CN219717643U - Movable transformer substation structure - Google Patents

Abstract

The utility model is applicable to the technical field of substations, and particularly relates to a movable substation structure, which comprises a movable base and a substation, wherein an upper rain baffle is arranged on the upper side of the substation, a plurality of substation opening and closing doors are hinged to the outer side of the substation, and the movable substation structure further comprises: the damping telescopic rods are arranged on the upper side of the movable base; and the plurality of buffer damping springs are arranged on the upper side of the movable base. According to the utility model, through arranging the supporting platform, the limiting clamping blocks, the connecting blocks, the limiting grooves, the sliding columns, the bearing seats, the threaded holes and the double-threaded transmission rods, substations with different specifications and widths can be conveniently arranged on the surface of the supporting platform, so that the substations can conveniently move on the ground through a plurality of self-locking universal wheels, and the practicability and the moving convenience of the structure of the substation are improved.

Description

Movable transformer substation structure

Technical Field

The utility model relates to the technical field of transformer substations, in particular to a movable transformer substation structure.

Background

The transformer station is a place where the voltage is changed, in order to transmit the electric energy generated by the power plant to a remote place, the voltage must be increased to be high-voltage power, the voltage must be reduced as required to the vicinity of the user, and the operation of increasing and decreasing the voltage is completed by the transformer station.

The currently used transformer substation structure is usually an object with large weight and large volume, which causes time and labor waste when the transformer substation structure needs to be moved.

Disclosure of Invention

The embodiment of the utility model aims to provide a movable transformer substation structure, which aims to solve the following problems: the currently used transformer substation structure is usually an object with large weight and large volume, which causes time and labor waste when the transformer substation structure needs to be moved.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

the utility model provides a movable transformer substation structure, includes mobile base and transformer substation, and the upside of transformer substation is provided with the weather shield, and the outside of transformer substation articulates there is the transformer substation door that opens and shuts, and a plurality of is installed to the downside of transformer substation, movable transformer substation structure still includes:

the damping telescopic rods are arranged on the upper side of the movable base;

the plurality of buffer damping springs are arranged on the upper side of the movable base, one ends of the plurality of buffer damping springs and one ends of the plurality of damping telescopic rods are connected with a supporting platform together, and the transformer substation is connected on the upper side of the supporting platform;

the two connecting blocks are respectively connected to the bottoms of the two sides of the transformer substation, and limit grooves are formed in one sides, away from each other, of the two connecting blocks;

the two sliding columns are both connected to the upper side of the movable base in a sliding manner, and the upper sides of the sliding columns are connected with limiting clamping blocks; and

and the bidirectional transmission assembly is arranged on the upper side of the movable base and used for driving the two sliding columns to move towards the directions approaching to or separating from each other.

Further, the vertical section of the limiting clamping block is the same as the vertical section inside the limiting groove.

Further, both sides of the upper side of the movable base are provided with sliding rails, the lower side of the sliding column is provided with a sliding block, and the sliding column is connected to the upper side of the movable base in a sliding manner through the matching of the sliding block and the sliding rails.

Further, the bidirectional transmission assembly includes:

the bearing seat is arranged on one side of the upper side of the movable base, and a double-thread transmission rod is arranged in the bearing seat; and

the two threaded holes are respectively formed in the side faces of the two sliding columns, and the double-thread transmission rod is connected in a meshed mode in the two threaded holes.

Further, two square holes are formed in the upper side of the supporting platform, and two sliding columns are respectively arranged in the two square holes.

Further, one end of the double-thread transmission rod, which is far away from the bearing seat, is provided with a twisting handle.

The movable transformer substation structure provided by the utility model has the following beneficial effects:

1. through setting up and holding up platform, spacing fixture block, connecting block, spacing recess, slip post, bearing frame, screw hole and double-thread transmission pole, the transformer substation setting of different specifications, width is at the surface of holding up the platform that can be convenient to make the transformer substation can be convenient subaerial removal through a plurality of auto-lock universal wheel, thereby improved the practicality and the removal convenient degree of this transformer substation structure.

2. Through setting up platform, damping telescopic link, buffering damping spring and remove the base, when removing the base and moving the in-process and meetting the condition of jolting, the transformer substation can be through supporting a plurality of damping telescopic link and the buffering damping spring shock attenuation that set up between platform and the removal base to in order to avoid the inside electrical component of transformer substation to receive the shake and damage, thereby improved the practicality of this transformer substation structure that can conveniently remove.

Drawings

Fig. 1 is a schematic structural diagram of a mobile substation structure.

Fig. 2 is a schematic side partial structure view of a supporting platform, a movable base, a limit clamping block, a sliding column and a bearing seat of a movable transformer substation structure.

In the figure: 1. a movable base; 2. supporting a platform; 3. a limit clamping block; 4. opening and closing doors of the transformer substation; 5. a transformer station; 6. a rain shield is arranged on the upper part; 7. damping telescopic rod; 8. a buffer damping spring; 9. a connecting block; 10. a limit groove; 11. self-locking universal wheels; 12. a bearing seat; 13. square holes; 14. a sliding column; 15. twisting the handle; 16. a slide block; 17. a slide rail; 18. a double-thread transmission rod; 19. and (3) a threaded hole.

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. 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 utility model.

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

As shown in fig. 1-2, the movable substation structure provided by the embodiment of the utility model comprises a movable base 1 and a substation 5, wherein an upper rain shield 6 is arranged on the upper side of the substation 5, a plurality of 11 are installed on the lower side of a substation opening and closing door 4 and 1 hinged to the outer side of the substation 5, the shell of the substation 5 is of a common square structure, and the movable substation structure further comprises:

the damping telescopic rods 7 are arranged on the upper side of the movable base 1;

the plurality of buffer damping springs 8 are arranged on the upper side of the movable base 1, one ends of the plurality of buffer damping springs 8 and one ends of the plurality of damping telescopic rods 7 are connected with the supporting platform 2 together, and the transformer substation 5 is connected on the upper side of the supporting platform 2;

the two connecting blocks 9 are respectively connected to the bottoms of the two sides of the transformer substation 5, and limit grooves 10 are formed in the sides, away from each other, of the two connecting blocks 9;

the two sliding columns 14 are both in sliding connection with the upper side of the movable base 1, the upper side of the sliding column 14 is connected with a limiting clamping block 3, the vertical section of the limiting clamping block 3 is the same as the vertical section inside the limiting groove 10, sliding rails 17 are arranged on two sides of the upper side of the movable base 1, a sliding block 16 is arranged on the lower side of the sliding column 14, and the sliding column 14 is in sliding connection with the upper side of the movable base 1 through the matching of the sliding block 16 and the sliding rail 17; and

the bidirectional transmission component is arranged on the upper side of the movable base 1 and is used for driving the two sliding columns 14 to move towards or away from each other;

the bi-directional transmission assembly includes:

a bearing seat 12 which is arranged on one side of the upper side of the movable base 1, and a double-thread transmission rod 18 is arranged in the bearing seat 12; and

two screw holes 19 are respectively formed in the side surfaces of the two sliding columns 14, a double-thread transmission rod 18 is connected in a meshed mode in the two screw holes 19, two square holes 13 are formed in the upper side of the supporting platform 2, the two sliding columns 14 are respectively arranged in the two square holes 13, and a twisting handle 15 is mounted at one end, far away from the bearing seat 12, of the double-thread transmission rod 18.

In this embodiment, when the transformer substation 5 needs to be moved on the ground conveniently, the transformer substation 5 can be placed on the supporting platform 2 stably by using a lifting device, and it should be noted that the transformer substation 5 should be placed in the middle position of the surface of the supporting platform 2, and the positions of the connecting blocks 9 arranged on two sides of the transformer substation 5 are aligned with the positions of the limit clamping blocks 3 arranged on the upper side of the supporting platform 2, then a worker rotates the twist handle 15 by hand, the twist handle 15 drives the double-thread transmission rod 18 to rotate through the bearing seat 12, so that two sliding columns 14 meshed and connected on the outer side of the double-thread transmission rod 18 move towards the directions approaching each other through threaded holes 19, and the two sliding columns 14 drive the limit clamping blocks 3 to move towards the connecting blocks 9 arranged on two sides of the transformer substation 5, until the limit clamping blocks 3 are clamped into the limit grooves 10 formed in the side surfaces of the connecting blocks 9, the two limit clamping blocks 3 firmly limit the connecting blocks 9 above the supporting platform 2, and then stably limit the transformer substation 5 on the supporting platform 2, so that a worker can conveniently move the transformer substation 5 on the ground through the self-locking universal wheels 11 arranged on the lower side of the movable base 1, transformer substations 5 with different specifications and widths can be conveniently arranged on the surface of the supporting platform 2 through the technical scheme, so that the transformer substation 5 can conveniently move on the ground through the self-locking universal wheels 11, and the practicability and the moving convenience of the transformer substation structure are improved;

when the condition of jolting is encountered in the moving process of the moving base 1, the transformer substation 5 can absorb shock through a plurality of damping telescopic rods 7 and damping springs 8 which are arranged between the supporting platform 2 and the moving base 1, so that the electric elements inside the transformer substation 5 are prevented from being damaged due to shock, and the practicality of the transformer substation structure which can be conveniently moved is improved.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.

Claims (6)

1. The utility model provides a movable transformer substation structure, includes mobile base and transformer substation, and the upside of transformer substation is provided with the weather shield, and the outside of transformer substation articulates there is the transformer substation door that opens and shuts, and a plurality of, its characterized in that, movable transformer substation structure still includes:

the damping telescopic rods are arranged on the upper side of the movable base;

the plurality of buffer damping springs are arranged on the upper side of the movable base, one ends of the plurality of buffer damping springs and one ends of the plurality of damping telescopic rods are connected with a supporting platform together, and the transformer substation is connected on the upper side of the supporting platform;

the two connecting blocks are respectively connected to the bottoms of the two sides of the transformer substation, and limit grooves are formed in one sides, away from each other, of the two connecting blocks;

the two sliding columns are both connected to the upper side of the movable base in a sliding manner, and the upper sides of the sliding columns are connected with limiting clamping blocks; and

and the bidirectional transmission assembly is arranged on the upper side of the movable base and used for driving the two sliding columns to move towards the directions approaching to or separating from each other.

2. The movable substation structure according to claim 1, wherein the vertical section of the limit clamping block is the same as the vertical section of the inside of the limit groove.

3. The movable transformer substation structure according to claim 1, wherein sliding rails are arranged on two sides of the upper side of the movable base, a sliding block is arranged on the lower side of the sliding column, and the sliding column is connected to the upper side of the movable base through the matching sliding of the sliding block and the sliding rails.

4. The mobile substation structure of claim 1, wherein the bi-directional transmission assembly comprises:

the bearing seat is arranged on one side of the upper side of the movable base, and a double-thread transmission rod is arranged in the bearing seat; and

the two threaded holes are respectively formed in the side faces of the two sliding columns, and the double-thread transmission rod is connected in a meshed mode in the two threaded holes.

5. The movable transformer substation structure according to claim 4, wherein two square holes are formed in the upper side of the supporting platform, and two sliding columns are respectively arranged in the two square holes.

6. The mobile substation structure of claim 4, wherein the double threaded transmission rod is provided with a twist grip at an end thereof remote from the bearing housing.