CN207124480U - Uninterrupted power source with heat abstractor - Google Patents

Abstract

The utility model discloses a kind of uninterrupted power source with heat abstractor, including casing, include in the door body and/or side wall of the casing at least formed with the first opening and the second opening, the heat abstractor：It is arranged on the first fan of the first opening；It is arranged on the second fan of the second opening；It is fixed on the box house, condenser corresponding with first fan；It is fixed on the box house, evaporator corresponding with second fan；It is fixed on the box house, the compressor being connected respectively with the condenser and the evaporator by refrigerant pipeline；And for discharging the Drainage Division of condensed water caused by the evaporator.Using the utility model, can solve that radiating effect existing for the heat abstractor in existing uninterrupted power source is poor, easily enters the problems such as dust.

Description

Uninterrupted power source with heat abstractor

Technical field

The utility model belongs to power-supply device technical field, is to be related to uninterrupted power source specifically, more specifically, It is to be related to the uninterrupted power source with heat abstractor.

Background technology

Uninterrupted power source（UPS）As important support equipment of power supply, in power supply field extensive use.Uninterrupted power source bag Casing has been included, has been provided with that computer board, battery pack, power model etc. be high-power, easy heating electric device in casing.Temperature is to these Service life, efficiency and stability of electrical part etc. have a great impact, and therefore, uninterrupted power source is both provided with greatly radiating dress Put.

At present, for the heat abstractor that uninterrupted power source uses mostly for radiator fan, radiator fan is arranged on the top of casing, By the rotation of fan, the hot-air in casing is led into outdoor, the Cryogenic air of outdoor is blown in casing, realized to casing The radiating of interior electrical part.

But fan cooling is limited in one's ability, radiating effect is poor.It is additionally, since fan and is arranged on casing top, dust pole holds Easily entered in casing, be then attached on electrical part by the opening at top.Dust can make electrical part electrostatic, malfunction occur The problems such as, so as to influence the reliability and stability of power supply and service life.

The content of the invention

The purpose of this utility model is to provide a kind of uninterrupted power source with heat abstractor, solves existing uninterrupted power source In heat abstractor existing for radiating effect it is poor, easily enter dust the problems such as.

In order to solve the above technical problems, the utility model is achieved using following technical scheme：

A kind of uninterrupted power source with heat abstractor, including casing, at least shape in the door body and/or side wall of the casing Into having the first opening and the second opening, the heat abstractor includes：

It is arranged on the first fan of the first opening；

It is arranged on the second fan of the second opening；

It is fixed on the box house, condenser corresponding with first fan；

It is fixed on the box house, evaporator corresponding with second fan；

It is fixed on the box house, the compression being connected respectively with the condenser and the evaporator by refrigerant pipeline Machine；And

For discharging the Drainage Division of condensed water caused by the evaporator.

Uninterrupted power source as described above, the condenser are fixed on the door body of the casing at the first opening place Or in side wall；The evaporator is fixed in the door body or side wall of the casing at the second opening place.

Preferably, the evaporator is located at the middle and lower part of the casing；The condenser is located at the middle and upper part of the casing.

Uninterrupted power source as described above, the compressor are fixed on the bottom plate of the casing.

Uninterrupted power source as described above, the Drainage Division, which includes, is placed in the evaporator bottom, described for collecting The drip tray of condensed water caused by evaporator and the aqueduct connected with the drip tray, the aqueduct is away from the drip tray One end be passed through osculum on the casing, the condensed water in the drip tray is led to outside the casing.

Uninterrupted power source as described above, on the refrigerant pipeline between the compressor and the evaporator formed with point From the fluid reservoir of the liquid refrigerants of evaporator discharge described with storage.

Uninterrupted power source as described above, the heat abstractor also include controller and detect the temperature in the casing Temperature sensor, wind speed instruction control that the temperature value that the controller is detected according to the temperature sensor determines described the The wind speed of the wind speed of one fan and second fan.

Preferably, the temperature sensor is arranged on first opening.

Uninterrupted power source as described above, the heat abstractor also include the regulating valve being arranged on the refrigerant pipeline, Valve instruction that what the temperature value that the controller is detected according to the temperature sensor determined adjust control the regulating valve switch and/ Or aperture.

Preferably, the regulating valve is arranged on the refrigerant pipeline between the compressor and the condenser.

Compared with prior art, the advantages of the utility model and good effect is：It is provided by the utility model that there is radiating The uninterrupted power source of device, by setting condenser, evaporator, compressor and refrigerant pipeline in box house, form structure letter The air-conditioning system of change, using cold caused by evaporator to box house radiating and cooling, not only radiating efficiency is high, radiating effect It is good, and can be stable in required scope by internal temperature；The indispensable portion of air-conditioning system is directly realized in box house assembling Part, save the parts such as unnecessary housing so that construction for heat radiating device is simple, easy to assembly, and the structure of all heat abstractors is equal It is with casing one rather than outside casing, because without regard to the installation environment outside casing, further simplify assembling Structure, reduce the requirement to installation environment；In addition, the opening of casing is opened in door body and/or side wall, rather than casing top, Dust is not easy to enter in casing from the opening of side structure, and reduce influences power supply reliability and stability and use because dust covers The generation of the problem of life-span.

After specific embodiment of the present utility model is read in conjunction with the figure, other features and advantage of the present utility model will become Obtain clearer.

Brief description of the drawings

Fig. 1 is the internal structure signal of the uninterrupted power source one embodiment for having heat abstractor based on the utility model Figure.

In figure, reference and its corresponding component names are as follows：

1st, casing；11st, side wall；12nd, bottom plate；13rd, osculum；

21st, the first fan, the 22, second fan；23rd, condenser；24th, evaporator；25th, compressor；261st, drip tray；262、 Aqueduct；27th, fluid reservoir；28th, regulating valve.

Embodiment

In order that the purpose of this utility model, technical scheme and advantage are more clearly understood, below with reference to accompanying drawing and reality Example is applied, the utility model is described in further detail.

Fig. 1 is referred to, the figure show an implementation of the uninterrupted power source for having heat abstractor based on the utility model Example, the specifically internal structure schematic diagram of the embodiment.

As shown in figure 1, the uninterrupted power source of the embodiment includes casing 1, casing 1 includes 3 side walls 11（Show in figure Two of which side wall is gone out）, door body（Not shown in figure）, bottom plate 12 and top plate（Not shown in figure）, a side wall 11 wherein On formed with upper and lower two opening, respectively first opening and second opening（Not shown in figure）.It is provided with the first opening First fan 21, the second opening is provided with the second fan 22, condenser 23 is further fixed on inside casing 1, in side wall 11 With evaporator 24.Wherein, the position correspondence of condenser 23 the first fan 21, and the position correspondence of evaporator 24 the second fan 22, so as to form condenser 23 in arrangement architecture upper, that evaporator 24 is under.Also, it is preferred that condenser 23 is located in casing 1 Middle and upper part, and evaporator 24 is located at the middle and lower part in casing 1.Inside casing 1, on bottom plate 12, specifically in bottom plate Position on 12 close to evaporator 24 is fixed with compressor 25, compressor 25 by refrigerant pipeline respectively with condenser 23 and evaporation Device 24 connects, and condenser 23 connects with evaporator 24 also by refrigerant pipeline.

First opening and the second opening are not limited to be formed in the side wall 11 of casing 1；In some other embodiment, the One opening or the second opening can also be formed in the door body of casing 1.No matter being formed in side wall 11 or door body, opening is equal It is that therefore, dust is not easy to enter in casing from the opening of side structure, reduces because of ash positioned at the side of casing 1 and non-top The generation for the problem of dirt covers and influences power supply reliability and stability and service life.

First fan 21, the second fan 22, condenser 23, evaporator 24 and compressor 25 form an air conditioner refrigerating system Unite, after the startup optimization of compressor 25, refrigerant enters condenser 23 from compressor 25, and the first fan 21 passes through the wind inside casing 1 Condenser 23 and first is crossed to be open and discharge to outside casing 1；Afterwards, refrigerant is flowed into evaporation, the 24, second fan 22 from condenser 23 Wind outside casing 1 is blown to evaporator 24 through the second opening, the cold wind formed after the heat exchange of evaporator 24 is entered in casing 1 Portion, radiating and cooling is carried out to casing；Finally, the refrigerant of evaporator 24 flows into compressor 25 again, forms the circulation of refrigerant.It is cold The continuous circulation of matchmaker, cold wind can be persistently produced in casing 1, therefore, it is possible to maintain the temperature stabilization inside casing 1 to exist for a long time Required low temperature, good heat dissipation effect.Also, due to evaporator 24 is arranged on into middle and lower part position, cold air sinks, to middle and lower part Cooling become apparent from.Because the high power device in power supply is all disposed within greatly the middle and lower part in casing 1, it is thus possible to concentrate more Cold air radiated come the device big to caloric value.On the other hand, cold air produces in middle and lower part so that in whole casing 1 Portion's progressively cooling radiating from bottom to top, finally realizes the cooling radiating of the whole internal stability of casing 1.

Also, the essential element of air-conditioning system is directly realized in the mounted inside of casing 1, saves the parts such as unnecessary housing, So that construction for heat radiating device is simple, it is easy to assembly, and the structure of all heat abstractors is with the one of casing 1 rather than in case Outside body, because without regard to the installation environment outside casing, further simplify assembling structure, reducing to installation environment It is required that.

In addition, heat abstractor is additionally provided with Drainage Division, for condensed water caused by discharging evaporator 24, condensation flow is prevented Enter onto the electric component in casing 11.Specifically, Drainage Division includes drip tray 261 and aqueduct 262, drip tray 261 is put In the bottom of evaporator 24, width is more than the width of evaporator 24, for collecting condensed water caused by evaporator 24.Aqueduct 262 One end connects with drip tray 261, and the other end away from drip tray 261 is passed through the osculum 13 on casing 1, so as to profit The condensed water that drip tray 261 is collected is led into the outside of casing 1 with aqueduct 262 to discharge.Preferably, drip tray 261 angled manners for being less than the height away from the one end of aqueduct 262 with the height of the one end connected with aqueduct 262 are fixed on steaming Send out the bottom of device 24.Specifically, as shown in figure 1, aqueduct 262 connects with drip tray 261 in left end, the left end of drip tray 261 Highly low and right-hand member height.It is low side by the one end for being arranged to connect with aqueduct 262 by drip tray 261, can to connect Condensed water in water pond 261 is successfully flowed into aqueduct 262, and then is discharged outside casing 1.

To realize the more accurate control to temperature in casing 1, in this embodiment, heat abstractor also includes controller （Not shown in figure）With the temperature sensor of the temperature in detection case body（Also it is not shown in figure）, controller will be according to TEMP The temperature value of device detection determines the wind speed of the first fan 21 and the second fan 22, and sends corresponding wind according to the wind speed of determination The wind speed of speed instruction the first fan 21 of control and the wind speed of the second fan 22.As preferred embodiment, temperature sensor The first opening is arranged on, herein for the of a relatively high position of the internal temperature of casing 1, the temperature detected by the position is used as Control temperature, radiating effect can be improved in guard box body, especially middle and lower part is maintained at a relatively low temperature.

In this embodiment, on the refrigerant pipeline between compressor 25 and evaporator 24 namely compressor 22 return-air , can be with the refrigerant of the gas-liquid mixed state of the discharge of separating evaporator 24 using the fluid reservoir 27 formed with fluid reservoir 27 on pipeline Liquid refrigerants, and store these liquid refrigerants, prevent liquid refrigerants flows into from causing the liquid of compressor 25 into compressor 25 Hit damage.Formed with tune on refrigerant pipeline between compressor 25 and condenser 23 namely on the gas exhaust piping of compressor 22 Valve 28 is saved, the temperature value that controller detects according to temperature sensor determines to adjust valve to instruct, and controls to adjust the switch of valve, or control The size of control valve opening, realizes the regulation to circulating refrigerant, and then realizes to the more accurate, stably of the temperature in casing 1 Control.

Above example is only illustrating the technical solution of the utility model, rather than is limited；Although with reference to before Embodiment is stated the utility model is described in detail, for the person of ordinary skill of the art, still can be right Technical scheme described in previous embodiment is modified, or carries out equivalent substitution to which part technical characteristic；And these Modifications or substitutions, do not make appropriate technical solution essence depart from the utility model technical scheme claimed spirit and Scope.

Claims (10)

1. a kind of uninterrupted power source with heat abstractor, including casing, it is characterised in that the door body of the casing and/or side Include on wall at least formed with the first opening and the second opening, the heat abstractor：

It is arranged on the first fan of the first opening；

It is arranged on the second fan of the second opening；

It is fixed on the box house, condenser corresponding with first fan；

It is fixed on the box house, evaporator corresponding with second fan；

It is fixed on the box house, the compressor being connected respectively with the condenser and the evaporator by refrigerant pipeline； And

For discharging the Drainage Division of condensed water caused by the evaporator.

2. uninterrupted power source according to claim 1, it is characterised in that the condenser is fixed on the first opening institute The casing door body or side wall on；The evaporator be fixed on it is described second opening where the casing door body or In side wall.

3. uninterrupted power source according to claim 1, it is characterised in that under the evaporator is located in the casing Portion；The condenser is located at the middle and upper part of the casing.

4. uninterrupted power source according to claim 1, it is characterised in that the compressor is fixed on the bottom plate of the casing On.

5. uninterrupted power source according to any one of claim 1 to 4, it is characterised in that the Drainage Division, which includes, puts In the evaporator bottom, for collecting the drip tray of condensed water caused by the evaporator and drawing with what the drip tray connected Water pipe, the one end of the aqueduct away from the drip tray are passed through the osculum on the casing, by the drip tray In condensed water lead to outside the casing.

6. uninterrupted power source according to any one of claim 1 to 4, it is characterised in that the compressor with it is described Fluid reservoir formed with the liquid refrigerants for separating and storing the evaporator discharge on refrigerant pipeline between evaporator.

7. uninterrupted power source according to any one of claim 1 to 4, it is characterised in that the heat abstractor also includes There is controller and detect the temperature sensor of the temperature in the casing, the controller detects according to the temperature sensor The wind speed instruction that temperature value determines controls the wind speed of first fan and the wind speed of second fan.

8. uninterrupted power source according to claim 7, it is characterised in that the temperature sensor is arranged on described first and opened At mouthful.

9. uninterrupted power source according to claim 7, it is characterised in that the heat abstractor is also described cold including being arranged on Regulating valve on matchmaker's pipeline, the tune valve instruction control institute that the temperature value that the controller detects according to the temperature sensor determines State the switch and/or aperture of regulating valve.

10. uninterrupted power source according to claim 9, it is characterised in that the regulating valve be arranged on the compressor with On refrigerant pipeline between the condenser.