CN204189122U - The stereoscopic grid-type water-cooled backboard cooling system of intensive distribution - Google Patents

Abstract

The utility model relates to a kind of stereoscopic grid-type water-cooled backboard cooling system of intensity distribution, comprise the water inlet pipe be arranged in back plate frame, rising pipe, isocon and radiating fin, water inlet pipe parallels with rising pipe, be connected by some isocons between water inlet pipe with rising pipe, isocon and water inlet pipe, rising pipe are perpendicular, isocon is U-shaped, two openends of isocon are communicated with water inlet pipe, rising pipe respectively, water inlet pipe, form a U-shaped cavity between rising pipe and each isocon, radiating fin inserts in U-shaped cavity.The water cooled pipeline one-shot forming of the stereoscopic grid-type water-cooled backboard cooling system of this intensity distribution, reduce the danger of breaking because of hydraulic pressure, the distribution of water cooled pipeline solid, the number of plies increasing pipeline can increase the dense degree of current, radiating effect strengthens greatly, and inserts the poroid radiating fin of aluminum at three-dimensional pipeline central space, greatly increases endotherm area, it is more that same discharge absorbs heat in cabinet, and energy utilization rate improves greatly.

Description

The stereoscopic grid-type water-cooled backboard cooling system of intensive distribution

Technical field

The utility model relates to a kind of equipment cabinet back plate cooling valve, especially a kind of stereoscopic grid-type water-cooled backboard cooling system of the intensity distribution be arranged in equipment cabinet back plate cooling valve.

Background technology

Machine room heat radiation power problems is the key factor that communications equipment room needs to consider always, and traditional precision air conditioner restricts communications equipment room development due to the problem of power consumption always.There is novel water-cooled backboard in domestic also beginning in the recent period, but traditional water-cooled backboard cooling water pipeline copys air-conditioning heat dissipation pipe design (as shown in Figure 1), due to the restriction of brake techniques, be difficult to accomplish dense distribution, depend tube wall alone and absorb heat, such refrigeration area is less, refrigeration is had a greatly reduced quality, and if the bending part of design is too much, easily causes bending part pipe burst, light light relies on the area of dissipation of water cooled pipeline too little in addition, can not make full use of.

Utility model content

The technical problems to be solved in the utility model is: in order to provide a kind of stereoscopic grid-type water-cooled backboard cooling system of intensity distribution, preparation technology is simple, good heat dissipation effect, and can prevent pipeline from bursting because too bending.

The utility model solves the technical scheme that its technical matters adopts: a kind of stereoscopic grid-type water-cooled backboard cooling system of intensity distribution, comprise the water inlet pipe be arranged in back plate frame, rising pipe, isocon and radiating fin, described water inlet pipe parallels with rising pipe, be connected by some isocons between water inlet pipe with rising pipe, described isocon and water inlet pipe, rising pipe is perpendicular, isocon is U-shaped, two openends of isocon respectively with water inlet pipe, rising pipe is communicated with, water inlet pipe, a U-shaped cavity is formed between rising pipe and each isocon, described radiating fin inserts in U-shaped cavity.

For the ease of water inlet and the control of water outlet, and reduce the use of tubing, as preferably, the water inlet of described water inlet pipe, the water delivering orifice of rising pipe are all arranged on homonymy, namely the water inlet of water inlet pipe, the water delivering orifice of rising pipe is all arranged on the water inlet of bottom or water inlet pipe, the water delivering orifice of rising pipe is all arranged on top.Certainly, according to special requirement, the water inlet of water inlet pipe, the water delivering orifice of rising pipe also can be arranged on not homonymy, namely the water inlet of water inlet pipe is arranged on top, and the water delivering orifice of rising pipe is arranged on bottom, or the water inlet of water inlet pipe is arranged on bottom, and the water delivering orifice of rising pipe is arranged on top.

Described radiating fin is aluminum, and radiating fin evenly offers some louvres, and cost of manufacture is low, good heat dissipation effect.

The beneficial effects of the utility model are: the water cooled pipeline one-shot forming of the stereoscopic grid-type water-cooled backboard cooling system of intensity distribution of the present utility model, reduce the danger of breaking because of hydraulic pressure, the distribution of water cooled pipeline solid, the number of plies increasing pipeline can increase the dense degree of current, what greatly increase synchronization walks the water yield, radiating effect strengthens greatly, the pipeline breaking not having undue bending pipeline to cause is dangerous, and insert the poroid radiating fin of aluminum at three-dimensional pipeline central space, greatly increase endotherm area, it is more that same discharge absorbs heat in cabinet, energy utilization rate improves greatly.

Accompanying drawing explanation

Below in conjunction with drawings and Examples, the utility model is further illustrated.

Fig. 1 is the structural representation of the cooling system of prior art dorsulum unexpected winner;

Fig. 2 is the structural representation of the stereoscopic grid-type water-cooled backboard cooling system of the utility model intensity distribution;

Fig. 3 is the structural representation of the water inlet pipe of stereoscopic grid-type water-cooled backboard cooling system of the utility model intensity distribution, rising pipe and isocon;

Fig. 4 is the structural representation of the radiating fin of the stereoscopic grid-type water-cooled backboard cooling system of the utility model intensity distribution;

In figure: 1. water inlet pipe, 2. rising pipe, 3. isocon, 4. radiating fin, 5. louvre.

Embodiment

By reference to the accompanying drawings the utility model is described in further detail now.These accompanying drawings are the schematic diagram of simplification, only basic structure of the present utility model are described in a schematic way, and therefore it only shows the formation relevant with the utility model.

As in Figure 2-4, a kind of stereoscopic grid-type water-cooled backboard cooling system of intensity distribution, comprise the water inlet pipe 1 be arranged in back plate frame, rising pipe 2, isocon 3 and radiating fin 4, described water inlet pipe 1 parallels with rising pipe 2, be connected by some isocons 3 between water inlet pipe 1 with rising pipe 2, described isocon 3 and water inlet pipe 1, rising pipe 2 is perpendicular, isocon 3 is U-shaped, two openends of isocon 3 respectively with water inlet pipe 1, rising pipe 2 is communicated with, water inlet pipe 1, a U-shaped cavity is formed between rising pipe 2 and each isocon 3, described radiating fin 4 inserts in U-shaped cavity.

In the utility model, the water inlet of water inlet pipe 1 is arranged on the bottom of water inlet pipe 1, and the water delivering orifice of rising pipe 2 is also arranged on the bottom of rising pipe 2, and namely water enters from bottom, flows out from bottom, thus is convenient to control.

Radiating fin 4 as shown in Figure 4, adopts aluminium sheet to obtain, and its height is identical with the distance between top and the U-shaped isocon 3 of least significant end, radiating fin 4 evenly offers some louvres 5.Embedded radiating fin 4 designs and neither takies too much space, and considerably increase area of catching a cold, thermal conduction effect strengthens greatly simultaneously.

Compared with prior art, the water cooled pipeline one-shot forming of the stereoscopic grid-type water-cooled backboard cooling system of intensity distribution of the present utility model, reduce the danger of breaking because of hydraulic pressure, the distribution of water cooled pipeline solid, the number of plies increasing pipeline can increase the dense degree of current, what greatly increase synchronization walks the water yield, radiating effect strengthens greatly, the pipeline breaking not having undue bending pipeline to cause is dangerous, and insert the poroid radiating fin of aluminum at three-dimensional pipeline central space, greatly increase endotherm area, it is more that same discharge absorbs heat in cabinet, energy utilization rate improves greatly.

With above-mentioned according to desirable embodiment of the present utility model for enlightenment, by above-mentioned description, relevant staff in the scope not departing from this utility model technological thought, can carry out various change and amendment completely.The technical scope of this utility model is not limited to the content on instructions, must determine its technical scope according to right.

Claims (6)

1. the stereoscopic grid-type water-cooled backboard cooling system of an intensive distribution, it is characterized in that: comprise the water inlet pipe be arranged in back plate frame, rising pipe, isocon and radiating fin, described water inlet pipe parallels with rising pipe, be connected by some isocons between water inlet pipe with rising pipe, described isocon and water inlet pipe, rising pipe are perpendicular, isocon is U-shaped, two openends of isocon are communicated with water inlet pipe, rising pipe respectively, water inlet pipe, form a U-shaped cavity between rising pipe and each isocon, described radiating fin inserts in U-shaped cavity.

2. the stereoscopic grid-type water-cooled backboard cooling system of intensive distribution as claimed in claim 1, is characterized in that: the water inlet of described water inlet pipe, the water delivering orifice of rising pipe are all arranged on homonymy.

3. the stereoscopic grid-type water-cooled backboard cooling system of intensive distribution as claimed in claim 2, is characterized in that: the water inlet of described water inlet pipe, the water delivering orifice of rising pipe are all arranged on bottom.

4. the stereoscopic grid-type water-cooled backboard cooling system of intensive distribution as claimed in claim 2, is characterized in that: the water inlet of described water inlet pipe, the water delivering orifice of rising pipe are all arranged on top.

5. the stereoscopic grid-type water-cooled backboard cooling system of intensive distribution as claimed in claim 1, is characterized in that: described radiating fin evenly offers some louvres.

6. the stereoscopic grid-type water-cooled backboard cooling system of the intensity distribution as described in claim 1 or 5, is characterized in that: described radiating fin is aluminum.