CN207442284U - A kind of power distributing cabinet of perfect heat-dissipating - Google Patents

Abstract

The utility model provides a kind of power distributing cabinet of perfect heat-dissipating, including cabinet and two cooling mechanisms, the cabinet includes cabinet and cabinet door, the cabinet door is equipped with handle, bottom of cabinet bulk is equipped with temperature sensor, alarm is equipped at the top of cabinet, the cooling mechanism includes the first cooling fin, first installed part and radiator, the radiator includes the first heat dissipation annulus, second heat dissipation annulus and the first radiating subassembly, first radiating subassembly includes the 3rd heat dissipation annulus and several radiating fins, the utility model can carry out self-test temperature adjustment, when the temperature is excessively high, alarm equipment alarm, substantially reduce risk, cooling mechanism is simple in structure, perfect heat-dissipating.

Description

A kind of power distributing cabinet of perfect heat-dissipating

Technical field

The utility model is related to technical field of electric control, and in particular to a kind of power distributing cabinet of perfect heat-dissipating.

Background technology

At present, as electrical equipment is using the increasing of load, the capacity of power distributing cabinet is also increasing, caloric value It is very big；Since power distributing cabinet is typically enclosed construction, in order to which the heat spreader inside power distributing cabinet is gone out, part of the manufacturer Louvered shutter on the cabinet surface of power distributing cabinet can be set, and matched somebody with somebody for large-scale power distribution cabinet or to cooling requirements are higher Electric cabinet, existing power distribution cabinet only install the wind turbine of big exhaust air rate to force to discharge heat at the top of cabinet, and not only energy consumption is big, into This height, and heat dissipation effect unobvious；In addition, existing power distributing cabinet can not carry out self-test temperature adjustment.

The content of the invention

In order to solve the problems in the existing technology, the utility model provides a kind of gas-distributing motor of perfect heat-dissipating Cabinet.

The technical solution that the utility model solves the above problems is：A kind of power distributing cabinet of perfect heat-dissipating, including cabinet And two cooling mechanisms, the cabinet include cabinet and cabinet door, the cabinet door is equipped with handle, is additionally provided in the cabinet Several partition plates, bottom of cabinet bulk are equipped with temperature sensor, are equipped with alarm at the top of cabinet, described two cooling mechanisms are arranged on cabinet Back；

The cooling mechanism includes the first cooling fin, the first installed part and radiator, the first cooling fin center Equipped with the first circumferential notch, first installed part includes bottom plate and the first circle convex platform, and the bottom plate center is equipped with second Circumferential notch；

The radiator includes the first heat dissipation annulus, the second heat dissipation annulus and the first radiating subassembly, and described first dissipates One end of hot annulus be equipped with the first ring groove, it is described second heat dissipation annulus one end be equipped with the second ring groove, described first Radiating subassembly includes the 3rd heat dissipation annulus and several radiating fins, and the quantity of the radiating fin is 8,8 heat dissipations Fin circularizes array arrangement around the 3rd heat dissipation annulus, and each radiating fin passes through the 3rd connector and the 3rd heat dissipation annulus phase Even, the both ends of the 3rd heat dissipation annulus are equipped with the second annulus protrusion, the second annulus protrusion of the 3rd heat dissipation annulus one end with First ring groove of first heat dissipation annulus one end is engaged, and the second annulus protrusion of the 3rd heat dissipation annulus other end is dissipated with second Second ring groove of hot circular arc one end is engaged；

First heat dissipation annulus be connected by several connecting rods with the inner wall of the first circle convex platform, if second radiate annulus by Involvement extension bar is connected with the inner wall of the first circle convex platform；

First circumferential notch, the second circumferential notch and the first circle convex platform are arranged concentrically；

First cooling fin is connected with bottom plate by four group of first bindiny mechanism, and first bindiny mechanism includes first Connector and the second connector, first connector are connected with the second connector by screw bolt and nut, and described first connects Fitting is fixed on the first cooling fin, and the second connector is connected with bottom plate；

The first cooling fin bottom surface is set there are two the first heat conduction group and two the second heat conduction groups, and described two first lead Hot group symmetrical on the first circumferential notch, and described two second heat conduction groups are symmetrical on the first circumferential notch, first heat conduction Group includes several first thermally conductive sheets, and the second heat conduction group includes several second thermally conductive sheets.

The utility model has advantageous effect：

First heat sink of the utility model cooling mechanism is equipped with the first heat-conducting plate, and heat-conducting plate can be effectively heat transfer To the first heat sink, so as to improve the heat dissipation effect of the first heat sink, the first radiating subassembly is rotatable must to be arranged on first and dissipates Between hot annulus and the second heat dissipation annulus, the first radiating subassembly generates air-flow during rotation with air, can take away in time The heat that radiating fin distributes, so as to improve the heat dissipation performance of radiating fin；The utility model can carry out self-test temperature adjustment, work as temperature When spending high, alarm equipment alarm substantially reduces risk, and cooling mechanism is simple in structure, perfect heat-dissipating.

Description of the drawings

Fig. 1 is the structure diagram of the utility model；

Fig. 2 is the rearview of the utility model；

Fig. 3 is the structure diagram of cooling mechanism；

Fig. 4 is the structure diagram of the first cooling fin；

Fig. 5 is the rearview of cooling mechanism；

Fig. 6 is the structure diagram of the first installed part；

Fig. 7 is the structure diagram of radiator；

Fig. 8 is the structure diagram of the first heat dissipation annulus；

Fig. 9 is the structure diagram figure of the second heat dissipation annulus；

Figure 10 is the structure diagram of the first radiating subassembly；

In figure：1- cabinets, 2- cabinet doors, 3- handles, 4- partition plates, 5- temperature sensors, 6- alarms, 7- cooling mechanisms, The first cooling fins of 101-, 102- bottom plates, the first circle convex platforms of 103-, the first circumferential notches of 104-, the second circumferential notches of 105-, The heat dissipation annulus of 106- first, the heat dissipation annulus of 107- second, the first ring grooves of 108-, the first ring grooves of 109-, 110- the 3rd Radiate annulus, 111- radiating fins, the 3rd connectors of 112-, and the second annulus of 113- protrusion, 114- connecting rods, 115- first is connected Part, the second connectors of 116-, 117- the first heat conduction groups, 118- the second heat conduction groups, the first thermally conductive sheets of 119-, the second heat conduction of 120- Piece.

Specific embodiment

Below in conjunction with the accompanying drawings and specific embodiment is further described the utility model.

As shown in the figure, a kind of power distributing cabinet of perfect heat-dissipating, including cabinet and two cooling mechanisms, the cabinet bag Cabinet and cabinet door are included, the cabinet door is equipped with handle, and several partition plates are additionally provided in the cabinet, and bottom of cabinet bulk is passed equipped with temperature Sensor, cabinet top are equipped with alarm, and described two cooling mechanisms are arranged on cabinet back；

The cooling mechanism includes the first cooling fin, the first installed part and radiator, the first cooling fin center Equipped with the first circumferential notch, first installed part includes bottom plate and the first circle convex platform, and the bottom plate center is equipped with second Circumferential notch；

The radiator includes the first heat dissipation annulus, the second heat dissipation annulus and the first radiating subassembly, and described first dissipates One end of hot annulus be equipped with the first ring groove, it is described second heat dissipation annulus one end be equipped with the second ring groove, described first Radiating subassembly includes the 3rd heat dissipation annulus and several radiating fins, and the quantity of the radiating fin is 8,8 heat dissipations Fin circularizes array arrangement around the 3rd heat dissipation annulus, and each radiating fin passes through the 3rd connector and the 3rd heat dissipation annulus phase Even, the both ends of the 3rd heat dissipation annulus are equipped with the second annulus protrusion, the second annulus protrusion of the 3rd heat dissipation annulus one end with First ring groove of first heat dissipation annulus one end is engaged, and the second annulus protrusion of the 3rd heat dissipation annulus other end is dissipated with second Second ring groove of hot circular arc one end is engaged；

First heat dissipation annulus be connected by several connecting rods with the inner wall of the first circle convex platform, if second radiate annulus by Involvement extension bar is connected with the inner wall of the first circle convex platform；

First circumferential notch, the second circumferential notch and the first circle convex platform are arranged concentrically；

First cooling fin is connected with bottom plate by four group of first bindiny mechanism, and first bindiny mechanism includes first Connector and the second connector, first connector are connected with the second connector by screw bolt and nut, and described first connects Fitting is fixed on the first cooling fin, and the second connector is connected with bottom plate；

The first cooling fin bottom surface is set there are two the first heat conduction group and two the second heat conduction groups, and described two first lead Hot group symmetrical on the first circumferential notch, and described two second heat conduction groups are symmetrical on the first circumferential notch, first heat conduction Group includes several first thermally conductive sheets, and the second heat conduction group includes several second thermally conductive sheets.

First heat sink of the utility model cooling mechanism is equipped with the first heat-conducting plate, and heat-conducting plate can be effectively heat transfer To the first heat sink, so as to improve the heat dissipation effect of the first heat sink, the first radiating subassembly is rotatable must to be arranged on first and dissipates Between hot annulus and the second heat dissipation annulus, the first radiating subassembly generates air-flow during rotation with air, can take away in time The heat that radiating fin distributes, so as to improve the heat dissipation performance of radiating fin；The utility model can carry out self-test temperature adjustment, work as temperature When spending high, alarm equipment alarm substantially reduces risk, and cooling mechanism is simple in structure, perfect heat-dissipating.

The above descriptions are merely preferred embodiments of the present invention, is not to make other forms to the utility model Limitation, any person skilled in the art is changed or is modified as possibly also with the technology contents of the disclosure above equivalent The equivalent embodiment of variation is applied to other fields, but every without departing from the content of the technical scheme of the utility model, according to this reality Any simple modification, equivalent variations and the remodeling made with new technical spirit to above example, it is new to still fall within this practicality The protection domain of type technical solution.

Claims (4)

1. a kind of power distributing cabinet of perfect heat-dissipating, which is characterized in that including cabinet and two cooling mechanisms, the cabinet bag Cabinet and cabinet door are included, the cabinet door is equipped with handle, and several partition plates are additionally provided in the cabinet, and bottom of cabinet bulk is passed equipped with temperature Sensor, cabinet top are equipped with alarm, and described two cooling mechanisms are arranged on cabinet back；

The cooling mechanism includes the first cooling fin, the first installed part and radiator, and the first cooling fin center is equipped with First circumferential notch, first installed part include bottom plate and the first circle convex platform, and it is circular that the bottom plate center is equipped with second Notch；

The radiator includes the first heat dissipation annulus, the second heat dissipation annulus and the first radiating subassembly, the first heat dissipation circle One end of ring is equipped with the first ring groove, and one end of the second heat dissipation annulus is equipped with the second ring groove, first heat dissipation Component includes the 3rd heat dissipation annulus and several radiating fins, and it is convex that the described 3rd both ends for radiating annulus are equipped with the second annulus It rising, the second annulus protrusion of the 3rd heat dissipation annulus one end is engaged with first ring groove of first heat dissipation annulus one end, and the 3rd The second annulus protrusion of the heat dissipation annulus other end is engaged with second ring groove of second heat dissipation circular arc one end；

First heat dissipation annulus is connected by several connecting rods with the inner wall of the first circle convex platform, if the second heat dissipation annulus passes through involvement Extension bar is connected with the inner wall of the first circle convex platform；

First cooling fin is connected with bottom plate by four group of first bindiny mechanism, and first bindiny mechanism includes the first connection Part and the second connector, first connector are connected with the second connector by screw bolt and nut, first connector It is fixed on the first cooling fin, the second connector is connected with bottom plate.

A kind of 2. power distributing cabinet of perfect heat-dissipating as described in claim 1, which is characterized in that the quantity of the radiating fin For 8,8 radiating fins circularize array arrangement around the 3rd heat dissipation annulus, and each radiating fin passes through the 3rd connection Part is connected with the 3rd heat dissipation annulus.

3. a kind of power distributing cabinet of perfect heat-dissipating as described in claim 1, which is characterized in that first circumferential notch, Second circumferential notch is arranged concentrically with the first circle convex platform.

A kind of 4. power distributing cabinet of perfect heat-dissipating as described in claim 1, which is characterized in that the first cooling fin bottom surface If there are two the first heat conduction group and two the second heat conduction groups, described two first heat conduction groups are symmetrical on the first circumferential notch, Described two second heat conduction groups are symmetrical on the first circumferential notch, the first heat conduction group include several first thermally conductive sheets, second Heat conduction group includes several second thermally conductive sheets.