CN210074780U - Reactive power compensation controller - Google Patents

Abstract

The utility model discloses a reactive power compensation controller, which comprises a housin, be equipped with the control cabin in the casing, be equipped with reactive compensation component in the control cabin, casing one side is equipped with control panel, the last LED display screen that is equipped with of control panel, the last position of control panel be equipped with the button piece below the LED display screen, be equipped with a plurality of buttons on the button piece, control panel is last to be close to casing one side longitudinal symmetry is equipped with L type kelly, L type kelly with form the draw-in groove between the control panel, be close to on the casing control panel one side longitudinal symmetry is equipped with the fixture block, the fixture block with the draw-in groove phase-match, the fixture block with draw-in groove swing joint, be equipped with the spiral shell ring groove on the system panel. Has the advantages that: the controller can be conveniently mounted and dismounted under the fixed connection action of the bolt, and when the controller is mounted and dismounted, the controller can be easily mounted and dismounted under the sliding and clamping actions of the sliding clamping block and the sliding clamping groove.

Description

Reactive power compensation controller

Technical Field

The utility model relates to a reactive power compensation field particularly, relates to a reactive power compensation controller.

Background

Reactive compensation plays a role in improving the power factor of a power grid in an electric power supply system, and is used for reducing the loss of a power supply transformer and a transmission line, improving the power supply efficiency and improving the power supply environment. The compensation device is reasonably selected, so that the loss of the power grid can be reduced to the maximum extent, the quality of the power grid is improved, and the reactive compensation cabinet is in an indispensable important position in the power system.

The reactive power compensation controller is the core of reactive power compensation, and not only needs to be overhauled regularly, but also generates a large amount of heat during working, and in order to solve the problem, a reactive power compensation controller is needed to solve the problem.

An effective solution to the problems in the related art has not been proposed yet.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a reactive power compensation controller to solve the problem that proposes among the above-mentioned background art.

The technical scheme of the utility model is realized like this:

a reactive power compensation controller comprises a shell, wherein a control cabin is arranged in the shell, a reactive compensation element is arranged in the control cabin, a control panel is arranged on one side of the shell, an LED display screen is arranged on the control panel, a button block is arranged on the control panel and positioned below the LED display screen, a plurality of buttons are arranged on the button block, L-shaped clamping rods are symmetrically arranged on the control panel close to one side of the shell from top to bottom, a sliding clamping groove is formed between each L-shaped clamping rod and the control panel, sliding clamping blocks are symmetrically arranged on the shell close to one side of the control panel from top to bottom, the sliding clamping blocks are matched with the sliding clamping grooves, the sliding clamping blocks are movably connected with the sliding clamping grooves, spiral grooves are arranged on the control panel, first through holes are formed in the sliding clamping blocks, second through holes are formed in the L-shaped clamping rods, bolts are arranged in the spiral, the bolt penetrates through the first through hole and the second through hole respectively, and the control panel is connected with the shell through the bolt.

Furthermore, a heat dissipation chamber is arranged on one side, far away from the control panel, of the shell.

Furthermore, a heat dissipation motor is fixedly arranged in the middle of the heat dissipation chamber, a motor shaft is arranged on the heat dissipation motor, a heat dissipation shaft is connected to the motor shaft, and a heat dissipation blade is connected to the heat dissipation shaft.

Furthermore, the heat dissipation shaft is fixedly provided with a transmission wheel, the transmission wheel is provided with a plurality of first gear teeth, the heat dissipation chamber is provided with a rotation shaft, two sides of the heat dissipation motor are symmetrically and movably connected with the rotation shaft, the rotation shaft is provided with a driven wheel, the driven wheel is provided with a plurality of second gear teeth, the second gear teeth are matched with the first gear teeth, the second gear teeth are movably connected with the first gear teeth, and the rotation shaft is connected with auxiliary heat dissipation blades.

Furthermore, an air inlet hole and an air outlet hole are formed in the heat dissipation chamber, and a plurality of heat dissipation holes are formed in the shell.

The utility model provides a reactive power compensation controller, beneficial effect as follows:

(1) the controller can be conveniently mounted and dismounted under the fixed connection action of the bolt, and when the controller is mounted and dismounted, the controller can be easily mounted and dismounted under the sliding and clamping actions of the sliding clamping block and the sliding clamping groove.

(2) The utility model discloses a heat dissipation device, including a heat dissipation shaft, a drive wheel, a driven wheel, a power supply, a plurality of motors, a power supply, a plurality of motors, through the heat dissipation motor drive heat dissipation axle rotate, can dispel the heat through the heat dissipation leaf, the heat dissipation axle can drive the drive wheel rotation in radiating, through the interact of second teeth of a cogwheel and first teeth of a cogwheel, can drive the follower rotation, thereby drive the axis of rotation of drive heat dissipation axle both sides, can drive like this and assist the heat dissipation leaf and rotate the heat dissipation, the radiating efficiency has not.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a reactive power compensation controller according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a control cabin in a reactive power compensation controller according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a heat dissipation chamber in a reactive power compensation controller according to an embodiment of the present invention.

In the figure:

1. a housing; 2. a control cabin; 3. a reactive compensation element; 4. a control panel; 5. an LED display screen; 6. a key block; 7. pressing a key; 8. an L-shaped clamping rod; 9. a slide card slot; 10. a slide block; 11. a spiral ring groove; 12. a first through hole; 13. a second through hole; 14. a bolt; 15. a heat dissipation chamber; 16. a heat dissipation motor; 17. a motor shaft; 18. a heat-dissipating shaft; 19. a heat-dissipating leaf; 20. a driving wheel; 21. a first gear tooth; 22. a rotating shaft; 23. a driven wheel; 24. a second gear tooth; 25. and (5) auxiliary heat dissipation leaves.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art all belong to the protection scope of the present invention.

The invention will be further described with reference to the accompanying drawings and specific embodiments:

the first embodiment is as follows:

referring to fig. 1-3, a reactive power compensation controller according to an embodiment of the present invention includes a housing 1, a control cabin 2 is disposed in the housing 1, a reactive compensation element 3 is disposed in the control cabin 2, a control panel 4 is disposed on one side of the housing 1, an LED display screen 5 is disposed on the control panel 4, a button block 6 is disposed on the control panel 4 and below the LED display screen 5, a plurality of buttons 7 are disposed on the button block 6, L-shaped clamping rods 8 are symmetrically disposed on the control panel 4 at positions close to one side of the housing 1 from top to bottom, a slide slot 9 is formed between the L-shaped clamping rods 8 and the control panel 4, slide blocks 10 are symmetrically disposed on the housing 1 at positions close to one side of the control panel 4 from top to bottom, the slide blocks 10 are matched with the slide slot 9, and the slide blocks 10 are movably connected with the slide slot 9, the control panel 4 is provided with a spiral groove 11, the sliding clamping block 10 is provided with a first through hole 12, the L-shaped clamping rod 8 is provided with a second through hole 13, a bolt 14 is arranged in the spiral groove 11, the bolt 14 penetrates through the first through hole 12 and the second through hole 13 respectively, and the control panel 4 is connected with the shell 1 through the bolt 14.

In a specific application, for the housing 1, a heat dissipation chamber 15 is provided on the side of the housing 1 away from the control panel 4.

In specific application, for the heat dissipation chamber 15, a heat dissipation motor 16 is fixedly arranged in the middle of the heat dissipation chamber 15, a motor shaft 17 is arranged on the heat dissipation motor 16, a heat dissipation shaft 18 is connected to the motor shaft 17, and a heat dissipation blade 19 is connected to the heat dissipation shaft 18.

In specific application, for the heat dissipation axle 18, the fixed drive wheel 20 that is equipped with on the heat dissipation axle 18, be equipped with a plurality of first teeth of a cogwheel 21 on the drive wheel 20, be located on the heat dissipation room 15 the symmetry swing joint in heat dissipation motor 16 both sides has axis of rotation 22, be equipped with driven wheel 23 on the axis of rotation 22, be equipped with a plurality of second teeth of a cogwheel 24 on the driven wheel 23, second teeth of a cogwheel 24 with first teeth of a cogwheel 21 phase-match, second teeth of a cogwheel 24 with first teeth of a cogwheel 21 swing joint, be connected with supplementary radiating fin 25 on the axis of rotation 22.

In a specific application, for the heat dissipation chamber 15, an air inlet and an air outlet are formed in the heat dissipation chamber 15, and a plurality of heat dissipation holes are formed in the housing 1.

By the above scheme of the utility model, the controller can be conveniently mounted and dismounted by the fixed connection function of the bolt 14, when the controller is mounted and dismounted, by the sliding and clamping action of the slide clamping block 10 and the slide clamping groove 9, can be easily assembled and disassembled, the heat dissipation motor 16 drives the heat dissipation shaft 18 to rotate, the heat dissipation blade 19 can dissipate heat, the heat dissipation shaft 18 drives the transmission wheel 20 to rotate while dissipating heat, and the driven wheel 23 can be driven to rotate through the interaction of the second gear 24 and the first gear 21, thereby driving the rotation shaft 22 to rotate, thereby driving the rotation shafts 22 at both sides of the heat dissipation shaft 18 to rotate, therefore, the auxiliary radiating blades 25 can be driven to rotate to radiate heat, so that the radiating efficiency is improved, the kinetic energy generated by the radiating motor 16 is fully utilized, the power supply is saved, and the resource for radiating by a plurality of motors is saved.

In conclusion, by means of the above technical solution of the present invention, through the fixed connection function of the bolt 14, the controller can be conveniently assembled and disassembled, and when the controller is assembled and disassembled, through the sliding and clamping action of the slide clamping block 10 and the slide clamping groove 9, can be easily assembled and disassembled, the heat dissipation motor 16 drives the heat dissipation shaft 18 to rotate, the heat dissipation blade 19 can dissipate heat, the heat dissipation shaft 18 drives the transmission wheel 20 to rotate while dissipating heat, and the driven wheel 23 can be driven to rotate through the interaction of the second gear 24 and the first gear 21, thereby driving the rotation shaft 22 to rotate, thereby driving the rotation shafts 22 at both sides of the heat dissipation shaft 18 to rotate, the auxiliary radiating blades 25 can be driven to rotate to radiate heat, so that the radiating efficiency is improved, the kinetic energy generated by the radiating motor 16 is fully utilized, the power supply is saved, and the resource for radiating by a plurality of motors is saved; the utility model discloses the device is structural design reasonable not only, easy operation moreover, and the installation of being convenient for is dismantled, the heat dissipation of being convenient for, and resources are saved can generally use widely.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (5)

1. The reactive power compensation controller is characterized by comprising a shell (1), wherein a control cabin (2) is arranged in the shell (1), a reactive compensation element (3) is arranged in the control cabin (2), a control panel (4) is arranged on one side of the shell (1), an LED display screen (5) is arranged on the control panel (4), a button block (6) is arranged on the control panel (4) and is positioned below the LED display screen (5), a plurality of buttons (7) are arranged on the button block (6), L-shaped clamping rods (8) are symmetrically arranged on the control panel (4) and are close to one side of the shell (1) from top to bottom, a sliding clamping groove (9) is formed between the L-shaped clamping rods (8) and the control panel (4), sliding clamping blocks (10) are symmetrically arranged on the shell (1) and close to one side of the control panel (4) from top to bottom, and the sliding clamping blocks (10) are matched with the sliding clamping groove (9), fixture block (10) with draw-in groove (9) swing joint, be equipped with spiral shell annular (11) on control panel (4), be equipped with first through-hole (12) on fixture block (10), be equipped with second through-hole (13) on L type kelly (8), be equipped with bolt (14) in spiral shell annular (11), bolt (14) run through respectively first through-hole (12) with second through-hole (13), control panel (4) with pass through between casing (1) bolt (14) are connected.

2. A reactive power compensation controller according to claim 1, characterized in that a heat dissipation chamber (15) is provided on the side of the housing (1) remote from the control panel (4).

3. The reactive power compensation controller according to claim 2, wherein a heat dissipation motor (16) is fixedly arranged in the middle of the heat dissipation chamber (15), a motor shaft (17) is arranged on the heat dissipation motor (16), a heat dissipation shaft (18) is connected to the motor shaft (17), and a heat dissipation blade (19) is connected to the heat dissipation shaft (18).

4. A reactive power compensation controller according to claim 3, wherein a driving wheel (20) is fixedly arranged on the heat dissipation shaft (18), a plurality of first gear teeth (21) are arranged on the driving wheel (20), a rotation shaft (22) is symmetrically and movably connected to the two sides of the heat dissipation motor (16) on the heat dissipation chamber (15), a driven wheel (23) is arranged on the rotation shaft (22), a plurality of second gear teeth (24) are arranged on the driven wheel (23), the second gear teeth (24) are matched with the first gear teeth (21), the second gear teeth (24) are movably connected with the first gear teeth (21), and an auxiliary heat dissipation blade (25) is connected to the rotation shaft (22).

5. The reactive power compensation controller according to claim 4, wherein the heat dissipation chamber (15) is provided with an air inlet and an air outlet, and the housing (1) is provided with a plurality of heat dissipation holes.

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