CN116313397A

CN116313397A - Transformer supporting mechanism for power installation

Info

Publication number: CN116313397A
Application number: CN202310564333.6A
Authority: CN
Inventors: 吕永喜; 张焕云; 费拎恩; 王文才; 刘鑫星; 张菲菲; 方潇; 王春丽
Original assignee: Dezhou Power Supply Co of State Grid Shandong Electric Power Co Ltd
Current assignee: Dezhou Power Supply Co of State Grid Shandong Electric Power Co Ltd
Priority date: 2023-05-17
Filing date: 2023-05-17
Publication date: 2023-06-23
Anticipated expiration: 2043-05-17
Also published as: CN116313397B

Abstract

The invention relates to the technical field of transformers, and provides a transformer supporting mechanism for electric installation, which comprises an installation mechanism, an adjustable radiating component and a supporting component, wherein a first air hole is formed in the surface of a bottom shell, a second air hole corresponding to the first air hole is formed in the surface of an L-shaped plate in the adjustable radiating component, a pressurizing block is arranged on one side of the L-shaped plate, a driving part is in transmission connection with a central tube, the L-shaped plate is in contact with the inner wall of the bottom shell, the supporting component comprises a longitudinal supporting shell, a transverse supporting plate, a telescopic plate, a wedge block, a second damping spring, a ball body and a pressure-bearing block, the lower part of the longitudinal supporting shell is connected with an installation seat, the transverse supporting plate is connected with the wedge block through the telescopic plate, the wedge block and the ball body are all positioned in the longitudinal supporting shell, the inclined surface of the wedge block is in contact with the ball body, and the second damping spring is connected between the longitudinal supporting shell and the transverse supporting plate, and the transformer supporting mechanism has the characteristics of being convenient to adjust, and good in buffering and radiating effects.

Description

Transformer supporting mechanism for power installation

Technical Field

The invention relates to the technical field of transformers, in particular to a transformer supporting mechanism for power installation.

Background

The invention discloses a supporting mechanism for a transformer tube, which belongs to the field of transformers and comprises a box body and a transformer body, wherein the transformer body is fixedly connected with the tube connecting body, a seat plate for bearing the transformer is slidably connected in the box body, and a driving mechanism for driving a first clamping block and a second clamping block to slide is arranged on the seat plate.

However, the above technical scheme can automatically complete the limit fixation of the transformer body through the driving mechanism, but the driving mechanism can not adjust the ventilation effect of the transformer according to the surface temperature of the transformer and the external weather humidity condition while adjusting the limit fixation, and can not flexibly and effectively protect the transformer according to the actual condition.

Disclosure of Invention

In order to achieve the above purpose, the invention provides a transformer supporting mechanism for electric power installation, which comprises an installation mechanism, an adjustable heat dissipation assembly and a supporting assembly, wherein the installation mechanism comprises a bottom shell, a top cover and an installation seat, the surface of the bottom shell is provided with first air holes, the top cover is fixedly installed above the bottom shell, the surface of the top cover is provided with a threading pipe, and the bottom shell is fixedly installed on the surface of the installation seat;

the adjustable heat dissipation assembly comprises an L-shaped plate, second air holes, a pressing block, a central tube, a driving part and an air pump, wherein a plurality of L-shaped plates are fixedly arranged on the surface of the central tube, the surface of each L-shaped plate is provided with the second air holes corresponding to the first air holes, one side of each L-shaped plate is provided with the pressing block, the driving part is in transmission connection with the central tube, the air pump is communicated with the central tube, and the L-shaped plates are in contact with the inner wall of the bottom shell;

the supporting component comprises a longitudinal supporting shell, a transverse supporting plate, a telescopic plate, a wedge block, a second damping spring, a ball body and a pressure bearing block, wherein the lower portion of the longitudinal supporting shell is connected with a mounting seat, the transverse supporting plate is connected with the wedge block through the telescopic plate, the wedge block and the ball body are all located in the longitudinal supporting shell, the ball body is connected with the pressure bearing block, the inclined surface of the wedge block is in contact with the ball body, the pressure bearing block corresponds to the position of the pressure bearing block, and the second damping spring is connected between the longitudinal supporting shell and the transverse supporting plate.

As a further scheme of the invention, the support assembly further comprises a fixed shell, a support rod, a sliding block and a first damping spring, wherein the fixed shell is fixedly arranged on the surface of the mounting seat, the lower part of the longitudinal support shell is connected with the sliding block through the support rod, the support rod penetrates through the bottom shell, the sliding block is movably sleeved in the fixed shell, and the first damping spring is connected between the bottom of the fixed shell and the sliding block.

As a further scheme of the invention, the inner wall of the bottom shell is provided with a plurality of grooves, and a plurality of L-shaped plates and first ventilation holes are positioned in the grooves.

As a further scheme of the invention, the longitudinal supporting shell and the transverse supporting plate are distributed between two adjacent L-shaped plates, when the transformer is installed, the driving part is started at first, the driving part drives the L-shaped plates to rotate around the axis of the central tube through the transmission gear, the rotating L-shaped plates drive the connecting rod and the ball body to move through the pressurizing block and the bearing block, the moving ball body drives the telescopic plate and the transverse supporting plate to move in a direction far away from the longitudinal supporting shell through the wedge-shaped blocks, so that a certain installation space is provided for the transformer, then the driving part drives the counter-rotating L-shaped plates to drive the pressurizing block to move in a direction far away from the bearing block, after the bearing block loses the extrusion force of the bearing block, the elasticity of the second damping spring drives the transverse supporting plate, the telescopic plate and the wedge-shaped blocks to reversely move, so that the transverse supporting plate is extruded and attached to the surface of the transformer, after the transformer is installed on the surface of the longitudinal supporting shell in the bottom shell, the top cover is fixed above the bottom shell through bolts or screws, the wire on the transformer extends outwards from the threading tube on the surface of the top cover to connect the cable.

As a further scheme of the invention, the surface of the central tube is fixedly provided with a transmission gear, the driving part comprises a driving motor and a driving gear, the driving motor is connected with the driving gear, the transmission gear is in transmission connection with the driving gear, and the air pump is connected to the lower end of the central tube through a ventilation pipe.

As a further scheme of the invention, a connecting rod is fixedly connected between the ball body and the pressure bearing block, and the connecting rod penetrates through the side wall of the longitudinal support shell.

As a further scheme of the invention, the surface of the transverse supporting plate is provided with a third ventilation hole.

The beneficial effects of the invention are that: when the drive portion drives the L shaped plate to rotate, the L shaped plate of rotation can drive the transverse support plate through the pressurizing block, the pressure bearing block, the ball body, the wedge block and the expansion plate on the one hand and do transverse movement, so that the transformer is convenient to install and fix, after the transformer is installed, the second damping spring is matched with the transverse support plate which transversely moves along the longitudinal support shell to play a role of transverse buffering, and on the other hand, the L shaped plate of rotation achieves the purposes of rapid heat dissipation and moisture prevention through the mode of adjusting the position relation of the second ventilation holes and the first ventilation holes. The heat radiator has the characteristics of convenience in adjustment, buffering and good heat dissipation effect.

Drawings

Fig. 1 is a front view of a mounting mechanism in an embodiment of the invention.

Fig. 2 is a front view of an adjustable heat sink assembly according to an embodiment of the present invention.

Fig. 3 is a front view of a support assembly according to an embodiment of the present invention.

Fig. 4 is a perspective view of an adjustable heat sink assembly according to an embodiment of the present invention.

Fig. 5 is a first top view of a transformer support mechanism for power installation according to an embodiment of the present invention.

Fig. 6 is a first plan view of a transformer supporting mechanism for power installation according to an embodiment of the present invention.

Fig. 7 is a front view of a transformer support mechanism for power installation according to an embodiment of the present invention.

Fig. 8 is an enlarged view of a portion of fig. 5a in accordance with the present invention.

Fig. 9 is a second top view of a transformer support mechanism for power installation according to an embodiment of the present invention.

Fig. 10 is a second top view of a transformer supporting mechanism for power installation supporting a transformer according to an embodiment of the present invention.

Reference numerals: 1-mounting mechanism, 11-bottom shell, 111-recess, 112-first bleeder vent, 12-top cap, 121-threading pipe, 13-mount pad, 2-transformer, 3-adjustable radiator module, 31-L shaped plate, 311-second bleeder vent, 312-pressurizing block, 32-center tube, 321-drive gear, 33-drive portion, 34-air pump, 35-ventilation pipe, 4-supporting module, 41-longitudinal support shell, 42-transverse support plate, 421-third bleeder vent, 422-expansion plate, 423-wedge, 43-fixed shell, 44-supporting rod, 441-slider, 45-first damping spring, 46-second damping spring, 47-sphere, 48-connecting rod, 49-pressure-bearing block.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clear, the present invention will be described in further detail with reference to the accompanying drawings and specific embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

Specific implementations of the invention are described in detail below in connection with specific embodiments.

Referring to fig. 1 to 10, a transformer supporting mechanism for power installation provided by an embodiment of the present invention includes a mounting mechanism 1, an adjustable heat dissipation component 3 and a supporting component 4, where the mounting mechanism 1 includes a bottom shell 11, a top cover 12 and a mounting seat 13, a first ventilation hole 112 is provided on a surface of the bottom shell 11, the top cover 12 is fixedly installed above the bottom shell 11, a threading pipe 121 is provided on a surface of the top cover 12, and the bottom shell 11 is fixedly installed on a surface of the mounting seat 13;

the adjustable heat dissipation assembly 3 comprises an L-shaped plate 31, second air holes 311, a pressing block 312, a central tube 32, a driving part 33 and an air pump 34, wherein a plurality of L-shaped plates 31 are fixedly arranged on the surface of the central tube 32, the surface of each L-shaped plate 31 is provided with the second air holes 311 corresponding to the first air holes 112 in position, one side of each L-shaped plate 31 is provided with the pressing block 312, the driving part 33 is in transmission connection with the central tube 32, the air pump 34 is communicated with the central tube 32, and the L-shaped plates 31 are in contact with the inner wall of the bottom shell 11;

the supporting component 4 comprises a longitudinal supporting shell 41, a transverse supporting plate 42, a telescopic plate 422, a wedge block 423, a second damping spring 46, a ball 47 and a pressure bearing block 49, wherein the lower part of the longitudinal supporting shell 41 is connected with the mounting seat 13, the transverse supporting plate 42 is connected with the wedge block 423 through the telescopic plate 422, the wedge block 423 and the ball 47 are all positioned in the longitudinal supporting shell 41, the ball 47 is connected with the pressure bearing block 49, the inclined surface of the wedge block 423 is in contact with the ball 47, the pressure bearing block 312 corresponds to the position of the pressure bearing block 49, and the second damping spring 46 is connected between the longitudinal supporting shell 41 and the transverse supporting plate 42.

Further, a plurality of recess 111 has been seted up to drain pan 11 inner wall, a plurality of L shaped plate 31 and first bleeder vent 112 all are located recess 111, under the initial condition, second bleeder vent 31 on the L shaped plate 31 aligns with the first bleeder vent 112 on drain pan 11 surface, the during operation of air pump 34 can outwards discharge the hot air in the drain pan 11 this moment from center tube 32, outside air gets into in the drain pan 11 through first bleeder vent 112 and second bleeder vent 311, thereby the purpose of quick heat dissipation cooling has been reached, when L shaped plate 31 rotates at certain angle in recess 111, second bleeder vent 311 on L shaped plate 31 surface breaks away from first bleeder vent 112, L shaped plate 31 shelters from first bleeder vent 112 and closes, can prevent outside moist air to get into transformer 2, possess dampproofing effectual characteristics.

Further, the longitudinal support shell 41 and the transverse support plate 42 are distributed between two adjacent L-shaped plates 31.

Further, the surface of the central tube 32 is fixedly provided with a transmission gear 321, the driving part 33 comprises a driving motor and a driving gear, the driving motor is connected with the driving gear, the transmission gear 321 is in transmission connection with the driving gear, and the air pump 34 is connected to the lower end of the central tube 32 through a ventilation pipe 35.

Further, the surface of the lateral support plate 42 is provided with the third ventilation holes 421, when the lateral support plate 42 is attached to the surface of the transformer 2, the external air can fully contact with the surface of the transformer 2 through the third ventilation holes 421 when the external air enters the bottom shell 11 through the first ventilation holes 112 and the second ventilation holes 311, so that the heat dissipation and cooling efficiency can be improved.

In the embodiment of the present invention, when the driving portion 33 drives the L-shaped plate 31 to rotate, the rotating L-shaped plate 31 can drive the transverse support plate 42 to move transversely through the pressurizing block 321, the pressure-bearing block 49, the ball 47, the wedge 423 and the expansion plate 422, so as to facilitate the installation and fixation of the transformer 2, and after the transformer 2 is installed, the second damping spring 46 cooperates with the transverse support plate 42 moving transversely along the longitudinal support shell 41 to play a role in transverse buffering, and on the other hand, the rotating L-shaped plate 31 achieves the purposes of rapid heat dissipation and moisture prevention by adjusting the positional relationship between the second ventilation holes 311 and the first ventilation holes 112. The heat radiator has the characteristics of convenience in adjustment, buffering and good heat dissipation effect.

Referring to fig. 1 to 7, in an embodiment of the invention, the supporting assembly 4 further includes a fixing shell 43, a supporting rod 44, a sliding block 441 and a first damping spring 45, the fixing shell 43 is fixedly installed on the surface of the mounting seat 13, the sliding block 441 is connected to the lower portion of the longitudinal supporting shell 41 through the supporting rod 44, the supporting rod 44 penetrates through the bottom shell 11, the sliding block 441 is movably sleeved in the fixing shell 43, and the first damping spring 45 is connected between the bottom of the fixing shell 43 and the sliding block 441.

In the embodiment of the present invention, when the transformer 2 is placed on the surface of the longitudinal support case 41, the gravity of the transformer 2 overcomes the elastic force of the first shock-absorbing spring 45, so that the longitudinal support case 4, the support bar 44 and the slider 441 are lowered by a certain height, and it should be noted that the pressure-bearing block 49 can always contact with the moving pressure-applying block 321, and the first shock-absorbing spring 45 cooperates with the longitudinal support case 41 moving up and down along the fixed case 43 to perform a longitudinal buffering function when encountering an earthquake or severe vibration.

Working principle: when the transformer 2 is installed, the driving part 33 is started firstly, the driving part 33 drives the L-shaped plate 31 to rotate around the axis of the central tube 32 through the transmission gear 321, the rotating L-shaped plate 31 drives the connecting rod 48 and the sphere 47 to move through the pressurizing block 321 and the pressure-bearing block 49, the moving sphere 47 drives the telescopic plate 422 and the transverse supporting plate 42 to move in the direction away from the longitudinal supporting shell 41 through the wedge-shaped block 423, so that a certain installation space is provided for the transformer 2, then the driving part 33 drives the reverse rotation, the reversely rotating L-shaped plate 31 drives the pressurizing block 321 to move in the direction away from the pressure-bearing block 49, after the pressure-bearing block 49 loses the extrusion force of the pressure-bearing block 49, the elasticity of the second shock-absorbing spring 46 drives the transverse supporting plate 42, the telescopic plate 422 and the wedge-shaped block 423 to reversely move, so that the transverse supporting plate 42 is extruded and attached to the surface of the transformer 2, after the transformer 2 is installed on the surface of the longitudinal supporting shell 41 in the bottom shell 11, the top cover 12 is fixed above the bottom shell 11 through bolts or screws, the effect of longitudinal limiting is achieved, and wires on the transformer 2 extend outwards from the threading tube 121 on the surface of the top cover 12 to connect cable wires;

when an earthquake or severe vibration is encountered, the first damping spring 45 plays a role in longitudinal buffering by being matched with the longitudinal support shell 41 which moves up and down along the fixed shell 43, and the second damping spring 46 plays a role in transverse buffering by being matched with the transverse support plate 42 which moves transversely along the longitudinal support shell 41, so that the anti-vibration device has the characteristics of good buffering effect and good protection effect;

when the surface temperature of the transformer 2 is higher, the hot air in the bottom shell 11 can be discharged outwards from the middle shell 32 when the air pump 34 works, external air enters the bottom shell 11 through the first air holes 112 and the second air holes 311, so that the purpose of rapid heat dissipation and cooling is achieved, when rainy or humid weather is met, the driving part 33 drives the L-shaped plate 31 to rotate around the axis of the middle tube 32 through the transmission gear 321, so that the second air holes 311 on the surface of the L-shaped plate 31 are separated from the first air holes 112, the L-shaped plate 31 shields the first air holes 112 from being closed, external humid air is prevented from entering the transformer 2, the problem of short circuit of a circuit can be prevented, and the rotating L-shaped plate 31 also drives the transverse supporting plate 42 to a position far away from the longitudinal supporting shell 41 through the pressurizing block 321, the bearing block 49, the connecting rod 48, the sphere 47, the wedge 423 and the telescopic plate 422, so that the L-shaped plate 31 shields the transformer 2 is fully contacted with air, and the heat dissipation and cooling are facilitated.

In summary, when the driving portion 33 drives the L-shaped plate 31 to rotate, the rotating L-shaped plate 31 can drive the transverse support plate 42 to move transversely through the pressurizing block 321, the pressure-bearing block 49, the ball 47, the wedge 423 and the expansion plate 422, so as to mount and fix the transformer 2, and after the transformer 2 is mounted, the second damping spring 46 cooperates with the transverse support plate 42 moving transversely along the longitudinal support shell 41 to play a role in transverse buffering, and the rotating L-shaped plate 31 can achieve the purposes of rapid heat dissipation and moisture prevention by adjusting the positional relationship between the second ventilation holes 311 and the first ventilation holes 112. The heat radiator has the characteristics of convenience in adjustment, buffering and good heat dissipation effect.

It will be apparent to those skilled in the art that although several embodiments and examples of the present invention have been described, these embodiments and examples are presented by way of example and are not intended to limit the scope of the invention. These novel embodiments can be implemented in various other modes, and various omissions, substitutions, and changes can be made without departing from the spirit of the invention.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims

1. The transformer supporting mechanism for electric power installation comprises an installation mechanism, an adjustable radiating assembly and a supporting assembly, and is characterized in that the installation mechanism comprises a bottom shell, a top cover and an installation seat, wherein a first air hole is formed in the surface of the bottom shell, the top cover is fixedly installed above the bottom shell, a threading pipe is arranged on the surface of the top cover, and the bottom shell is fixedly installed on the surface of the installation seat;

2. The transformer supporting mechanism for electric installation according to claim 1, wherein the supporting assembly further comprises a fixing shell, a supporting rod, a sliding block and a first damping spring, the fixing shell is fixedly installed on the surface of the installation seat, the sliding block is connected below the longitudinal supporting shell through the supporting rod, the supporting rod penetrates through the bottom shell, the sliding block is movably sleeved in the fixing shell, and the first damping spring is connected between the bottom of the fixing shell and the sliding block.

3. The transformer supporting mechanism for electric installation according to claim 2, wherein the inner wall of the bottom shell is provided with a plurality of grooves, and the plurality of L-shaped plates and the first ventilation holes are all positioned in the grooves.

4. A transformer support mechanism for electrical installation according to claim 3, wherein said longitudinal support shell and transverse support plate are distributed between two adjacent L-shaped plates.

5. The transformer supporting mechanism for electric installation according to claim 1, wherein the central tube is fixedly provided with a transmission gear on a surface thereof, the driving part comprises a driving motor and a driving gear, the driving motor is connected with the driving gear, the transmission gear is in transmission connection with the driving gear, and the air pump is connected to a lower end of the central tube through a ventilation pipe.

6. The transformer supporting mechanism for electric installation according to claim 1, wherein a connecting rod is fixedly connected between the ball and the bearing block, and the connecting rod penetrates through the side wall of the longitudinal supporting shell.

7. A transformer support mechanism for electrical power installation according to claim 1, wherein the lateral support plate surface is provided with a third vent.