CN220985197U - Low-voltage reactive power automatic compensation controller - Google Patents

Abstract

The utility model provides a low-voltage reactive power automatic compensation controller, which relates to the technical field of reactive power automatic compensation controllers and comprises a controller main body and a cooling mechanism, wherein both sides of the controller main body are provided with fixing assemblies. This low pressure idle automatic compensation controller, through cooling mechanism's setting, the controller main part after working for a long time, can produce a large amount of heat, need dispel the heat and protect the inside component of controller main part, the heat is absorbed by the heat conduction liquid in the heat conduction liquid pipe through the metal heat conduction board, start micro motor, after entering ventilating duct, the air that flows moves along ventilating duct inside, then flow out through the hole on the air-out board, concentrate the focus heat dissipation to absorbing the thermal heat conduction liquid pipe, the radiating efficiency has been accelerated greatly, carry thermal air after the heat dissipation, can discharge through the aeration orifice plate, accomplish the heat dissipation work, the gauze can prevent outside dust entering end box, influence the radiating effect.

Description

Low-voltage reactive power automatic compensation controller

Technical Field

The utility model relates to the technical field of reactive automatic compensation controllers, in particular to a low-voltage reactive automatic compensation controller.

Background

The low-voltage reactive automatic compensation controller is a device for reactive power compensation in a power system. The reactive power compensation device can automatically detect reactive power requirements of a power grid, and can realize reactive power compensation by controlling the connection and disconnection of the capacitor so as to improve the power factor and the stability of a power system. The heat dissipation of the low-voltage reactive automatic compensation controller is very important. Because the controller can generate certain heat in the working process, if the heat dissipation is not good, the temperature of the equipment can be too high, the performance and the service life of the equipment can be influenced, and even the equipment can be damaged. Therefore, it is important to ensure good heat dissipation of the low voltage reactive automatic compensation controller.

Through retrieving, provided "a high-voltage reactive power automatic compensation controller that reduces the line consumption" in the document of patent number "CN217335091U", this document mentions the block terminal that can be applicable to various different models, and the screw thread post passes through screw thread fixed connection with installation base and installation roof, will compensate controller fixed mounting inside the block terminal, and above-mentioned structure has improved the suitability of whole device, and the inside at the block terminal is installed that can be quick has improved holistic work efficiency greatly. In the use, the device can be quickly installed in distribution boxes of various types, but the device is not additionally provided with a heat dissipation device, and the situation that the reactive automatic compensation controller generates a large amount of heat after working for a long time is not considered, and if the heat dissipation is not timely carried out, the internal electrons can be damaged, so that the service life of the device is influenced.

Thus we provide a low voltage reactive automatic compensation controller.

Disclosure of utility model

The utility model aims to provide a low-voltage reactive automatic compensation controller which solves the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the low-voltage reactive automatic compensation controller comprises a controller main body and a cooling mechanism, wherein both sides of the controller main body are provided with fixing assemblies, and one end of the controller main body is provided with the cooling mechanism;

The cooling mechanism comprises a heat conduction assembly, a protection assembly, a flow guide assembly, a blowing assembly and a dustproof assembly, wherein the heat conduction assembly is arranged at one end of the controller main body, the protection assembly is arranged at one side of the heat conduction assembly, the flow guide assembly is arranged inside the protection assembly, the blowing assembly is arranged at one end of the flow guide assembly, and the dustproof assembly is arranged at one end of the protection assembly.

Preferably, the heat conduction assembly comprises a metal heat conduction plate and a heat conduction liquid pipe, wherein one end of the controller main body is provided with the metal heat conduction plate, and the other side of the metal heat conduction plate is connected with the heat conduction liquid pipe in an adhesion manner.

Preferably, the protection component comprises a bottom box and a top cover, the bottom box is arranged on the other side of the heat conduction liquid pipe, the bottom box is fixedly connected with the controller main body, and the top cover is arranged on one side of the bottom box.

Preferably, the flow guide assembly comprises a ventilating duct, an air outlet plate and a mounting plate, wherein the ventilating duct is welded at the lower end of the top cover, the air outlet plate is welded at the lower end of the ventilating duct, and the mounting plate is welded at one end of the ventilating duct.

Preferably, the blowing assembly comprises a mounting frame, a micro motor and fan blades, wherein the mounting frame is arranged in the mounting plate, one side of the mounting frame is connected with the micro motor through bolts, and the fan blades are connected with the other end of the micro motor in a rotating mode.

Preferably, the dustproof assembly comprises a vent hole plate and a gauze, wherein the vent hole plate is arranged at one end of the bottom box, and the gauze is arranged at one side of the vent hole plate.

Preferably, the fixed subassembly includes connecting seat, slide and fixation nut, the equal bolted connection in both sides of controller main part has the connecting seat, the opposite side swing joint of connecting seat has the slide, the other end threaded connection of slide has the fixation nut.

Compared with the prior art, the utility model has the beneficial effects that:

1. Through the setting of fixed subassembly, after being connected to the controller main part both sides with fixed subassembly bolted connection, carry out width adjustment according to the block terminal of equidimension, through the distance between adjustment slide and the connecting seat, satisfy the inside requirement of installing at equidimension block terminal, after the adjustment, screw up fixation nut and carry out spacing fixedly.

2. Through cooling mechanism's setting, the controller main part can produce a large amount of heat after working for a long time, need dispel the heat and protect the inside component of controller main part, the heat is absorbed by the heat conduction liquid in the heat conduction liquid pipe via the metal heat conduction board, start micro motor, can drive the flabellum and carry out high-speed rotation, it is bloied to air pipe, realize cooling radiating effect, after flowing air enters into air pipe, move along air pipe is inside, then flow out through the hole on the air-out board, concentrate the focus heat dissipation to absorbing the heat conduction liquid pipe, the radiating efficiency has been accelerated greatly, the air after the heat dissipation can be full of the end box earlier, carry thermal air, finally can discharge through the air hole board, accomplish the heat dissipation work, the gauze can prevent outside dust entering end box, influence the radiating effect.

Drawings

FIG. 1 is a schematic diagram of a low-voltage reactive automatic compensation controller according to the present utility model;

FIG. 2 is a schematic view of the installation position of the heat conducting component according to the present utility model;

FIG. 3 is a schematic view of a fixing assembly according to the present utility model;

FIG. 4 is a schematic diagram of a cooling mechanism according to the present utility model;

fig. 5 is a schematic structural diagram of a blower assembly according to the present utility model.

Reference numerals in the drawings: 1. a controller main body; 2. a fixing assembly; 21. a connecting seat; 22. a slide; 23. a fixing nut; 3. a cooling mechanism; 31. a heat conducting component; 311. a metal heat-conducting plate; 312. a heat-conducting liquid pipe; 32. a protective assembly; 321. a bottom box; 322. a top cover; 33. a flow guiding assembly; 331. a ventilation duct; 332. an air outlet plate; 333. a mounting plate; 34. a blowing assembly; 341. a mounting frame; 342. a micro motor; 343. a fan blade; 35. a dust-proof assembly; 351. a vent panel; 352. a gauze.

Detailed Description

Referring to fig. 1-5, the present utility model provides a technical solution: the low-voltage reactive automatic compensation controller comprises a controller main body 1 and a cooling mechanism 3, wherein both sides of the controller main body 1 are provided with fixed assemblies 2, and one end of the controller main body 1 is provided with the cooling mechanism 3;

The cooling mechanism 3 comprises a heat conduction assembly 31, a protection assembly 32, a flow guide assembly 33, a blowing assembly 34 and a dust prevention assembly 35, wherein the heat conduction assembly 31 is arranged at one end of the controller main body 1, the protection assembly 32 is arranged at one side of the heat conduction assembly 31, the flow guide assembly 33 is arranged in the protection assembly 32, the blowing assembly 34 is arranged at one end of the flow guide assembly 33, and the dust prevention assembly 35 is arranged at one end of the protection assembly 32.

Further, the heat conducting component 31 includes a metal heat conducting plate 311 and a heat conducting liquid pipe 312, one end of the controller main body 1 is provided with the metal heat conducting plate 311, the other side of the metal heat conducting plate 311 is connected with the heat conducting liquid pipe 312 in an adhesion manner, after the controller main body 1 works for a long time, a large amount of heat can be generated, heat dissipation is needed to protect elements in the controller main body 1, and the heat is absorbed by the heat conducting liquid in the heat conducting liquid pipe 312 through the metal heat conducting plate 311.

Further, the protection component 32 comprises a bottom box 321 and a top cover 322, the bottom box 321 is arranged on the other side of the heat conduction liquid pipe 312, the bottom box 321 is fixedly connected with the controller main body 1, the top cover 322 is arranged on one side of the bottom box 321, the top cover 322 is arranged on the bottom box 321, the bottom box 321 can be sealed, and parts inside the bottom box 321 can be protected.

Further, the flow guide assembly 33 comprises a ventilating duct 331, an air outlet plate 332 and a mounting plate 333, the ventilating duct 331 is welded at the lower end of the top cover 322, the air outlet plate 332 is welded at the lower end of the ventilating duct 331, the mounting plate 333 is welded at one end of the ventilating duct 331, flowing air enters the ventilating duct 331 and moves along the inside of the ventilating duct 331, then flows out through holes on the air outlet plate 332, and concentrated heat dissipation is carried out on the heat conduction liquid pipe 312 absorbing heat, so that heat dissipation efficiency is greatly improved.

Further, the air blowing component 34 comprises a mounting frame 341, a micro motor 342 and fan blades 343, the mounting frame 341 is mounted in the mounting plate 333, one side of the mounting frame 341 is connected with the micro motor 342 through bolts, the fan blades 343 are rotatably connected to the other end of the micro motor 342, the micro motor 342 is started, the fan blades 343 can be driven to rotate at a high speed, air is blown to the ventilating duct 331, and the cooling and heat dissipation effects are achieved.

Further, the dustproof assembly 35 comprises a ventilation hole plate 351 and a gauze 352, the ventilation hole plate 351 is arranged at one end of the bottom box 321, the gauze 352 is arranged on one side of the ventilation hole plate 351, the bottom box 321 is filled with heat-carrying air after heat dissipation, the heat-carrying air is finally discharged through the ventilation hole plate 351, heat dissipation is completed, and the gauze 352 can prevent external dust from entering the bottom box 321 and affecting heat dissipation effect.

Further, fixed subassembly 2 includes connecting seat 21, slide 22 and fixation nut 23, the equal bolted connection in both sides of controller main part 1 has connecting seat 21, the opposite side swing joint of connecting seat 21 has slide 22, the other end threaded connection of slide 22 has fixation nut 23, after connecting the fixed subassembly 2 bolt to controller main part 1 both sides, according to the block terminal of equidimension not, carry out width adjustment, satisfy the inside requirement of installing at equidimension block terminal through the distance between adjustment slide 22 and the connecting seat 21, after the adjustment, screw up fixation nut 23 and carry out spacing fixation.

Working principle: firstly, remove a low pressure idle automatic compensation controller to working position, first step, after connecting fixed subassembly 2 bolt to controller main part 1 both sides, carry out width adjustment according to the block terminal of equidimension, through adjusting the distance between slide 22 and the connecting seat 21, satisfy the inside requirement of installing at equidimension block terminal, after the adjustment, screw up fixation nut 23 and carry out spacing fixed, second step, controller main part 1 after long-time work, can produce a large amount of heat, need dispel the heat and protect the inside component of controller main part 1, the heat is absorbed by the heat conduction liquid in the heat conduction liquid pipe 312 via metal heat-conducting plate 311, the third step, start micro motor 342, can drive flabellum 343 and carry out high-speed rotation, realize cooling radiating effect to ventilation pipe 331, after the air that flows enters ventilation pipe 331, move along ventilation pipe 331 inside, then flow out through the hole on the play 332, carry out concentrated key to the heat conduction liquid pipe 312 that absorbs the heat, the efficiency has been accelerated greatly, the fourth step, can be full of the automatic air box 321 after the heat dissipation can carry the bottom of heat to take place the heat, the bottom of the device is carried by the heat dissipation net 321, the effect of dispelling effect of the wind can be accomplished through the low pressure air, the effect of the low pressure air dissipation net is accomplished through the effect of the realization of the heat dissipation, the work is accomplished through the low pressure air-pressure filter plate is finished, the effect of the air dissipation can be accomplished by the noise, and the air has been accomplished.

Claims (7)

1. The utility model provides a low pressure reactive power automatic compensation controller, includes controller main part (1) and cooling mechanism (3), its characterized in that: both sides of the controller main body (1) are provided with fixing components (2), and one end of the controller main body (1) is provided with a cooling mechanism (3);

The cooling mechanism (3) comprises a heat conduction assembly (31), a protection assembly (32), a flow guide assembly (33), a blowing assembly (34) and a dustproof assembly (35), wherein the heat conduction assembly (31) is arranged at one end of the controller main body (1), the protection assembly (32) is arranged at one side of the heat conduction assembly (31), the flow guide assembly (33) is arranged inside the protection assembly (32), the blowing assembly (34) is arranged at one end of the flow guide assembly (33), and the dustproof assembly (35) is arranged at one end of the protection assembly (32).

2. The low-voltage reactive automatic compensation controller according to claim 1, wherein the heat conducting component (31) comprises a metal heat conducting plate (311) and a heat conducting liquid pipe (312), one end of the controller main body (1) is provided with the metal heat conducting plate (311), and the other side of the metal heat conducting plate (311) is connected with the heat conducting liquid pipe (312) in an adhesion manner.

3. The low-voltage reactive automatic compensation controller according to claim 2, wherein the protection component (32) comprises a bottom box (321) and a top cover (322), the bottom box (321) is arranged on the other side of the heat conduction liquid pipe (312), the bottom box (321) is fixedly connected with the controller main body (1), and the top cover (322) is arranged on one side of the bottom box (321).

4. A low-voltage reactive automatic compensation controller according to claim 3, characterized in that the diversion assembly (33) comprises a ventilation pipeline (331), an air outlet plate (332) and a mounting plate (333), the lower end of the top cover (322) is welded with the ventilation pipeline (331), the lower end of the ventilation pipeline (331) is welded with the air outlet plate (332), and one end of the ventilation pipeline (331) is welded with the mounting plate (333).

5. The low-voltage reactive automatic compensation controller according to claim 4, wherein the blowing component (34) comprises a mounting frame (341), a micro motor (342) and fan blades (343), the mounting frame (341) is mounted in the mounting plate (333), the micro motor (342) is connected to one side of the mounting frame (341) through bolts, and the fan blades (343) are connected to the other end of the micro motor (342) in a rotating mode.

6. A low-voltage reactive automatic compensation controller according to claim 3, characterized in that the dust-proof assembly (35) comprises a ventilation orifice plate (351) and a gauze (352), the ventilation orifice plate (351) is mounted at one end of the bottom box (321), and the gauze (352) is arranged at one side of the ventilation orifice plate (351).

7. The low-voltage reactive automatic compensation controller according to claim 1, wherein the fixing component (2) comprises a connecting seat (21), a sliding seat (22) and a fixing nut (23), the two sides of the controller main body (1) are both connected with the connecting seat (21) through bolts, the other side of the connecting seat (21) is movably connected with the sliding seat (22), and the other end of the sliding seat (22) is connected with the fixing nut (23) through threads.