CN205726854U - A kind of regulator cubicle cooling mechanism - Google Patents

Abstract

The utility model discloses a kind of regulator cubicle cooling mechanism, described regulator cubicle includes cabinet and cabinet door, described cooling mechanism includes air pump, suction nozzle and corrugated tube, it is provided with multiple air inlet on described cabinet door, multiple described suction nozzles are arranged on the trailing flank of described cabinet, the outlet side of described suction nozzle is connected with the inlet end of described air pump by described corrugated tube, and the outlet side of described air pump is arranged on the outside of described cabinet.This utility model a kind of regulator cubicle cooling mechanism is by installing multiple suction nozzle on the cabinet trailing flank of regulator cubicle, and make suction nozzle be positioned on rear side of the electronic devices and components that caloric value is bigger, so that cooling mechanism has stronger specific aim, can effectively reduce the temperature of the bigger electronic devices and components of part caloric value, thus reduce the temperature in regulator cubicle.

Description

A kind of regulator cubicle cooling mechanism

Technical field

This utility model relates to regulator cubicle, particularly relates to a kind of regulator cubicle cooling mechanism.

Background technology

Regulator cubicle is to be processed the cupboard for protecting electronic devices and components normally to work by steel matter.Electronic devices and components exist During work, substantial amounts of heat can be produced, and because in regulator cubicle, electronic devices and components are more, so more heat can be made Amount is deposited in regulator cubicle, if cannot be discharged by the heat in regulator cubicle timely, can cause electronic devices and components long-term work In hot environment, may increase the fault rate of electronic devices and components and shorten its service life, the cooling mechanism of present stage is all Using Homogeneouslly-radiating, but each electronic devices and components in regulator cubicle are because its work efficiency and the difference of power, caloric value can More difference can be there is, use uniformly employing that it may be made to cannot be carried out targetedly and dispel the heat.

Utility model content

The purpose of this utility model is that provides a kind of regulator cubicle cooling mechanism to solve the problems referred to above.

This utility model is achieved through the following technical solutions above-mentioned purpose:

A kind of regulator cubicle cooling mechanism, described regulator cubicle includes cabinet and cabinet door, and described cooling mechanism includes air pump, air-breathing Pipe and corrugated tube, described cabinet door is provided with multiple air inlet, and multiple described suction nozzles are arranged on the trailing flank of described cabinet, The outlet side of described suction nozzle is connected with the inlet end of described air pump by described corrugated tube, and the outlet side of described air pump is arranged on The outside of described cabinet.

Specifically, described suction nozzle includes straight tube, permanent magnetism base and airway, and the trailing flank of described cabinet is ferromagnetism material Material, described permanent magnetism base is fixing with the installation end of described straight tube to be connected, and described permanent magnetism base is pull-in on the trailing flank of described cabinet On, the first end of described airway and the sidewall of described straight tube are fixing to be connected, and connects with the medial surface of described straight tube, described in lead Second end of trachea connects with the first end of described corrugated tube.

Further, described suction nozzle also includes arc aeroscopic plate, and described arc aeroscopic plate is arranged in described straight tube, and position In the offside of described airway Yu the junction of described straight tube, the center of circle of described arc aeroscopic plate and described airway homonymy.

Preferably, described cooling mechanism also include multi-fork air inlet pipe, described multi-fork air inlet pipe be arranged on described corrugated tube with Between described air pump, multiple inlet ends of described multi-fork air inlet pipe the second end with multiple described corrugated tubes respectively is connected, described The outlet side of multi-fork air inlet pipe is connected with the inlet end of described air pump.

Specifically, the bottom of the trailing flank of described cabinet is provided with and connects the radiator-grid that described regulator cubicle is internal with outside, Described air pump is installed on the middle part of described radiator-grid.

Preferably, the medial surface of described radiator-grid is provided with Air Filter.

The beneficial effects of the utility model are:

This utility model a kind of regulator cubicle cooling mechanism passes through to install multiple suction nozzle on the cabinet trailing flank of regulator cubicle, And make suction nozzle be positioned on rear side of the electronic devices and components that caloric value is bigger, so that cooling mechanism has stronger specific aim, can have Effect reduces the temperature of the bigger electronic devices and components of part caloric value, thus reduces the temperature in regulator cubicle.

Accompanying drawing explanation

Fig. 1 is the side view of a kind of regulator cubicle cooling mechanism described in the utility model, in figure is exaggerated suction nozzle Process；

Fig. 2 is the structural representation of the trailing flank of the cabinet of a kind of regulator cubicle cooling mechanism described in the utility model.

Detailed description of the invention

The utility model is described in further detail below in conjunction with the accompanying drawings:

As depicted in figs. 1 and 2, this utility model one regulator cubicle cooling mechanism, regulator cubicle includes cabinet 2 and cabinet door 1, dissipates Heat engine structure includes air pump 4, multi-fork air inlet pipe 5, suction nozzle 3 and corrugated tube 8, and cabinet door 1 is provided with multiple air inlet 6, multiple suctions Trachea 3 is arranged on the trailing flank of cabinet 2, and multi-fork air inlet pipe 5 is arranged between corrugated tube 8 and air pump 4, multi-fork air inlet pipe 5 Multiple inlet ends the second end with multiple corrugated tubes 8 respectively is connected, and the inlet end of the outlet side of multi-fork air inlet pipe 5 and air pump 4 is even Connecing, the outlet side of air pump 4 is arranged on the outside of cabinet 2, and suction nozzle 3 includes straight tube 10, permanent magnetism base 9, arc aeroscopic plate 12 and Airway 11, the trailing flank of cabinet 2 is ferrimagnet, and permanent magnetism base 9 is fixing with the installation end of straight tube 10 to be connected, permanent magnetism base On 9 trailing flanks being pull-in on cabinet 2, the first end of airway 11 and the sidewall of straight tube 10 are fixing to be connected, and with in straight tube 10 Side connects, and the second end of airway 11 connects with the first end of corrugated tube 8, and arc aeroscopic plate 12 is arranged in straight tube 10, and It is positioned at the offside of airway 11 and the junction of straight tube 10, the center of circle of arc aeroscopic plate 12 and airway 11 homonymy, after cabinet 2 The bottom of side is provided with the radiator-grid 7 that connection regulator cubicle is internal with outside, and air pump 4 is installed on the middle part of radiator-grid 7, radiator-grid It is provided with Air Filter on the medial surface of 7.

The operation principle of this utility model a kind of regulator cubicle cooling mechanism is as follows:

Suction nozzle 3 is connected by permanent magnetism base 9 is removable with the trailing flank of cabinet 2, during installing, according to The caloric value of each electronic devices and components in regulator cubicle, the position of regulation suction nozzle 3, the electronic devices and components making caloric value bigger are attached Closely it is provided with more suction nozzle 3, makes near the electronic devices and components that caloric value is less, to arrange less suction nozzle 3, and make each The outlet side of suction nozzle 3 is connected with air pump 4 by multiple corrugated tubes 8 and a multi-fork air inlet pipe 5 respectively.

When using, starting air pump 4, air pump 4 extracts the hot-air within regulator cubicle, regulator cubicle by suction nozzle 3 By the cold air of air inlet 6 suck up outside on its cabinet door 1, thus reach the purpose of specific aim heat radiation, increase regulator cubicle Radiating efficiency.

The technical solution of the utility model is not limited to the restriction of above-mentioned specific embodiment, every according to skill of the present utility model The technology deformation that art scheme is made, within each falling within protection domain of the present utility model.

Claims (6)

1. a regulator cubicle cooling mechanism, described regulator cubicle includes cabinet and cabinet door, it is characterised in that: described cooling mechanism includes Air pump, suction nozzle and corrugated tube, described cabinet door is provided with multiple air inlet, and multiple described suction nozzles are arranged on described cabinet On trailing flank, the outlet side of described suction nozzle is connected with the inlet end of described air pump by described corrugated tube, going out of described air pump Gas end is arranged on the outside of described cabinet.

A kind of regulator cubicle cooling mechanism the most according to claim 1, it is characterised in that: described suction nozzle includes straight tube, forever Magnetic base and airway, the trailing flank of described cabinet is ferrimagnet, and described permanent magnetism base is solid with the installation end of described straight tube Fixed connection, described permanent magnetism base is pull-in on the trailing flank of described cabinet, the first end of described airway and the side of described straight tube Wall is fixing to be connected, and connects with the medial surface of described straight tube, and the second end of described airway connects with the first end of described corrugated tube Logical.

A kind of regulator cubicle cooling mechanism the most according to claim 2, it is characterised in that: also include arc aeroscopic plate, described Arc aeroscopic plate is arranged in described straight tube, and is positioned at the offside of described airway and the junction of described straight tube, described arc The center of circle of aeroscopic plate and described airway homonymy.

A kind of regulator cubicle cooling mechanism the most according to claim 1, it is characterised in that: also include multi-fork air inlet pipe, described Multi-fork air inlet pipe is arranged between described corrugated tube and described air pump, and multiple inlet ends of described multi-fork air inlet pipe are respectively with multiple Second end of described corrugated tube connects, and the outlet side of described multi-fork air inlet pipe is connected with the inlet end of described air pump.

A kind of regulator cubicle cooling mechanism the most according to claim 4, it is characterised in that: the bottom of the trailing flank of described cabinet Being provided with and connect the radiator-grid that described regulator cubicle is internal with outside, described air pump is installed on the middle part of described radiator-grid.

A kind of regulator cubicle cooling mechanism the most according to claim 5, it is characterised in that: set on the medial surface of described radiator-grid It is equipped with Air Filter.