CN220830230U - Cooling device of container type SVG reactive compensation equipment - Google Patents

Abstract

The utility model discloses a cooling device of container type SVG reactive power compensation equipment, which relates to the technical field of cooling devices and comprises a cooling base, a cooling fin assembly in threaded connection with the upper surface of the cooling base and a fan assembly in threaded connection with the upper surface of the cooling fin assembly. This cooling device of container formula SVG reactive power compensator, and in drawing liquid pump will the cooling liquid of bin to first conveyer pipe and second conveyer pipe, and then make the cooling liquid form the circulation in first conveyer pipe, the second conveyer pipe, the reposition of redundant personnel fork pipe and storage looks, and then make the circulating cooling liquid carry out supplementary cooling to cooling base, thereby reached the purpose that increases fan assembly cooling efficiency, and then solved the cooling device in the traditional SVG equipment in long-time use, probably can have the radiating effect not good because of this cooling device can exist at the in-process that uses for a long time, and then influence this SVG equipment normal use's problem.

Description

Cooling device of container type SVG reactive compensation equipment

Technical Field

The utility model relates to the technical field of cooling devices, in particular to a cooling device of container type SVG reactive power compensation equipment.

Background

For wind power generation and photovoltaic power generation systems, electric energy generated by a wind generating set or a photovoltaic battery array is converted into low-voltage alternating current through a converter or an inverter, and then the low-voltage power is increased to 35kV medium-voltage power through a transformer and front and rear high-voltage power distribution equipment thereof, and is connected into a power system through a current collecting circuit. Wherein for each plant both active and reactive power is typically generated. In the whole structure, although the inverter also generates some reactive power, the purpose of timely adjusting the output voltage of the power station is far from enough, and the SVG device is required to timely generate reactive power to supplement the reactive power generated by the inverter so as to improve the power generation efficiency of each inverter. Therefore, whether the SVG device of the power station normally operates or not directly influences the power generation efficiency of the power station, and meanwhile, the electric quantity assessment of a dispatching management department can be avoided. And traditional SVG device directly uses traditional forced air cooling equipment to cool down its inside temperature when the process of using is mostly, and traditional cold equipment can exist the radiating effect poor at the in-process of long-time use, and then influences SVG equipment normal use's problem.

Disclosure of utility model

Aiming at the defects of the prior art, the utility model provides a cooling device of a container type SVG reactive compensation device, which solves the problems that the cooling effect is poor and the normal use of SVG devices is affected when the traditional SVG device directly uses traditional air cooling devices to cool the temperature inside the device when the traditional SVG device is used in most of the processes in the background art, and the traditional air cooling devices are used for a long time.

In order to achieve the above purpose, the utility model is realized by the following technical scheme: the cooling device of the container type SVG reactive power compensation equipment comprises a cooling base, a cooling fin component connected with the upper surface of the cooling base in a threaded manner and a fan component connected with the upper surface of the cooling fin component in a threaded manner;

the cooling base includes the fixing base, four of both sides fixed connection of fixing base are symmetrical first fixed plate that distributes, the upper surface fixedly connected with of fixing base is two sets of symmetrical first radiating fin, four the opposite sides of first fixed plate and two sets of same first constant head tank has been seted up jointly to the opposite sides of first radiating fin, the back fixedly connected with mounting bracket of fixing base, the upper surface mounting of mounting bracket has the bin, through the setting of bin, and the staff can be at the leading-in coolant liquid of bin, the upper surface mounting of bin has the drawing liquid pump, can convey the coolant liquid in the bin to the shunt fork intraduct through the setting of drawing liquid pump, later carry the cooler respectively to in first conveyer pipe and the second conveyer pipe by the shunt fork pipe, and then make the coolant liquid auxiliary cooling base in first conveyer pipe and the second conveyer pipe cool down, the output of drawing liquid pump has the shunt fork pipe through connecting piece fixed connection, the fork pipeline intercommunication of shunt fork pipe is provided with first conveyer pipe, the setting up of another shunt fork pipeline intercommunication, the setting up of another shunt pipeline has the equal fixed surface of first fixed plate of fin, the equal fixed surface of a side of setting up of second fork.

Optionally, the cooling fin assembly includes the grafting piece of grafting in the grafting inslot, two sets of the upper surface of grafting piece is all fixedly connected with second radiating fin, two the edge of second radiating fin lower surface is fixedly connected with same solid fixed ring jointly.

Optionally, two second fixed plates which are symmetrically distributed are fixedly connected to two sides of the upper surface of the fixed ring, a second positioning groove is formed in the surface of the fixed ring, second fixing pieces are fixedly connected to the positions, close to the second positioning groove, of the opposite sides of the second fixed plates, and two third fixing pieces which are symmetrically distributed are fixedly connected to the opposite sides of the second radiating fins.

Optionally, the fan subassembly includes the third fixed plate that passes through bolt threaded connection in four third mounting upper surfaces, the lower surface fixedly connected with installation shell of third fixed plate, the both ends of installation shell inner wall are all fixedly connected with partition piece.

Optionally, the interior bottom wall of installation shell is close to one of them partition piece department fixedly connected with mount, the upper surface of mount installs the motor, the output of motor is through shaft coupling fixedly connected with flabellum group.

Optionally, the input of drawing liquid pump is linked together with the bin, first conveyer pipe with the one end of second conveyer pipe all is linked together with the bin, first conveyer pipe card inserts in the first constant head tank, the second conveyer pipe card inserts in the second constant head tank.

The utility model provides a cooling device of container type SVG reactive power compensation equipment, which has the following beneficial effects:

This cooling device of container formula SVG reactive power compensator, through the setting of cooling base, cooling fin group and fan subassembly isotructure, when the staff uses this cooling device to carry out the in-process of cooling to container formula SVG reactive power compensator, at first by fan subassembly to the air current of this SVG equipment disturbance, and then the air current in the messenger SVG is cooled down through first radiating fin and second radiating fin department, and in drawing the coolant liquid of bin to first conveyer pipe and second conveyer pipe by the drawing liquid pump, and then make the coolant liquid form the circulation in first conveyer pipe, the second conveyer pipe, the reposition of redundant personnel fork pipe and storage looks, and then make the coolant liquid of circulation carry out supplementary cooling to cooling base, thereby the purpose that has reached increase fan subassembly cooling efficiency is reached, and then the cooling device in having solved traditional SVG equipment is in long-time use, and perhaps can exist the radiating effect bad because of this cooling device in long-time use's in-process, and then influence this SVG equipment normal use's problem.

Drawings

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is a schematic view of the second embodiment of FIG. 1 according to the present utility model;

FIG. 3 is a schematic view of the second embodiment of FIG. 2 according to the present utility model;

FIG. 4 is a perspective cross-sectional view of the present utility model;

Fig. 5 is a schematic view of the third embodiment of fig. 1.

In the figure: 1. cooling the base; 101. a fixing seat; 102. a first fixing plate; 103. a first heat radiating fin; 104. a first positioning groove; 105. a mounting frame; 106. a storage tank; 107. a liquid pump; 108. a shunt fork tube; 109. a first delivery tube; 110. a second delivery tube; 111. a plug-in groove; 112. a first fixing member; 2. a cooling fin group; 201. a plug-in component; 202. a second heat radiating fin; 203. a fixing ring; 204. a second fixing plate; 205. a second positioning groove; 206. a second fixing member; 207. a third fixing member; 3. a fan assembly; 301. a third fixing plate; 302. a mounting shell; 303. a partition member; 304. a fixing frame; 305. a motor; 306. a fan blade group.

Detailed Description

The technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model, and it is apparent that the described embodiments are only some embodiments of the present utility model, but not all embodiments, and all other embodiments obtained by those skilled in the art without making creative efforts based on the embodiments of the present utility model are included in the protection scope of the present utility model.

Referring to fig. 1 to 5, the present utility model provides a technical solution: a cooling device of container type SVG reactive power compensation equipment comprises a cooling base 1, a cooling fin assembly 2 connected with the upper surface of the cooling base 1 in a threaded manner and a fan assembly 3 connected with the upper surface of the cooling fin assembly 2 in a threaded manner;

The cooling base 1 comprises a fixing base 101, four symmetrically-distributed first fixing plates 102 are fixedly connected to two sides of the fixing base 101, two groups of symmetrically-distributed first radiating fins 103 are fixedly connected to the upper surface of the fixing base 101, the same first positioning groove 104 is formed in the opposite sides of the four first fixing plates 102 and the opposite sides of the two groups of first radiating fins 103, an installation frame 105 is fixedly connected to the back of the fixing base 101, a storage box 106 is mounted on the upper surface of the installation frame 105, a worker can introduce cooling liquid in the storage box 106 through the arrangement of the storage box 106, a liquid pump 107 is mounted on the upper surface of the storage box 106, the cooling liquid in the storage box can be conveyed into a shunt fork tube 108 through the arrangement of the liquid pump 107, then the cooler is conveyed into the first conveying tube 109 and the second conveying tube 110 through the shunt tube 108, the cooling liquid in the first conveying tube 109 and the second conveying tube 110 is assisted by the cooling base 1, the output end of the liquid pump 107 is fixedly connected with a shunt fork tube 108 through a connecting piece, one of the shunt fork tubes 108 is communicated with the first branch conveying tube 109, the other shunt tube 108 is communicated with the first conveying tube 110, and the other side of the first branch conveying tube 110 is communicated with the first branch tube 110, and the other side of the first branch conveying tube is communicated with the first branch tube 110, and the second branch tube is communicated with the first fixing groove 110.

Referring to fig. 1 to 5, the cooling fin assembly 2 includes plug connectors 201 inserted in the insertion grooves 111, the upper surfaces of the two groups of plug connectors 201 are fixedly connected with second heat dissipation fins 202, the edges of the lower surfaces of the two second heat dissipation fins 202 are fixedly connected with a same fixing ring 203, two second fixing plates 204 which are symmetrically distributed are fixedly connected with two sides of the upper surface of the fixing ring 203, second positioning grooves 205 are formed in the surface of the fixing ring 203, second fixing pieces 206 are fixedly connected to the positions, close to the second positioning grooves 205, of the opposite sides of the four second fixing plates 204, and two third fixing pieces 207 which are symmetrically distributed are fixedly connected to the opposite sides of the two second heat dissipation fins 202;

The input of drawing liquid pump 107 is linked together with bin 106, the one end of first conveyer pipe 109 and second conveyer pipe 110 all is linked together with bin 106, first conveyer pipe 109 joint is in first constant head tank 104, in the second constant head tank 205 of second conveyer pipe 110 joint, fan unit 3 includes the third fixed plate 301 that passes through bolt threaded connection in four third mounting 207 upper surfaces, the lower fixed plate 301's lower fixed surface is connected with installation shell 302, the both ends of installation shell 302 inner wall all fixedly connected with partition member 303, the interior bottom wall of installation shell 302 is close to one of them partition member 303 department fixedly connected with mount 304, the upper surface mounting of mount 304 has motor 305, the output of motor 305 passes through shaft coupling fixedly connected with flabellum group 306.

The electrical components are all connected with an external main controller and 220V mains supply, the main controller can be conventional known equipment for controlling a computer and the like, detailed description of known functions and known components is omitted in the specific embodiment of the disclosure, and the adopted operation means are consistent with the parameters of the instruments on the market in order to ensure the compatibility of the equipment.

In summary, when the cooling device of the container type SVG reactive compensation equipment is used, a worker starts the motor 305 and the liquid pump 107 at the same time, so that the motor 305 drives the fan blade set 306, and the fan blade set 306 in the installation shell 302 perturbs the air flow in the SVG equipment, and the liquid pump 107 pumps the cooling liquid in the storage tank 106 into the shunt fork tube 108, and then the shunt fork tube 108 conveys the cooling liquid into the first conveying tube 109 and the second conveying tube 110, and then the cooling liquid is pumped by the liquid pump 107, and then a circulating flow state is formed in the shunt fork tube 108, the first conveying tube 109, the second conveying tube 110 and the storage tank 106, and then the cooling liquid in the first conveying tube 109 and the second conveying tube 110 assist in cooling the base 1 and the cooling fin set 2 to cool down the SVG equipment, and further increase the cooling efficiency of the cooling base 1, the cooling fin set 2 and the fan assembly 3.

The foregoing description is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art who is familiar with the technical solution and the inventive concept disclosed in the present utility model should cover the scope of the present utility model, and the terms "connected", "mounted", "fixed", "arranged" and the like are understood in a broad sense, for example, the "connected" may be a fixed connection or indirectly through an intermediate component without affecting the relationship of components and technical effects, or may be an integral connection or a partial connection, as in the case of this example, for those skilled in the art, and the specific meaning of the term in the present utility model or the utility model may be understood according to the specific circumstances.

Claims (6)

1. The cooling device of the container type SVG reactive power compensation equipment is characterized by comprising a cooling base (1), a cooling fin assembly (2) connected with the upper surface of the cooling base (1) in a threaded manner and a fan assembly (3) connected with the upper surface of the cooling fin assembly (2) in a threaded manner;

The cooling base (1) comprises a fixing base (101), four first fixing plates (102) which are symmetrically distributed are fixedly connected to two sides of the fixing base (101), two groups of first radiating fins (103) which are symmetrically distributed are fixedly connected to the upper surface of the fixing base (101), one of the two groups of first radiating fins (103) is communicated with a first conveying pipe (109), the other of the two groups of first radiating fins (103) is communicated with a second conveying pipe (110), the other of the two groups of first radiating fins (103) is jointly provided with the same first positioning groove (104), the back of the fixing base (101) is fixedly connected with a mounting frame (105), the upper surface of the mounting frame (105) is provided with a storage box (106), the upper surface of the storage box (106) is provided with a liquid pump (107), the output end of the liquid pump (107) is fixedly connected with a branch pipe (108) through a connecting piece, one branch pipe (109) of branch pipes (108) is communicated with the second conveying pipe (110), and the two groups of the upper surfaces of the first radiating fins (103) are communicated with the other branch pipes, and the other branch pipe (103) is communicated with the first conveying pipe (109) is provided with the second conveying pipe (110), and the upper surface of the other branch pipe is communicated with the first conveying pipe (108) through the branch pipe and the branch pipe is communicated with the branch pipe and the branch pipe with the first conveying pipe and the branch pipe.

2. A cooling device for a container type SVG reactive compensation apparatus according to claim 1, wherein: the cooling fin assembly (2) comprises plug connectors (201) which are plugged in plug grooves (111), the upper surfaces of the two groups of plug connectors (201) are fixedly connected with second radiating fins (202), and the edges of the lower surfaces of the two second radiating fins (202) are fixedly connected with the same fixing ring (203) together.

3. A cooling device for a container type SVG reactive compensation apparatus according to claim 2, wherein: two second fixing plates (204) which are symmetrically distributed are fixedly connected to two sides of the upper surface of the fixing ring (203), second positioning grooves (205) are formed in the surface of the fixing ring (203), second fixing pieces (206) are fixedly connected to the positions, close to the second positioning grooves (205), of the opposite sides of the second fixing plates (204), and two third fixing pieces (207) which are symmetrically distributed are fixedly connected to the opposite sides of the second radiating fins (202).

4. A cooling device for a container type SVG reactive compensation apparatus according to claim 3, wherein: the fan assembly (3) comprises a third fixing plate (301) which is connected to the upper surfaces of four third fixing pieces (207) through bolts in a threaded mode, an installation shell (302) is fixedly connected to the lower surface of the third fixing plate (301), and partition pieces (303) are fixedly connected to the two ends of the inner wall of the installation shell (302).

5. The cooling device of a container type SVG reactive compensation equipment according to claim 4, wherein: the inner bottom wall of the installation shell (302) is fixedly connected with a fixing frame (304) close to one of the partition pieces (303), a motor (305) is installed on the upper surface of the fixing frame (304), and the output end of the motor (305) is fixedly connected with a fan blade group (306) through a coupler.

6. A cooling device for a container type SVG reactive compensation apparatus according to claim 5, wherein: the input end of the liquid drawing pump (107) is communicated with the storage box (106), one ends of the first conveying pipe (109) and the second conveying pipe (110) are communicated with the storage box (106), the first conveying pipe (109) is connected into the first positioning groove (104) in a clamping mode, and the second conveying pipe (110) is connected into the second positioning groove (205) in a clamping mode.