CN205030025U - Rack and have rack cooling system of this rack - Google Patents

Abstract

The utility model belongs to the technical field of machine punch -out equipment cabinet, aim at providing a rack and have rack cooling system of this rack, include the cabinet body, water pump, bin and locate the internal heat transfer device of cabinet, according to the automatic silicon steel sheet leveling machine of the transformer, through setting up the bin and setting up heat transfer device in the inside of the cabinet body, the air conditioner comdenstion water gets into in the bin in the back carries it heat transfer device by the water pump from the bottom of bin, so that heat up the replacement with the heat of comdenstion water in internal heat of cabinet and the heat transfer device, condensate return after the heat replacement will directly be discharged from the bin behind the bin, obviously, through abundant recycle air conditioner comdenstion water, guarantee the radiating while high -efficiently, this rack and have rack cooling system of this rack has realized still that one kind is cleaned environmental protection and energy -conserving radiating mode.

Description

Rack and there is the cooling system for computer case of this rack

Technical field

The utility model belongs to case and cabinet technical field, relates to a kind of rack, particularly relates to a kind ofly can recycle air conditioner condensate water to carry out the rack dispelled the heat and the cooling system for computer case with this rack.

Background technology

Along with the fast development of electronic technology, electronic device is also constantly to the intensive of high frequency, high speed and integrated circuit and miniaturization development, well imagine, the caloric value of the electronic device of unit volume can increase rapidly, and considers the factor such as waterproof and dustproof, minimizing radiation, usually, electric power, electronic equipment especially commercial plant are installed in rack, in other words, for guaranteeing that electronic equipment is developed rapidly, it is particularly important that rack should possess good heat dispersion.

In prior art, the radiating mode of rack generally has following two kinds: 1) passive-type heat radiation, namely refer to that rack utilizes the mode such as self housing and cold and hot gas convection current to dispel the heat, but this kind of mode is just more applicable for the situation that internal unit caloric value is less; 2) initiative heat radiation, understandably, this kind of mode is generally adopt external forced radiating mode, is usually divided into air-cooled, water-cooled and these three kinds of modes of air conditioner refrigerating.Wherein, for air conditioner refrigerating, usually, air conditioner refrigerating is divided into again built-in and external two kinds, built-in air-conditioning is integrated in the inside of cabinet, this kind of Method compare is applicable to important Cabinet, and external air-conditioning normally arranges air-conditioning to carry out temperature adjustment in the surrounding environment at rack in the machine room installing rack.By upper, for rack, no matter be which kind of radiating mode, also all can there is radiating effect remarkable not, could not the key elements such as energy saving standard be fully demonstrated.

Utility model content

The purpose of this utility model be to provide a kind of radiating effect can recycling air conditioner condensate water significantly, energy-saving and emission-reduction and the rack of also environmental protection and there is the cooling system for computer case of this rack.

For solving the problems of the technologies described above, the technical solution adopted in the utility model is: provide a kind of rack, comprise cabinet, also comprises storage bin, heat-exchanger rig and water pump;

Described storage bin, offer the inlet for connecting air-conditioner water outlet pipe and the refluxing opening for being connected to described heat-exchanger rig, the condensed water flowed into from described inlet in order to store collected and reclaiming after described heat-exchanger rig Hot swapping from the described condensed water that described refluxing opening refluxes;

Described water pump comprises water inlet end and water side, and described water inlet end is communicated with described storage bin, and described water side connects described heat-exchanger rig, for being delivered in described heat-exchanger rig by the condensed water in described storage bin;

Described heat-exchanger rig, is located at the inside of described cabinet, and in order to carry out mutual Hot swapping to the heat of described condensed water in the heat in described cabinet and described heat-exchanger rig, and the output of described heat-exchanger rig is communicated with described refluxing opening.

Further, the inner chamber of described storage bin is arranged with the first container cavity, the second container cavity and the 3rd container cavity successively, in near described storage bin bottom side described in the first container cavity be communicated in described second container cavity, near described storage bin top side described in second container cavity be communicated with described 3rd container cavity; Described storage bin also offers floss hole in order to give off the described condensed water of backflow, described floss hole is positioned at the side near the bottom of described storage bin and is communicated in described 3rd container cavity; Described inlet and described refluxing opening are all positioned at the side at the top near described storage bin, and described inlet and described refluxing opening are communicated in described first container cavity and described second container cavity respectively.

Further, the roof of described storage bin is convexly equipped with in order to the first half between described first container cavity and described second container cavity to be separated and to make the first dividing plate that the latter half is between the two communicated with downwards; The diapire of described storage bin is convex to be provided with in order to the latter half between described second container cavity and described 3rd container cavity to be separated and to make the second partition that the first half is between the two communicated with.

Further, described first spacer gap in the diapire of described storage bin to form the first intercommunicating pore, described second partition gap in the roof of described storage bin to form the second intercommunicating pore.

Further, described first dividing plate is arranged with described second partition is all vertical.

Further, the bottom of described second container cavity offers delivery port, and the described water inlet end of described water pump connects described delivery port, and the described water side of described water pump connects the input of described heat-exchanger rig.

Particularly, described storage bin is positioned at described cabinet and is positioned on the bottom of described cabinet.

Particularly, described heat-exchanger rig comprises the radiating tube that roundabout bending is arranged, the input of described radiating tube connects the described water side of described water pump, and the output of described radiating tube is communicated with described refluxing opening.

Compared with prior art, the beneficial effect of rack that the utility model provides is:

By arranging storage bin and arranging heat-exchanger rig in the inside of cabinet, condensed water enters after in storage bin and is transported in heat-exchanger rig by water pump from the bottom of storage bin, the heat of condensed water in the heat in cabinet and heat-exchanger rig is carried out Hot swapping, to directly discharge from storage bin after condensate return after Hot swapping to storage bin, obviously, the utility model, by fully recycling condensed water, while this rack of guarantee dispels the heat efficiently, also achieve a kind of clean environment firendly and energy-conservation radiating mode.

The utility model also provides a kind of cooling system for computer case, and this cooling system for computer case comprises air-conditioning and above-mentioned rack, and the air-conditioner water outlet pipe of described air-conditioning is communicated in the inlet of described storage bin.

Compared with prior art, the beneficial effect of the cooling system for computer case that the utility model provides is: by adopting above-mentioned rack, the air conditioner condensate water that air-conditioning is discharged is recycled, make the radiating effect of this cooling system for computer case remarkable, and achieve the energy-saving and emission-reduction of this cooling system for computer case to a certain extent and the demand of environmental protection.

Accompanying drawing explanation

Fig. 1 is the perspective view of rack in the utility model embodiment;

Fig. 2 is the fundamental diagram of rack in the utility model embodiment.

Label in accompanying drawing is as follows:

1 cabinet, 2 storage bins;

21 first container cavities, 22 second container cavities, 23 the 3rd container cavities, 24 inlets, 25 refluxing openings, 26 floss holes, 27 delivery ports, 28 first dividing plates, 281 first intercommunicating pores, 29 second partitions, 291 second intercommunicating pores;

3 water pumps, 4 heat-exchanger rigs, 5 air-conditionings, 51 air-conditioner water outlet pipes, 6 condensed waters.

Embodiment

In order to make technical problem to be solved of the present utility model, technical scheme and advantage clearly understand, below in conjunction with drawings and Examples, the utility model is further elaborated.Should be appreciated that specific embodiment described herein only in order to explain the utility model, and be not used in restriction the utility model.

Below in conjunction with concrete accompanying drawing, realization of the present utility model is described in detail.

It should be noted that, when parts are called as " being fixed on " or " being arranged at " another parts, it can directly on another parts or may there are parts placed in the middle simultaneously.When parts are known as " being connected to " another parts, it can be directly connected to another parts or may there are parts placed in the middle simultaneously.

Also it should be noted that, the corresponding same or analogous parts of same or analogous label in the accompanying drawing of the utility model embodiment, in description of the present utility model, it will be appreciated that, if have term " on ", D score, " left side ", orientation or the position relationship of the instruction such as " right side " are based on orientation shown in the drawings or position relationship, only the utility model and simplified characterization for convenience of description, instead of indicate or imply that the device of indication or element must have specific orientation, with specific azimuth configuration and operation, therefore, the term of position relationship is described only for exemplary illustration in accompanying drawing, the restriction to this patent can not be interpreted as, for the ordinary skill in the art, the concrete meaning of above-mentioned term can be understood as the case may be.

As shown in Figure 1 to Figure 2, be a kind of rack that the utility model one preferred embodiment provides.

As shown in Figure 1, this rack, comprises cabinet 1.Dispel the heat to interior of equipment cabinet for ease of fully recycling condensed water 6, this rack also comprises storage bin 2, heat-exchanger rig 4 and water pump 3.Wherein, as shown in Figure 1, this storage bin 2 offers inlet 24 and refluxing opening 25, and wherein, inlet 24 is for connecting air-conditioner water outlet pipe 51, and refluxing opening 25 is for connecting heat-exchanger rig 4.Concrete in the present embodiment, in whole radiation processes, this storage bin 2 mainly contains following three purposes: the condensed water 6 that 1) heat that flows into from inlet of store collected is lower; 2) reclaim from the condensed water 6 that refluxing opening 25 refluxes after heat-exchanger rig 4 Hot swapping, it should be noted that, the heat of the condensed water 6 now refluxed is higher than the heat of the condensed water 6 collected.

Again as shown in Figure 1, this water pump 3 comprises water inlet end and water side, wherein, water inlet end is communicated with storage bin 2, water side connects heat-exchanger rig 4, and understandably, this water pump 3 is mainly used in the condensed water 6 flowed in storage bin 2 by inlet 24 and is delivered in heat-exchanger rig 4.It should be noted that, specifically in the present embodiment, this water pump 3 is arranged on the inside of cabinet 1.Certainly, in actual applications, this water pump 3 is not limited to the inside being only arranged on cabinet 1, specifically can determine according to actual needs, as long as condensed water 6 lower for the heat collected in storage bin 2 can be drawn in heat-exchanger rig 4 by this water pump 3 in storage bin 2.

Again as shown in Figure 1, the inside of cabinet 1 is located at by heat-exchanger rig 4, and the output of heat-exchanger rig 4 is communicated with the refluxing opening 24 of storage bin 2.Concrete in the present embodiment, this heat-exchanger rig 4 is mainly used to realize the Hot swapping between the heat of condensed water 6 in heat in cabinet 1 and heat-exchanger rig 4, understandably, pass through Hot swapping, heat in cabinet 1 is reduced, and accordingly, the heat of the condensed water 6 in heat-exchanger rig 4 increases thereupon.

It should be noted that; no matter consider it is usually the built-in air-conditioning 5 of room conditioning 5 or rack; its condensed water is all directly emitted, although in fact this condensed water can not directly be drunk, industrial to being applied to; its water quality is complete acceptable; thus, consider the demand such as energy-conserving and environment-protective and reduction of discharging, guaranteeing on the basis that rack can dispel the heat efficiently; specifically in the present embodiment, condensed water 6 is preferably air conditioner condensate water.In other words, by pipeline, the air conditioner condensate water of discharging in air-conditioner water outlet pipe 51 is directly guided in storage bin 2.

Further, in the preferred embodiment that the utility model provides, for ease of realizing the heat exchange of condensed water 6 efficiently, as shown in Figure 2, the inner chamber of storage bin 2 is provided with the first container cavity 21, second container cavity 22 and the 3rd container cavity 23 successively, wherein, in the side of the bottom near storage bin 2, first container cavity 21 is communicated in the second container cavity 22, and side second container cavity 22 in the top near storage bin 2 is communicated with the 3rd container cavity 23.Again as shown in Figure 2, for ease of giving off the condensed water 6 of backflow, storage bin 2 also offers floss hole 26, wherein, floss hole 26 is positioned at the side near the bottom of storage bin 2 and is communicated in the 3rd container cavity 23, understandably, the condensed water 6 after heat exchange finally can flow out in storage bin 2.Again as shown in Figure 2, for ease of storing condensed water 6 more, inlet 24 and refluxing opening 25 are all positioned at the side at the top near storage bin 2, and inlet 24 and refluxing opening 25 are communicated in the first container cavity 21 and the second container cavity 22 respectively.

Understandably, the condensed water 6 that the heat collected is lower will be sent in the first container cavity 21 of storage bin 2 from inlet 24, because constituting linker between the first container cavity 21 and the second container cavity 22, thus, the condensed water 6 lower in the side heat of the bottom near storage bin 2 will enter in the second container cavity 22 from the first container cavity 21, this can make the liquid level of the condensed water 6 in the first container cavity 21 and the second container cavity 22 raise, till peak level simultaneously.It should be noted that, " peak level " just will discharge from floss hole 26 with condensed water 6 and be as the criterion.

Also understandably, the condensed water 6 of backflow will directly be back in the second container cavity 22, because refluxing opening 25 is located at the side at the top near storage bin 2, thus, in whole radiation processes, the condensed water 6 of backflow flowing to after in the second container cavity 22, directly subsequently again enters the 3rd container cavity 23 from overflow in the second container cavity 22, and emits from floss hole 26.

Further, in the preferred embodiment that the utility model provides, as shown in Figure 2, the roof of storage bin 2 is convexly equipped with the first dividing plate 28 downwards, wherein, this first dividing plate 28 mainly contains two purposes: 1) the first half between the first container cavity 21 and the second container cavity 22 separated; 2) realize the latter half between the first container cavity 21 and the second container cavity 22 to be communicated with, thus the condensed water 6 making the heat collected lower can only be entered in the second container cavity 22 from the side of the close bottom of storage bin 2 by the first container cavity 21.

Again as shown in Figure 2, the diapire of storage bin 2 is convex is provided with second partition 29, and in like manner, the main application of this second partition 29 is: 1) the latter half between the second container cavity 22 and the 3rd container cavity 23 separated; 2) realize the first half between the second container cavity 22 and the 3rd container cavity 23 to be communicated with, thus the higher condensed water 6 of the heat being convenient to reflux just can need enter in the 3rd container cavity 23 from spilling in the second container cavity 22.

Further, in the preferred embodiment that the utility model provides, for ease of guaranteeing that the condensed water 6 that heat is lower can only enter in the second container cavity 22 from the first container cavity 21 from the side of the bottom near storage bin 2, first dividing plate 28 gap in the diapire of storage bin 2 to form the first intercommunicating pore 281, in other words, the lowermost end of the first dividing plate 28 does not abut against with the bottom of storage bin 2, but has certain gap.Understandably, namely the condensed water 6 in the first container cavity 21 flows in the second container cavity 22 in the first intercommunicating pore 281.

In like manner, the condensed water 6 higher for ease of the heat of backflow can only enter in the 3rd container cavity 23 from the second container cavity 22 overflow from the side at the top near storage bin 2, second partition 29 gap in the roof of storage bin 2 to form the second intercommunicating pore 291, in other words, the top of second partition 29 does not abut against with the top of storage bin 2, but have certain gap, understandably, the condensed water 6 that in the second container cavity 22, the heat of backflow is higher enters in the 3rd container cavity 23 from the second intercommunicating pore 291 overflow.

Further, in the preferred embodiment that the utility model provides, for simplifying the structure of this rack, as shown in Figure 2, the first dividing plate 28 and second partition 29 all in tabular, and are all vertically arranged, certainly, in actual applications, the shape of the first dividing plate 28 and second partition 29 is not limited to this, and its state arranged also is not limited to plumbness.

Further, in the preferred embodiment that the utility model provides, as shown in Figure 2, the bottom of the second container cavity 22 offers delivery port 27, wherein, carry out Hot swapping for ease of being transported in heat-exchanger rig 4 by condensed water 6 lower for the heat collected, the water inlet end of water pump 3 connects delivery port 27, and the water side of water pump 3 connects the input of heat-exchanger rig 4.

Further, in the preferred embodiment that the utility model provides, for ease of simplifying the structure of rack, and make its structure compacter, as shown in Figure 1, storage bin 2 is positioned at cabinet 1 and is positioned on the bottom of cabinet 1.

Further, in the preferred embodiment that the utility model provides, as shown in Figure 2, heat-exchanger rig 4 comprises radiating tube (not shown), and for ease of improving radiating efficiency, the roundabout bending of this radiating tube is arranged.Wherein, the input of this radiating tube connects the water side of water pump 3, and the output of radiating tube is communicated with refluxing opening 24.It should be noted that, specifically in the present embodiment, this radiating tube is copper pipe, and heat-exchanger rig 4 also mainly includes heat exchanging fin, certainly, the material of the structure that heat-exchanger rig 4 is concrete and each parts is not limited to this, and the installation site concrete in cabinet 1 of heat-exchanger rig 4 can be determined according to actual needs.

By upper, the radiating principle of this rack is as follows:

Condensed water 6 (as air conditioner condensate water) is collected in the first container cavity 21 by inlet 24, then enter in the second container cavity 22 by the first intercommunicating pore 281, now, liquid level in first container cavity 21 and the second container cavity 22 can raise simultaneously, when the liquid level in the first container cavity 21 and the second container cavity 22 reaches maximum level, water pump 3 can be started, condensed water 6 bottom second container cavity 22 is drawn in heat-exchanger rig 4, now, heat in cabinet 1 can carry out Hot swapping with the heat of condensed water 6 in heat-exchanger rig 4, condensed water 6 after Hot swapping is back in the second container cavity 22, obviously, the heat of condensed water 6 is now higher, but because the condensed water 6 in prior second container cavity 22 is to be filled to the highest liquid level of the second container cavity 22, thus, the condensed water 6 that heat in second container cavity 22 is higher can spill in the 3rd container cavity 23 subsequently from the second intercommunicating pore 291, and be finally discharged into rack from floss hole 26.Whole process can circulate and carry out, and understandably, in whole cyclic process, the heat in rack can constantly be brought in the second container cavity 22, and discharges from floss hole 26.

The utility model also provides a kind of cooling system for computer case, this cooling system for computer case comprises air-conditioning 5 and above-mentioned rack, wherein, the air-conditioner water outlet pipe 51 of air-conditioning 5 is communicated in the inlet 24 of storage bin 2, and understandably, the air conditioner condensate water 6 that air-conditioning 5 is discharged will flow to inlet 24 from air-conditioner water outlet pipe 51, finally come together in storage bin 2, it should be noted that, air-conditioning 5 can be placed on outside rack, also can be built in rack.

The foregoing is only preferred embodiment of the present utility model, be not limited to the utility model.For a person skilled in the art, the utility model can have various modifications and variations.All within spirit of the present utility model and principle, any amendment done, equivalent replacement, improvement etc., all should be included within right of the present utility model.

Claims (9)

1. rack, comprises cabinet, it is characterized in that: also comprise storage bin, heat-exchanger rig and water pump;

Described storage bin, offer the inlet for connecting air-conditioner water outlet pipe and the refluxing opening for being connected to described heat-exchanger rig, the condensed water flowed into from described inlet in order to store collected and reclaiming after described heat-exchanger rig Hot swapping from the described condensed water that described refluxing opening refluxes;

Described water pump comprises water inlet end and water side, and described water inlet end is communicated with described storage bin, and described water side connects described heat-exchanger rig, for being delivered in described heat-exchanger rig by the condensed water in described storage bin;

Described heat-exchanger rig, is located at the inside of described cabinet, and in order to carry out mutual Hot swapping to the heat of described condensed water in the heat in described cabinet and described heat-exchanger rig, and the output of described heat-exchanger rig is communicated with described refluxing opening.

2. rack as claimed in claim 1, it is characterized in that: the inner chamber of described storage bin is provided with the first container cavity, the second container cavity and the 3rd container cavity successively, in near described storage bin bottom side described in the first container cavity be communicated in described second container cavity, near described storage bin top side described in second container cavity be communicated with described 3rd container cavity; Described storage bin also offers floss hole in order to give off the described condensed water of backflow, described floss hole is positioned at the side near the bottom of described storage bin and is communicated in described 3rd container cavity; Described inlet and described refluxing opening are all positioned at the side at the top near described storage bin, and described inlet and described refluxing opening are communicated in described first container cavity and described second container cavity respectively.

3. rack as claimed in claim 2, is characterized in that: the roof of described storage bin is convexly equipped with in order to the first half between described first container cavity and described second container cavity to be separated and to make the first dividing plate that the latter half is between the two communicated with downwards; The diapire of described storage bin is convex to be provided with in order to the latter half between described second container cavity and described 3rd container cavity to be separated and to make the second partition that the first half is between the two communicated with.

4. rack as claimed in claim 3, is characterized in that: described first spacer gap in the diapire of described storage bin to form the first intercommunicating pore, described second partition gap in the roof of described storage bin to form the second intercommunicating pore.

5. rack as claimed in claim 4, is characterized in that: described first dividing plate is arranged with described second partition is all vertical.

6. the rack as described in any one of claim 2 to 5, it is characterized in that: the bottom of described second container cavity offers delivery port, the described water inlet end of described water pump connects described delivery port, and the described water side of described water pump connects the input of described heat-exchanger rig.

7. rack as claimed in claim 6, is characterized in that: described storage bin is positioned at described cabinet and is positioned on the bottom of described cabinet.

8. rack as claimed in claim 6, is characterized in that: described heat-exchanger rig comprises the radiating tube that roundabout bending is arranged, the input of described radiating tube connects the described water side of described water pump, and the output of described radiating tube is communicated with described refluxing opening.

9. cooling system for computer case, is characterized in that: comprise air-conditioning and the rack as described in any one of claim 1 to 8, and the air-conditioner water outlet pipe of described air-conditioning is communicated in the inlet of described storage bin.