CN215732977U - Transformer chamber capable of preventing internal electrical elements from contacting water - Google Patents

Abstract

The utility model relates to the technical field of power distribution and power utilization, in particular to a transformer chamber capable of preventing internal electrical elements from contacting water, wherein a lifting mechanism is arranged in the transformer chamber; the lifting mechanism comprises a fixed plate, a walking groove, a driving motor, a screw rod, a sliding block and a bottom plate, wherein the fixed plate is arranged in the transformer chamber, the walking groove is formed in the fixed plate, and the driving motor is embedded in one end of the walking groove; the output shaft of the driving motor is connected with a screw rod, the screw rod is sleeved with a sliding block in a sliding manner, and a bottom plate and an adjustable mechanism arranged on the bottom plate are connected between the two sliding blocks; the adjustable mechanism comprises a splicing vertical plate, a splicing groove, a splicing vertical block and a transformer supporting plate, wherein the splicing vertical plate is symmetrical on the bottom plate, the splicing groove is formed in the splicing vertical plate, and the splicing vertical block is spliced in the splicing groove; the inserting vertical blocks are arranged on two sides of the transformer supporting plate, sliding grooves are symmetrically formed in the transformer supporting plate, and the sliding grooves are matched with sliding strips arranged at the bottom of the transformer.

Description

Transformer chamber capable of preventing internal electrical elements from contacting water

Technical Field

The utility model relates to the technical field of power distribution and power utilization, in particular to a transformer chamber capable of preventing internal electrical elements from contacting water.

Background

In daily life, when raining, people usually see that some transformer rooms arranged on the roadside are often surrounded by rainwater. If the rainwater is too small, the external rainwater cannot enter a transformer chamber provided with the transformer; if the rainwater is too large, the external rainwater can enter a transformer chamber for installing the transformer.

When external rainwater enters the transformer chamber, electrical elements on the transformer conventionally installed in the transformer chamber are soaked by the rainwater; when the electrical components on the transformer are wetted by rain, the electrical components are corroded and cannot be used. Therefore, it is necessary to design or develop a device that can prevent rainwater from wetting the electrical components on the transformer, so as to solve the problem that the electrical components in the existing transformer room are flooded when raining.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a transformer chamber capable of preventing internal electric elements from being in contact with water, so as to solve the problem that the electric elements in the conventional transformer chamber are flooded by water when raining.

In order to solve the technical problems, the utility model adopts the following technical scheme:

a transformer chamber capable of preventing internal electrical elements from contacting water comprises a transformer chamber, a lifting mechanism, an adjustable mechanism and a transformer, wherein the transformer chamber is a rectangular cavity body with one open end, and the lifting mechanism is arranged in the transformer chamber; the lifting mechanism comprises a fixed plate, a walking groove, a driving motor, a screw rod, a sliding block and a bottom plate, wherein the fixed plate is arranged in the transformer chamber, the walking groove is formed in the fixed plate, and the driving motor is embedded in one end of the walking groove; the output shaft of the driving motor is connected with a screw rod, the screw rod is sleeved with a sliding block in a sliding manner, and a bottom plate and an adjustable mechanism arranged on the bottom plate are connected between the two sliding blocks; the adjustable mechanism comprises a splicing vertical plate, a splicing through groove, a splicing vertical block and a transformer supporting plate, wherein the splicing vertical plate is symmetrical to the bottom plate, the splicing through groove is formed in the splicing vertical plate, and the splicing vertical block is spliced in the splicing through groove; the inserting vertical blocks are arranged on two sides of the transformer supporting plate, sliding grooves are symmetrically formed in the transformer supporting plate, and the sliding grooves are matched with sliding strips arranged at the bottom of the transformer.

Furthermore, the screw rods are symmetrically arranged in pairs, the driving motors connected with the screw rods are also in pairs, and the pair of driving motors are symmetrically arranged.

Further, a plurality of is seted up along the grafting riser to the logical groove of pegging graft, and is the equidistance setting between the logical groove of adjacent pegging graft.

Furthermore, the inserting vertical blocks are arranged to be of a telescopic structure, and can be withdrawn from the inserting through grooves when being pressed.

Furthermore, a support table is arranged on the inner wall of the transformer chamber, and a small water pump is arranged on the support table; the small water suction pump is respectively connected with a water outlet pipe and a water suction pipe in a conduction mode, and the water suction pipe extends to the bottom wall of the transformer chamber along the inner wall of the transformer chamber.

Furthermore, the outlet pipe runs through the transformer chamber wall and extends to the interim aqua storage tank in, and the interim aqua storage tank bottom has seted up the water dripping hole and has set up the end cover on the water dripping hole.

Further, the transformer room opens to be served and is provided with the hinge, and articulated on the hinge have the room door and set up the power off switch that opens and shuts on the room door, open and shut the power off switch and connect in the transformer electrically.

Furthermore, an annular groove is formed in the inner wall of the transformer chamber, a heat dissipation fan is embedded in the annular groove, and the air outlet end of the heat dissipation fan is aligned to the heat dissipation holes; the heat dissipation holes are formed in the fixed plate and the inserting vertical block, and air outlet holes are formed in one side of the heat dissipation holes; the air outlet is arranged on the wall of the transformer chamber, and a first rain shield is arranged on one side of the air outlet.

Further, the inner wall and the outer wall of the transformer chamber are respectively coated with a heat insulation layer and a waterproof layer, an anti-collision convex hull is arranged on the waterproof layer, and a damping cushion core is filled in the anti-collision convex hull.

Furthermore, the bottom of the transformer chamber is connected with the ejection end of the jack, and the base of the jack is fixedly arranged on the ground.

Compared with the prior art, the utility model has at least one of the following beneficial effects:

the utility model is provided with a lifting mechanism in a transformer chamber; the lifting mechanism comprises a fixed plate, a walking groove, a driving motor, a screw rod, a sliding block and a bottom plate, wherein the fixed plate is arranged in the transformer chamber, the walking groove is formed in the fixed plate, and the driving motor is embedded in one end of the walking groove; the output shaft of the driving motor is connected with a screw rod, the screw rod is sleeved with a sliding block in a sliding manner, and a bottom plate and an adjustable mechanism arranged on the bottom plate are connected between the two sliding blocks; the adjustable mechanism comprises a splicing vertical plate, a splicing through groove, a splicing vertical block and a transformer supporting plate, wherein the splicing vertical plate is symmetrical to the bottom plate, the splicing through groove is formed in the splicing vertical plate, and the splicing vertical block is spliced in the splicing through groove; the vertical insertion blocks are arranged on two sides of the transformer supporting plate, sliding grooves are symmetrically formed in the transformer supporting plate and are matched with sliding strips arranged at the bottom of the transformer, and therefore the problem that electrical elements in an existing transformer chamber are flooded by water when raining is solved.

Drawings

Fig. 1 is a schematic structural view of the present invention (without a door attached).

Fig. 2 is a schematic structural view (with a door installed) of the present invention.

In the figure, 1-transformer chamber, 2-fixing plate, 3-walking groove, 4-driving motor, 5-screw rod, 6-sliding block, 7-bottom plate, 8-splicing vertical plate, 9-splicing groove, 10-splicing vertical block, 11-transformer supporting plate, 12-transformer, 13-supporting table, 14-small water pump, 15-water outlet pipe, 16-water pumping pipe, 17-water pumping pipe, 18-chamber door, 19-heat dissipation fan, 20-heat dissipation hole, 21-air outlet hole, 22-first rain shield and 23-jack.

Detailed Description

As shown in fig. 1-2, in order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention will be further described in detail with reference to the accompanying drawings and examples. It should be understood that the specific embodiments described herein are merely illustrative of the utility model and are not intended to limit the utility model.

Example 1

A transformer chamber capable of preventing internal electrical elements from being contacted with water comprises a transformer chamber 1, a lifting mechanism, an adjustable mechanism and a transformer 12, wherein the transformer chamber 1 is a rectangular cavity body with one open end, and the lifting mechanism is arranged in the transformer chamber 1; the lifting mechanism comprises a fixed plate 2, a walking groove 3, a driving motor 4, a screw rod 5, a sliding block 6 and a bottom plate 7, wherein the fixed plate 2 is arranged in the transformer chamber 1, the walking groove 3 is formed in the fixed plate 2, and the driving motor 4 is embedded in one end of the walking groove 3; an output shaft of the driving motor 4 is connected with a screw rod 5, the screw rod 5 is sleeved with a sliding block 6 in a sliding manner, and a bottom plate 7 and an adjustable mechanism arranged on the bottom plate 7 are connected between the two sliding blocks 6; the adjustable mechanism comprises a splicing vertical plate 8, a splicing through groove 9, a splicing vertical block 10 and a transformer supporting plate 11, wherein the splicing vertical plate 8 is symmetrical to the bottom plate 7, the splicing vertical plate 8 is provided with the splicing through groove 9, and the splicing vertical block 10 is spliced in the splicing through groove 9; the inserting vertical blocks 10 are arranged on two sides of the transformer supporting plate 11, sliding grooves are symmetrically formed in the transformer supporting plate 11, and the sliding grooves are matched with sliding strips arranged at the bottom of the transformer 12.

Example 2

On the basis of the embodiment 1, the screw rods 5 are symmetrically arranged in a pair, the driving motors 4 connected with the screw rods 5 are also in a pair, and the pair of driving motors 4 are symmetrically arranged.

Example 3

On the basis of embodiment 1, a plurality of grafting through groove 9 has been seted up along grafting riser 8, and is the equidistance setting between the adjacent grafting through groove 9.

Example 4

On the basis of embodiment 1, the inserting vertical block 8 is arranged to be a telescopic structure, and the inserting vertical block 8 can be withdrawn from the inserting through groove 9 when being pressed.

Example 5

On the basis of the embodiment 1, a support table 13 is arranged on the inner wall of the transformer chamber 12, and a small water pump 14 is arranged on the support table 13; the small water pump 14 is connected to a water outlet pipe 15 and a water pumping pipe 16, and the water pumping pipe 16 extends to the bottom wall of the transformer chamber 12 along the inner wall of the transformer chamber 12.

Example 6

On the basis of embodiment 1, the water outlet pipe 15 penetrates through the wall of the transformer chamber 12 and extends into the temporary water storage tank 17, and the bottom end of the temporary water storage tank 17 is provided with a water dropping hole and an end cover arranged on the water dropping hole.

Example 7

On the basis of embodiment 1, a hinge shaft is arranged at one open end of the transformer chamber 12, a chamber door 18 and an on-off switch arranged on the chamber door 18 are hinged to the hinge shaft, and the on-off switch is electrically connected to the transformer.

Example 8

On the basis of embodiment 1, an annular groove is formed in the inner wall of the transformer chamber 12, a heat dissipation fan 19 is embedded in the annular groove, and an air outlet end of the heat dissipation fan 19 is aligned to a heat dissipation hole 20; the heat dissipation holes 20 are formed in the fixed plate 2 and the inserting vertical block 10, and air outlet holes 21 are formed in one side of each heat dissipation hole 20; the air outlet 21 is arranged on the wall of the transformer chamber, and a first rain shield 22 is arranged on one side of the air outlet 21.

Example 9

On the basis of embodiment 1, the inner wall and the outer wall of the transformer chamber 1 are respectively coated with a heat insulating layer and a waterproof layer, the waterproof layer is provided with an anti-collision convex hull, and the anti-collision convex hull is filled with a damping cushion core

Example 10

Based on embodiment 1, the bottom of the transformer chamber 12 is connected to the ejecting end of the jack 23, and the base of the jack 23 is fixedly disposed on the ground.

Although the utility model has been described herein with reference to a number of illustrative embodiments thereof, it should be understood that numerous other modifications and embodiments can be devised by those skilled in the art that will fall within the spirit and scope of the principles of this disclosure. More specifically, various variations and modifications are possible in the component parts and/or arrangements of the subject combination arrangement within the scope of the disclosure, the drawings and the appended claims. In addition to variations and modifications in the component parts and/or arrangements, other uses will also be apparent to those skilled in the art.

Claims (10)

1. A transformer chamber capable of preventing internal electrical components from contacting water, characterized in that: the transformer comprises a transformer chamber (1), a lifting mechanism, an adjustable mechanism and a transformer (12), wherein the transformer chamber (1) is a rectangular cavity body with one open end, and the lifting mechanism is arranged in the transformer chamber (1); the lifting mechanism comprises a fixed plate (2), a walking groove (3), a driving motor (4), a lead screw (5), a sliding block (6) and a bottom plate (7), wherein the fixed plate (2) is arranged in the transformer chamber (1), the walking groove (3) is formed in the fixed plate (2), and the driving motor (4) is embedded in one end of the walking groove (3) in a groove; an output shaft of the driving motor (4) is connected with a screw rod (5), a sliding block (6) is sleeved on the screw rod (5) in a sliding manner, and a bottom plate (7) and an adjustable mechanism arranged on the bottom plate (7) are connected between the two sliding blocks (6); the adjustable mechanism comprises a plug-in vertical plate (8), a plug-in through groove (9), a plug-in vertical block (10) and a transformer supporting plate (11), wherein the plug-in vertical plate (8) is symmetrical to the bottom plate (7), the plug-in vertical plate (8) is provided with the plug-in through groove (9), and the plug-in vertical block (10) is plugged in the plug-in through groove (9); the inserting vertical blocks (10) are arranged on two sides of the transformer supporting plate (11), sliding grooves are symmetrically formed in the transformer supporting plate (11), and the sliding grooves are matched with sliding strips arranged at the bottom of the transformer (12).

2. A transformer chamber according to claim 1 for protecting internal electrical components from water, wherein: the screw rod (5) is symmetrically arranged in a pair, the driving motors (4) connected with the screw rod (5) are also in a pair, and the pair of driving motors (4) are symmetrically arranged.

3. A transformer chamber according to claim 1 for protecting internal electrical components from water, wherein: the inserting through grooves (9) are provided with a plurality of inserting vertical plates (8), and the adjacent inserting through grooves (9) are arranged at equal intervals.

4. A transformer chamber according to claim 1 for protecting internal electrical components from water, wherein: the inserting vertical blocks (10) are of a telescopic structure, and the inserting vertical blocks (10) can be withdrawn from the inserting through grooves (9) when pressed.

5. A transformer chamber according to claim 1 for protecting internal electrical components from water, wherein: a support table (13) is arranged on the inner wall of the transformer chamber (1), and a small water pump (14) is arranged on the support table (13); the small water suction pump (14) is respectively connected with a water outlet pipe (15) and a water suction pipe (16) in a conduction mode, and the water suction pipe (16) extends to the bottom wall of the transformer chamber (1) along the inner wall of the transformer chamber (1).

6. A transformer chamber according to claim 5 for protecting internal electrical components from water, wherein: the outlet pipe (15) runs through the wall of the transformer chamber (1) and extends into the temporary water storage tank (17), and the bottom end of the temporary water storage tank (17) is provided with a water dripping hole and an end cover arranged on the water dripping hole.

7. The transformer chamber capable of preventing the water contact of the internal electric elements in claim 1 is characterized in that a hinged shaft is arranged at one open end of the transformer chamber (1), a chamber door (18) and an on-off power switch arranged on the chamber door (18) are hinged on the hinged shaft, and the on-off power switch is electrically connected with the transformer.

8. A transformer chamber according to claim 1 for protecting internal electrical components from water, wherein: an annular groove is formed in the inner wall of the transformer chamber (1), a heat dissipation fan (19) is embedded in the annular groove, and the air outlet end of the heat dissipation fan (19) is aligned to the heat dissipation hole (20); the heat dissipation holes (20) are formed in the fixing plate (2) and the inserting vertical block (10), and air outlet holes (21) are formed in one side of each heat dissipation hole (20); the air outlet (21) is arranged on the wall of the transformer chamber, and a first rain shield (22) is arranged on one side of the air outlet.

9. A transformer chamber according to claim 1 for protecting internal electrical components from water, wherein: the transformer room is characterized in that the inner wall and the outer wall of the transformer room (1) are respectively coated with a heat insulation layer and a waterproof layer, an anti-collision convex hull is arranged on the waterproof layer, and a damping cushion core is filled in the anti-collision convex hull.

10. A transformer chamber according to claim 1 for protecting internal electrical components from water, wherein: the bottom of the transformer chamber (1) is connected with the ejection end of the jack (23), and the base of the jack (23) is fixedly arranged on the ground.

Images