CN202634296U - Power supply cabinet cooling system - Google Patents

Abstract

The utility model discloses a power supply cabinet cooling system which comprises a resistance plate part, a main loop part and a discharge module which are arranged inside a power supply cabinet from top to bottom. The power supply cabinet cooling system is characterized in that the resistance plate part, the main loop part and the discharge module are respectively provided with a heat radiating device, wherein the three heat radiating devices respectively comprise an air flue, and the air flues are mutually communicated to the opening part of the top of the power supply cabinet in a manner of top-bottom communication. Thus, an air flue which is smooth from top to bottom or from bottom to top is formed inside the power supply cabinet; and meanwhile, by means of a heat radiator, the heat radiating effect inside the power supply cabinet is greatly enhanced, and the service life of a charge-discharge power supply is prolonged.

Description

Power supply electricity cabinet cooling system

Technical field

The present invention relates to a kind of cooling system, especially a kind of power supply electricity cabinet cooling system.

Background technology

In the production process of storage battery; Need constantly storage battery to be discharged and recharged; Be so-called chemical synthesis technology, make special-purpose to change into power supply and need constantly work, will produce great amount of heat in this process; As effectively do not cool off changing into power supply electricity cabinet, reduced the useful life of power supply electricity cabinet.Traditional storage battery into charge and discharge cabinet mainly leans on a convection flow fan at cabinet top to play cooling, the effect of air channel circulation.Along with the power that discharges and recharges cabinet increases and the mounted component increase, the heat radiation of electric cabinet needs more, more smooth air channel, cold scarce system.Lean on the air channel of agitating not form a whole cupboard of single blower fan, cause the complete machine heat radiation bad, bring potential safety hazard, influence useful life.

The utility model content

In order to address the above problem; The utility model provides a kind of power supply electricity cabinet cooling system; Comprise resistance board part, major loop part and discharge module, aforementioned three parts are inner from top to bottom to be arranged at this power supply electricity cabinet, and corresponding resistance board part, major loop part and discharge module are respectively equipped with corresponding heat abstractor; Three heat abstractors all comprise an air channel, and each air channel is interconnected to the opening at this power supply electricity cabinet top with the mode that connects up and down.

Aforesaid power supply electricity cabinet cooling system; Heat abstractor that should discharge module comprised be located at electricity dc fan cashier's office in a shop; This blower fan be communicated with should the electricity cabinet inside and outside, this dc fan is over against the one side of a template radiator, the another side of this radiator closely contacts the heating position of this discharge module; And between the internal face of this radiator and this electricity cabinet, form first air channel of a up/down perforation, the cold air flow that this blower fan is imported by the outside flows to both direction up and down in this first air channel.

Aforesaid power supply electricity cabinet cooling system; This major loop partly comprises two relative heating plate bodys; Each plate body that generates heat is respectively the plate body with several transversal slottings; The heat abstractor of said major loop part be included in these two heating plate bodys opposite side each be provided with a panel radiator, each panel radiator inner surface is provided with several fins.

Aforesaid power supply electricity cabinet cooling system, second air channel of formation up/down perforation is provided with blower fan below second air channel between these two panel radiators.

Aforesaid power supply electricity cabinet cooling system, this resistance board is several plate bodys that is parallel to each other, and between each plate body, forms the 3rd air channel of several above-below directions, below the 3rd air channel opening, is provided with at least one blower fan.

Aforesaid power supply electricity cabinet cooling system; First air channel that said discharge module place forms; The construction system cooling duct that is interconnected, the 3rd air channel of the second channel of this major loop part and this resistance board part; The upper end of this system cools passage connects the opening at this power supply electricity cabinet top, and the below of this system cools passage is communicated with a power supply electricity hollow-out parts cashier's office in a shop.

Aforesaid power supply electricity cabinet cooling system, the top open part of this power supply electricity cabinet is provided with a blower fan, and this blower fan is used for the inner wind of power supply electricity cabinet is siphoned away.

Aforesaid power supply electricity cabinet cooling system, the interior bottom of this power supply electricity cabinet is placed and is provided with reactor, transformer; Said reactor is installed in the side top of transformer and links to each other with rectification module; Be provided with dividing plate between the power supply electricity cabinet body bottom of the power cabinet body top of placement main power source module and placement reactor in the said power supply electricity cabinet body; A side that is divided into two-part power supply electricity cabinet upper and lower by dividing plate all offers air inlet, and opposite side is equipped with blower fan.

Aforesaid power supply electricity cabinet cooling system fits tightly around the said dividing plate with around the inside of said power supply electricity cabinet, and the upper and lower of power supply electricity cabinet is space independently.

Cooling system by the power supply of the utility model electricity cabinet; Make that power supply electricity cabinet is inner to form one or smooth air channel from top to bottom from bottom to top; By radiator,, prolong the useful life that discharges and recharges power supply simultaneously to strengthen the inner radiating effect of power supply electricity cabinet greatly.

Cooling system by the power supply of the utility model electricity cabinet; Make the reactor of bottom in the power supply electricity cabinet be installed in the side top of transformer and link to each other with rectification module; Make and when the voltage device breaks down, can dismantle reactor, simultaneously; Reactor has been saved employed connection lead largely apart from the rectification module close together.Sidepiece in power supply electricity cabinet upper and lower offers air inlet again; And at opposite side installation blower fan, form the heat dissipation wind channel of circuit module and the heat dissipation wind channel of reactor and separate, the centre separates with dividing plate; Form each other separate, air channel independently; Two-part heat can not produce interference, makes radiating effect better, and long-term work can not cause damage to the electric elements in the power supply electricity cabinet because of power supply electricity in-cabinet temperature is too high yet.

Description of drawings

Fig. 1 is the overall structure sketch map of the utility model.

Fig. 2 is the discharge module heat abstractor of the utility model cooling system.

Fig. 3 is the major loop heat abstractor of the utility model cooling system.

Fig. 4 is the resistance board heat abstractor of the utility model cooling system.

Fig. 5 is the utility model cooling system reactor heat abstractor.

Embodiment

As shown in Figure 1; The power supply electricity cabinet heat radiation system of the utility model; Comprise resistance board part 3, major loop part 2 and discharge module 1, aforementioned three parts are inner from top to bottom to be arranged at this power supply electricity cabinet, and corresponding resistance board part, major loop part and discharge module are respectively equipped with corresponding heat abstractor 31,21,11; Three heat abstractors all comprise an air channel, and each air channel is interconnected to the opening 5 at this power supply electricity cabinet top with the mode that connects up and down.

In conjunction with Fig. 1 and shown in Figure 2; Heat abstractor that should discharge module comprised be located at electricity dc fan cashier's office in a shop; This blower fan be communicated with should the electricity cabinet inside and outside; This dc fan is over against the one side of a template radiator 113; The another side of this radiator 113 closely contacts the heating position 112 of this discharge module 1, and between the internal face of this radiator 113 and this electricity cabinet, forms first air channel 111 of a up/down perforation, the cold air flow that this blower fan is imported by the outside in this first air channel 111 in to both direction is mobile up and down.

As shown in Figure 3; This major loop partly comprises two relative heating plate bodys 22; Each plate body that generates heat is respectively the plate body 22 with several transversal slottings; The heat abstractor of said major loop part be included in these two heating plate bodys opposite side each be provided with a panel radiator 212, each panel radiator 212 inner surface is provided with several fins.Between these two panel radiators 212, form second air channel 211 of up/down perforation, below second air channel 211, be provided with blower fan.

This resistance board is several plate bodys that is parallel to each other 32, between each plate body 32, forms the 3rd air channel 311 of several above-below directions, below 311 openings of the 3rd air channel, is provided with at least one blower fan.

As shown in Figure 4; First air channel 111 that the discharge module place forms; The construction system cooling duct that is interconnected, the 3rd air channel 311 of the second channel 211 of this major loop part and this resistance board part; The upper end of this system cools passage connects the opening 5 at this power supply electricity cabinet top, and the below of this system cools passage is communicated with a power supply electricity hollow-out parts 4 cashier's office in a shop.Open top 5 places of this power supply electricity cabinet are provided with a blower fan, and this blower fan is used for the inner wind of power supply electricity cabinet is siphoned away.

As shown in Figure 5, place in the interior bottom of power supply electricity cabinet and to be provided with reactor 6, transformer 7; Said reactor 6 is installed in the side top of transformer 7 and links to each other with rectification module 8; Be provided with dividing plate 9 between the power supply electricity cabinet body bottom of the power cabinet body top of placement main power source module and placement reactor 6 in the said power supply electricity cabinet body; A side that is divided into two-part power supply electricity cabinet upper and lower by dividing plate all offers the air inlet (not shown), and opposite side is equipped with the blower fan (not shown).

Aforesaid power supply electricity cabinet cooling system fits tightly around the said dividing plate 9 with around the inside of said power supply electricity cabinet, and the upper and lower of power supply electricity cabinet is space independently.

The cooling system of the power supply of the utility model electricity cabinet makes that power supply electricity cabinet is inner to form one or smooth air channel from top to bottom from bottom to top, simultaneously by radiator, to strengthen the inner radiating effect of power supply electricity cabinet greatly, prolongs the useful life that discharges and recharges power supply.

Claims (9)

1. power supply electricity cabinet cooling system; Said electric cabinet comprises resistance board part, major loop part and discharge module; Aforementioned three parts are inner from top to bottom to be arranged at this power supply electricity cabinet; It is characterized in that: corresponding resistance board part, major loop part and discharge module are respectively equipped with corresponding heat abstractor, and three heat abstractors all comprise an air channel, and each air channel is interconnected to the opening at this power supply electricity cabinet top with the mode that connects up and down.

2. power supply electricity cabinet cooling system as claimed in claim 1; It is characterized in that: heat abstractor that should discharge module is comprised be located at electricity dc fan cashier's office in a shop; This blower fan be communicated with should the electricity cabinet inside and outside; This dc fan is over against the one side of a template radiator; The another side of this radiator closely contacts the heating position of this discharge module, and between the internal face of this radiator and this electricity cabinet, forms first air channel of a up/down perforation, and the cold air flow that this blower fan is imported by the outside flows to both direction up and down in this first air channel.

3. power supply electricity cabinet cooling system as claimed in claim 2; It is characterized in that: this major loop partly comprises two relative heating plate bodys; Each plate body that generates heat is respectively the plate body with several transversal slottings; The heat abstractor of said major loop part be included in these two heating plate bodys opposite side each be provided with a panel radiator, each panel radiator inner surface is provided with several fins.

4. power supply electricity cabinet cooling system as claimed in claim 3 is characterized in that: between these two panel radiators, form second air channel of up/down perforation, below second air channel, be provided with blower fan.

5. power supply electricity cabinet cooling system as claimed in claim 4, it is characterized in that: this resistance board is several plate bodys that is parallel to each other, and between each plate body, forms the 3rd air channel of several above-below directions, below the 3rd air channel opening, is provided with at least one blower fan.

6. power supply electricity cabinet cooling system as claimed in claim 5; It is characterized in that: first air channel that said discharge module place forms; The construction system cooling duct that is interconnected, the 3rd air channel of the second channel of this major loop part and this resistance board part; The upper end of this system cools passage connects the opening at this power supply electricity cabinet top, and the below of this system cools passage is communicated with a power supply electricity hollow-out parts cashier's office in a shop.

7. like claim 1 or 6 described power supply electricity cabinet cooling systems, it is characterized in that: the top open part of this power supply electricity cabinet is provided with a blower fan, and this blower fan is used for the inner wind of power supply electricity cabinet is siphoned away.

8. power supply electricity cabinet cooling system as claimed in claim 1, it is characterized in that: the interior bottom of this power supply electricity cabinet is placed and is provided with reactor, transformer; Said reactor is installed in the side top of transformer and links to each other with rectification module; Be provided with dividing plate between the power supply electricity cabinet body bottom of the power cabinet body top of placement main power source module and placement reactor in the said power supply electricity cabinet body; A side that is divided into two-part power supply electricity cabinet upper and lower by dividing plate all offers air inlet, and opposite side is equipped with blower fan.

9. power supply as claimed in claim 8 electricity cabinet cooling system is characterized in that: fit tightly around the said dividing plate with around the inside of said power supply electricity cabinet, the upper and lower of power supply electricity cabinet is space independently.

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