate 67 and is fixed with a fourth handle 69, the joint of the second threaded screw 68 and the third fixing plate 67 is rotatably connected through a bearing, a pressing plate 70 is in threaded connection with the second threaded screw 68, the pressing plate 70 is in sliding fit with the inner wall of the connecting groove 66, and the cross section of the connecting groove 66 and the cross section of the pressing plate 70 are both rectangular structures.

Firstly, a group of lock catches 25 is opened, then the box door 23 is pulled open by using the first handle 24, so that an operator can install the control transformer body 6 inside the storage mechanism 1, in the installation process, the operator firstly places the control transformer body 6 on the first fixing plate 63, then twists any one of the third handles 60, so that the third handle 60 drives a group of first threaded screws 61 to rotate, drives the two second fixing plates 65 to approach each other in a screw transmission manner, so as to complete the transverse clamping of the control transformer body 6, and then sequentially twists the two fourth handles 69, so that the fourth handles 69 drive the corresponding second threaded screws 68 to rotate, adjusts the pressing plate 70 to move downwards in a screw transmission manner, and completes the longitudinal fixing of the control transformer body 6 by using a group of pressing plates 70 to cooperate with the first fixing plate 63, so as to complete the installation of the control transformer body 6, when the control transformer body 6 shakes due to the influence of external factors, the two groups of second springs 52 and the group of third springs 54 in the second damping assembly 36 absorb the energy of vibration conduction, so that the vibration amplitude of the control transformer body 6 is reduced, the four first springs 46 in the first damping assembly 35 can perform secondary damping treatment on the control transformer body 6, the shaking amplitude of the control transformer body 6 is further reduced, the use safety of the control transformer body 6 is ensured, meanwhile, the air pump 38 in the first damping assembly 35 can charge air into the first sleeve 45, so that the air pressure inside the first sleeve 45 is increased, the overall damping strength of the first damping assembly 35 is enhanced, the protection effect on the control transformer body 6 is better, the control transformer body 6 can generate a large amount of heat energy when in use, an operator controls the operation of the two first motors 12 in the opposite-flushing supercharging mechanism 2, make first motor 12 drive the fan 13 that supplies air that corresponds and rotate, send into external cold air and deposit mechanism 1, and because two blast air subassembly symmetries set up on depositing mechanism 1 in the hedging booster mechanism 2, make two blast air subassemblies send into the wind of depositing in mechanism 1 and hedging each other, thereby make the wind speed reinforcing, the heat that will control transformer body 6 production that can be better is derived, because deposit the comparatively sealed of mechanism 1 inside, lead to depositing the inside atmospheric pressure increase of mechanism 1 when the hedging booster mechanism 2 operates, at this moment, second motor 18 operation in operating personnel control exhaust mechanism 3, can be better derive the hot-air after the heat transfer and deposit mechanism 1, make control transformer body 6 cooling efficiency higher, the radiating effect is better, thereby make control transformer body 6 can be effectual work for a long time.

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

Claims (10)

1. The utility model provides a hedging pressure boost heat dissipation type control transformer which characterized in that: including depositing mechanism (1), it has offset booster mechanism (2) to deposit to be fixed with on mechanism (1), offset booster mechanism (2) comprises a set of air-blast subassembly, two the air-blast subassembly is located respectively and deposits mechanism (1) both sides and all with deposit mechanism (1) fixed connection, it is fixed with exhaust mechanism (3) to deposit mechanism (1) top, it has damper (4) to deposit mechanism (1) inside sliding fit, damper (4) top is fixed with centre gripping fixed establishment (5), be fixed with control transformer body (6) on centre gripping fixed establishment (5).

2. The control transformer of claim 1, wherein the control transformer is a transformer of the opposed voltage boost heat dissipation type,

the air blowing assembly comprises an air blowing cover (7) and an air blowing barrel (8), an air blowing pipe (9) is fixedly communicated between the air blowing cover (7) and the air blowing barrel (8), a first filter screen (10) is fixed at the port of the air blowing barrel (8), a first supporting plate (11) is fixed on the inner wall of the air blowing barrel (8), a first motor (12) is fixed on one surface of the first supporting plate (11), an air blowing fan (13) is fixed at one end of an output shaft of the first motor (12), and the air blowing cover (7), the air blowing barrel (8), the air blowing pipe (9) and the air blowing fan (13) are all located on the same horizontal axis;

the exhaust mechanism (3) comprises an exhaust hood (14) and an exhaust barrel (15), an exhaust pipe (16) is fixedly communicated between the exhaust hood (14) and the exhaust barrel (15), a second supporting plate (17) is fixed on the inner wall of the exhaust barrel (15), a second motor (18) is fixed on one surface of the second supporting plate (17), an exhaust fan (19) is fixed at one end of an output shaft of the second motor (18), the exhaust hood (14), the exhaust barrel (15), the exhaust pipe (16) and the exhaust fan (19) are all located on the same vertical axis, a group of symmetrically distributed fixing columns (20) is fixed on the outer wall of the exhaust barrel (15), rain shields (21) are fixed at the other ends of the two fixing columns (20), and the rain shields (21) are located right above the exhaust barrel (15);

the storage mechanism (1) comprises a box body (22), wherein air supply grooves (26) are formed in opposite side faces of the box body (22), one surface of an air supply cover (7) is fixedly connected with one side face of the box body (22), the air supply cover (7) is communicated with the interior of the box body (22) through the air supply grooves (26) which are correspondingly arranged, an exhaust groove (27) is formed in the top of the box body (22), one surface of an exhaust hood (14) is fixedly connected with the top of the box body (22), and the exhaust hood (14) is communicated with the interior of the box body (22) through the exhaust groove (27);

one surface of the box body (22) is rotatably connected with a box door (23) through a hinge, a first handle (24) and a group of lock catches (25) are fixed on one surface of the box door (23), the box door (23) is fixedly connected with the box body (22) through the group of lock catches (25), a group of first sliding rods (28) are fixed on one inner wall of the box body (22), and limiting columns (29) are fixed at the other ends of the first sliding rods (28).

3. The hedging pressure-increasing heat-dissipating type control transformer according to claim 1, wherein the damping mechanism (4) comprises a support plate (30) and a connecting plate (37), a set of second sliding grooves (32) is formed in one side surface of the support plate (30), a set of first sliding grooves (31) is formed in the other side surface of the support plate (30), the second sliding grooves (32) are communicated with the first sliding grooves (31) which are correspondingly arranged, the first sliding rods (28) are in sliding fit with the inner walls of the second sliding grooves (32), the limiting columns (29) are in sliding fit with the inner walls of the first sliding grooves (31), the cross sections of the first sliding grooves (31) and the second sliding grooves (32) are both of a circular structure, and the outer diameter of the second sliding grooves (32) is half of the outer diameter of the first sliding grooves (31).

4. The transformer according to claim 2, wherein a first U-shaped plate (33) is fixed on the upper surface of the supporting plate (30), a second handle (34) is fixed on one side of the first U-shaped plate (33), and a first damping assembly (35) and a second damping assembly (36) are fixed between the first U-shaped plate (33) and the connecting plate (37).

5. The hedging pressure-increasing heat-dissipating control transformer according to claim 3, wherein the first damping assembly (35) comprises an air pump (38) and a plurality of first cushion blocks (44), one end of an air outlet of the air pump (38) is fixedly communicated with an air feed pipe (39), the other end of the air feed pipe (39) is fixedly communicated with an air bag disc (42), the air pump (38), the air bag disc (42) and the plurality of first cushion blocks (44) are fixedly connected with one inner wall of the first U-shaped plate (33), the other surface of the first cushion block (44) is fixedly provided with a first sleeve (45), one inner wall of the first sleeve (45) is fixedly provided with a first spring (46), the other end of the first spring (46) is fixedly provided with a second sleeve (47), a sealing ring is arranged at the joint of the second sleeve (47) and the inner wall of the first sleeve (45) in a clearance fit manner, a second cushion block (48) is fixedly arranged at the top of the second sleeve (47), the other surfaces of the second cushion blocks (48) are fixedly connected with the lower surface of the connecting plate (37).

6. The hedging pressure-increasing heat-dissipating type control transformer according to claim 4, wherein an air pipe (43) is fixedly communicated between the first sleeve (45) and the air bag disc (42), an air inlet pipe (40) is fixedly communicated with one end of an air inlet of the air pump (38), a second filter screen (41) is fixedly connected to the other end of the air inlet pipe (40), an air exhaust pipe is fixedly penetrated through the outer wall of the air bag disc (42), and an electromagnetic valve is arranged on the air exhaust pipe.

7. The opposite-impact pressure-increasing and heat-dissipating type control transformer according to claim 3, wherein the second damping assembly (36) comprises a second U-shaped plate (49) and a third U-shaped plate (50), a surface of the second U-shaped plate (49) is fixedly connected with an inner wall of the first U-shaped plate (33), a surface of the third U-shaped plate (50) is fixedly connected with a surface of the connecting plate (37), a set of second sliding rods (51) is fixed between opposite inner walls of the third U-shaped plate (50), a set of second springs (52) is fixed on each opposite inner wall of the third U-shaped plate (50), the second springs (52) are sleeved on the corresponding set of second sliding rods (51), a first sliding block (53) is fixed on the other end of the set of second springs (52), a set of fourth sliding grooves is formed on the first sliding block (53), and the second sliding rods (51) are slidably fitted with the inner wall of the fourth sliding grooves, a group of third springs (54) are fixed between the two first sliding blocks (53), and the third springs (54) are sleeved on the second sliding rods (51) which are correspondingly arranged.

8. The opposed boost heat dissipation type control transformer according to claim 6, wherein a U-shaped block (55) is fixed on one surface of the first sliding block (53), a first sleeve (56) is rotatably connected between one opposite inner walls of the U-shaped block (55) through a rotating shaft, a supporting rod (57) is fixed on the outer wall of the first sleeve (56), a second sleeve (58) is fixed on the other end of the supporting rod (57), and two second sleeves (58) are respectively rotatably connected between one opposite inner walls of the second U-shaped plate (49) through a group of rotating shafts.

9. The control transformer of claim 1, wherein the clamping and fixing mechanism (5) comprises a fourth U-shaped plate (59) and a set of third handles (60), a first threaded screw (61) is fixed on one surface of each third handle (60), the two first threaded screws (61) respectively penetrate through two sides of the fourth U-shaped plate (59) and are fixedly connected, the rotating directions of the two first threaded screws (61) are opposite, the joint of the first threaded screw (61) and the fourth U-shaped plate (59) is rotatably connected through a bearing, a second sliding block (62) is connected to the first threaded screw (61) in a threaded manner, and a first fixing plate (63) is fixed on the top of the fourth U-shaped plate (59); a third sliding groove (64) is formed on the first fixing plate (63), the second sliding block (62) is in sliding fit with the inner wall of the third sliding groove (64), a second fixing plate (65) is fixed on the upper surface of the second sliding block (62), a connecting groove (66) is formed in the top of the second fixing plate (65), a third fixing plate (67) is fixed on the top of the second fixing plate, one inner wall of the connecting groove (66) is rotationally connected with a second threaded screw rod (68) through a bearing, the other end of the second thread screw rod (68) penetrates through the third fixing plate (67) and is fixed with a fourth handle (69), the joint of the second threaded screw rod (68) and the third fixing plate (67) is rotationally connected through a bearing, a pressing plate (70) is connected to the second threaded screw rod (68) in a threaded manner, the pressing plate (70) is in sliding fit with the inner wall of the connecting groove (66), the cross section of the connecting groove (66) and the cross section of the pressing plate (70) are both rectangular structures.

10. An application of a hedging pressure-increasing heat-dissipating type control transformer is characterized in that a group of lock catches 25 is firstly opened, then a box door 23 is pulled open by a first handle 24, so that an operator can install a control transformer body 6 in a storage mechanism 1, in the installation process, the operator firstly places the control transformer body 6 on a first fixing plate 63, then twists any one of third handles 60, so that the third handles 60 drive a group of first threaded screw rods 61 to rotate, drives two second fixing plates 65 to approach each other in a screw rod transmission mode, completes the transverse clamping of the control transformer body 6, then sequentially twists two fourth handles 69, so that the fourth handles 69 drive corresponding second threaded screw rods 68 to rotate, adjusts a pressing plate 70 to move downwards in a screw rod transmission mode, and completes the longitudinal fixing of the control transformer body 6 by matching the first fixing plate 63 with the group of pressing plate 70, therefore, the installation of the control transformer body 6 is completed, when the control transformer body 6 shakes due to the influence of external factors in the use process, the two groups of second springs 52 and the one group of third springs 54 in the second damping assembly 36 can absorb the energy of vibration conduction, so that the vibration amplitude of the control transformer body 6 is reduced, the four first springs 46 in the first damping assembly 35 can perform secondary damping treatment on the control transformer body 6, the shaking amplitude of the control transformer body 6 is further reduced, the use safety of the control transformer body 6 is ensured, meanwhile, the air pump 38 in the first damping assembly 35 can inflate into the first sleeve 45, so that the air pressure inside the first sleeve 45 is increased, the overall damping strength of the first damping assembly 35 is enhanced, the protection effect on the control transformer body 6 is better, and the control transformer body 6 can generate a large amount of heat energy in use, an operator controls the operation of the two first motors 12 in the hedging pressurization mechanism 2, so that the first motors 12 drive the corresponding air supply fans 13 to rotate, the outside cold air is sent into the storage mechanism 1, and because the two air blowing assemblies in the opposite flushing supercharging mechanism 2 are symmetrically arranged on the storage mechanism 1, the air sent into the storage mechanism 1 by the two air blowing assemblies can be oppositely flushed with each other, thereby enhancing the wind speed and leading out the heat generated by the control transformer body 6 better, because the interior of the storage mechanism 1 is closed, when the hedging booster mechanism 2 operates, the air pressure in the storage mechanism 1 is increased, and at the moment, the operator controls the second motor 18 in the exhaust mechanism 3 to operate, mechanism 1 is deposited in hot-air derivation after can be better with the heat transfer for control transformer body 6 cooling efficiency is higher, and the radiating effect is better, thereby makes control transformer body 6 effectual work for a long time.

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