CN108770316A - Water cooling back board system - Google Patents

Abstract

The invention discloses water cooling back board systems, including water inlet module, it is set to the refrigerating module and water outlet module of cabinet exhaust outlet, water inlet module includes the header tank for distributing water and the water inlet pipe for conveying chilled water, header tank is connected to water inlet pipe, and multiple water inlet pipes, which are constituted, has the cooling section of at least two annulars；Each cooling section all has refrigerating module, refrigerating module includes heat exchange coil and multigroup cooling water channel, heat exchange coil covers cooling water channel, cooling water channel has water inlet end and water outlet, water inlet end is connected to water inlet pipe, water outlet module includes outlet pipe and header tank, and water outlet is connected to outlet pipe, and outlet pipe is connected to header tank.Being suitable for multiple cabinets the present invention provides one kind to cool down, each cooling water channel uniform flow distribution prevents water route from occurring blocking and can not being cooled down, and realizes the water cooling back board system of cold distribution according to need.

Description

Water cooling back board system

Technical field

The present invention relates to cabinet cooling technology fields, more specifically, it is related to a kind of water cooling back board system.

Background technology

As highdensity data center of China more emerges, energy-saving or reform and application challenge is to computer room Power density and packing density propose new requirement.The single rack of numerous IDC computer rooms and data center or rack local unit Area calorific value steeply rises, so as to cause the generation of the high heat density phenomenon of computer room local pyrexia, for this phenomenon, Just there is corresponding solution：The high heat density refrigeration solution-water cooling back board system of computer room of release.The current water cooling back of the body Plate system there are problems that, when being cooled down to multiple cabinets, system water supply is uneven, each water route there are the even distribution of mass flow discrepancy, Some cabinet is caused to will appear hot issue；If a certain water route blocks, this water route cannot have chilled water to pass through again； The flow adjustment that can not achieve Single Cabinet when the information technoloy equipment in cabinet is not all turned on cannot meet only for unlatching The accurate refrigeration demand of information technoloy equipment cooling.

Invention content

Being suitable for multiple cabinets the purpose of the present invention is to provide one kind to cool down, each cooling water channel uniform flow distribution is prevented Blocking and can not being cooled down occur in sealing road, and realizes the water cooling back board system of cold distribution according to need.

The technical solution adopted by the present invention to solve the technical problems is：Water cooling back board system, including water inlet module, setting In the refrigerating module and water outlet module of cabinet exhaust outlet, water inlet module includes distributing header tank and the conveying freezing of water The water inlet pipe of water, header tank are connected to water inlet pipe, and multiple water inlet pipes, which are constituted, has the cooling section of at least two annulars；It is each cooling Section all has refrigerating module, and refrigerating module includes heat exchange coil and multigroup cooling water channel, and heat exchange coil covers cooling water channel, cold But there is water inlet end and water outlet, water inlet end to be connected to water inlet pipe in water route, and water outlet module includes outlet pipe and header tank, water outlet It is connected to outlet pipe, outlet pipe is connected to header tank.Preferably, the structure all same of cooling water channel.

Water flow can be carried out equivalent distribution by header tank, and water is delivered to cooling by water inlet pipe by water inlet Water route ensures that the flow of each group cooling water channel meets load needs；Meanwhile multiple cooling sections are suitable for multiple cabinets, each Cooling section is loop configuration, and flow remains dynamic balance state, the cooling water channel water flow in each cooling section Equivalent is distributed, and ensures that the cold of each cabinet evenly distributes, some cabinet is avoided hot issue occur.

As a preferred option, each cooling section is arranged in parallel.Preferably, each cooling section equidistantly arranges.It is excellent Choosing, cooling section has three.The number in cooling section is depending on cabinet number.

As a preferred option, it is separated by water inlet pipe between two neighboring cooling section.Preferably, two neighboring cooling It is connected between section and connects different water inlet pipes between the same water inlet pipe or two neighboring cooling section.It is two neighboring cold When but connecting the same water inlet pipe between section, the cooling water channel water inlet end for being located at water inlet pipe both sides is connected to water inlet pipe.It is adjacent When connecting different water inlet pipes between two cooling sections, water inlet pipe only has side to be connected to the water inlet end of cooling water channel.As Preferred scheme, cold-zone section are square structure.

As a preferred option, each cooling section has the two vertically disposed cooling water channels of row, each column cooling water channel shape At one group of cooling unit；There are two groups of cooling units, two groups of cooling units to be set up in parallel in each cooling section, every group of cooling unit It is each equipped with heat exchange coil.

As a preferred option, there is water inlet pipe at least one water inlet, water inlet to be connected to header tank.

As a preferred option, the water inlet end of every group of cooling water channel is equipped with the valve of control inflow.When multiple cabinets The information technoloy equipment not being all turned in either cabinet is not all turned on or according to information technoloy equipment temperature of outgoing air, by valve come It controls the inflow of cooling water channel or opens the number of cooling water channel, to realize the flow adjustment of multimachine cabinet, realize precisely cold Amount distribution.

As a preferred option, the header tank in the header tank and water outlet module in water inlet module is the same header tank.

As a preferred option, there is outlet pipe at least one water outlet, water outlet to be connected to header tank.

As a preferred option, header tank connection water inlet manifold and total return pipe.

The course of work of the present invention：Chilled water is delivered to each cooling water channel by header tank by multiple water inlet pipes, because arbitrary The water inlet of index circuit is connected with header tank with water outlet, so the pressure drop of arbitrary loop is equal, even if on cooling water channel Valve closing also ensure that the pressure drop of arbitrary loop is equal, so flow remains dynamic balance state, in cooling water channel Chilled water is exchanged heat by the hot-air that heat exchange coil is discharged with cabinet, and hot-air is made to cool down, and chilled water is via heat exchange coil It is flowed out from outlet pipe.

The advantage of the invention is that：1, the back board system has multiple cooling sections, is suitable for multiple cabinets, and water inlet pipe is equal It is connected with water collector, is connected with each other between water inlet pipe, formed into water loops, the pressure drop of arbitrary loop is equal, even if cooling water channel On valve closing also ensure that the pressure drop of arbitrary loop is equal, flow remains dynamic balance state, ensures every group of cooling water The inflow on road is balanced.

2, by the way that multigroup cooling unit arranged side by side is arranged, chilled water realizes cooling work(by cooling unit arranged side by side to cabinet Can, when wherein some cooling unit blocks, heat that chilled water can still be discharged cabinet by other cooling units Air cools down.

3, when the information technoloy equipment in cabinet is not all turned on or according to information technoloy equipment temperature of outgoing air, is controlled by valve cold But the inflow in water route realizes that cold precisely distributes to realize the flow adjustment of Single Cabinet.

Description of the drawings

Fig. 1 is the structural schematic diagram of water cooling backboard in embodiment 1.

Fig. 2 is 1 water inlet pipe of embodiment, cooling water channel and outlet pipe connection diagram.

1 water cooling back board system of Fig. 3 embodiments is installed on the schematic diagram of cabinet exhaust outlet.

Fig. 4 embodiments 1 are the first mode of communicating of water inlet pipe and header tank.

Fig. 5 embodiments 1 are second of mode of communicating of water inlet pipe and header tank.

Fig. 6 is the structural schematic diagram of water cooling backboard in embodiment 2.

Fig. 7 is another structural schematic diagram of water cooling backboard in embodiment 2.

It is identified in figure：Water inlet module 1, refrigerating module 2, water outlet module 3, header tank 11, water inlet pipe 12, cooling section 13, Heat exchange coil 21, cooling water channel 22, water inlet end 221, water outlet 222, outlet pipe 31, the first water outlet 311, the second water outlet 312, cooling unit 23, water inlet manifold 111, total return pipe 112, valve 224, water inlet 14, the first water inlet 131, second into The mouth of a river 132, the first cooling unit 231, the second cooling unit 232, the first connecting pipe 113, the second connecting pipe 31.

Specific implementation mode

The present invention is further described with reference to the accompanying drawings and detailed description.

Embodiment 1

As depicted in figs. 1 and 2, a kind of water cooling back board system, including it is set to the water inlet module 1 of cabinet exhaust outlet, refrigerating module 2 With water outlet module 3, water inlet module 1 includes the header tank 11 of distribution water, and the water inlet pipe 12 of conveying chilled water, water inlet pipe 12 It is connected to header tank 11, water inlet pipe 12 constitutes loop configuration with header tank 11；Refrigerating module 2 includes heat exchange coil 21 and multigroup cold But water route 22, cooling water channel 22 are inserted into heat exchange coil 21, and cooling water channel 22 has water inlet end 221 and water outlet 222, water inlet end 221 are connected to water inlet pipe 12, and water outlet module 3 includes outlet pipe 31, and water outlet 222 is connected to outlet pipe 31.Header tank 11 can Water flow is subjected to equivalent distribution, water is delivered to by water inlet pipe 12 by cooling water channel 22 by water inlet 13, is ensured each The flow of group cooling water channel 22 meets load needs；Meanwhile water inlet pipe 12 constitutes closed loop configuration, flow with header tank 11 It remains dynamic balance state, ensures the uniform flow distribution of every group of cooling water channel 22, cabinet is avoided to will appear hot localised points Problem.

Header tank in water inlet module 1 and the header tank in water outlet module 3 are the same header tank 11.As shown in Fig. 2, cold But water route 22 has multigroup, and the water inlet end 221 of every group of cooling water channel 22 is connected to water inlet pipe 12, and every group of cooling water channel 22 goes out Water end (W.E.) 222 is connected to outlet pipe 31, and the chilled water in water inlet pipe 12 passes through cooling water channel 22, is then flowed out from outlet pipe 31. The structure all same of cooling water channel 22.The setting group of cooling water channel 22 it is several according to cabinet dimensions depending on.

As depicted in figs. 1 and 2, same vertically disposed cooling water channel 22 forms cooling unit 23, is equipped with two groups of coolings altogether Unit 23 is set up in parallel between cooling unit 23, and every group of cooling unit 23 is each equipped with heat exchange coil 21.Heat exchange coil uses wing Piece heat exchange of heat pipe, heat exchange principle are：Be cased with fin outside cooling water channel, in cooling water channel the cold of chilled water pass to be sleeved on it is cold But the fin outside water route, the cold of fin pass to the hot-air of fin surface being discharged by cabinet by convection again, To achieve the purpose that cooling air.Traditional backboard cooling system is provided only with a cooling unit, when cooling unit blocks up When plug, can not be by cool down to the hot-air of cabinet discharge, there is hot localised points problem in chilled water, now will be more Group cooling unit 23 is set up in parallel, the area smaller of every group of cooling unit 23 covering, cooling efficiency higher.When one of them or it is more When a heat exchange coil is damaged and can not be worked, other heat exchange coils can continue to carry out cooling work.

Water inlet pipe has the first water inlet 131 and the second water inlet 132, the mode of communicating packet of water inlet pipe 12 and header tank 11 It includes：

The first：First water inlet 131 and the second water inlet 132 directly be connected tos with header tank 11 respectively, using header tank 11 and The mode that water inlet pipe 12 is directly connected to, water inlet pipe 12 is simple in structure, and header tank 11 need to be provided with the hole consistent with water inlet quantity, As shown in Figure 4.

Second：Header tank 11 is connect by the first connecting pipe 113 with water inlet pipe 12, the shunting of the first connecting pipe 113 Water is conveyed to each water inlet.Header tank in this kind of mode is simple in structure, but need to be arranged between header tank and water inlet pipe Y-shaped three-way pipe i.e. the first connecting pipe 113 of one connection header tank 11, the first water inlet 131 and the second water inlet 132, such as Shown in Fig. 5.

Outlet pipe 31 constitutes loop configuration with header tank, and outlet pipe 31 has the first water outlet 311 and the second water outlet 312, the mode of communicating of outlet pipe 31 and header tank 11 be the first water outlet 311 and second be discharged 312 mouthfuls respectively directly with catchment Case 11 is connected to；Alternatively, header tank 11 is connect by the second connecting pipe 313 with outlet pipe 31, the second connecting pipe 313 is Y types Three-way pipe.When certain of a certain water outlet of outlet pipe 31 or outlet pipe 31 blocks, the water after heat exchange avoids blocking pipeline, Pass through the water after another water inlet discharge heat exchange of outlet pipe 31.

The water inlet pipe of traditional conveying chilled water is vertical element structure, and when a certain section of blocking of water inlet pipe, chilled water can not By cooling water channel, to cool down to cabinet.And set water inlet pipe 12 to loop configuration, when 12 a certain sections of water inlet pipe is stifled When plug, chilled water avoids blocking pipeline, and chilled water is conveyed to cooling water channel 22 by another water inlet of water inlet pipe 12.For example, Cooling unit includes the first cooling unit 231 and the second cooling unit 232, and water inlet pipe 12 has the first water inlet 131 and second Water inlet 132, when a certain section of blocking of the first water inlet 131 or water inlet pipe 12, chilled water enters from the second water inlet 132, It is supplied water to each group cooling unit by circulating line.

As shown in Fig. 2, the water inlet end 221 of every group of cooling water channel is equipped with the valve 224 of control inflow.When in cabinet Information technoloy equipment is not all turned on or according to information technoloy equipment temperature of outgoing air, the inflow of cooling water channel 22 is controlled by valve 224 Or the number of cooling water channel is opened, to realize the flow adjustment of Single Cabinet, realize accurate cold distribution.

As shown in Fig. 2, water inlet pipe 12 is square structure.The water inlet pipe 12 of square structure facilitates installation and dismounting.

As shown in figure 3, header tank 11 connects water inlet manifold 111 and total return pipe 112.Header tank 11 connects water inlet manifold 111 with total return pipe 112, and the chilled water in water inlet manifold 111 is exported via header tank 11, then passes through water inlet pipe 12, cooling The water inlet end 221 in water route 22 flows through heat exchange coil 21, exchanges heat with the hot-air of cabinet discharge, then going out from cooling water channel 22 Water end (W.E.) flows out, and is finally flowed out from outlet pipe 31, into header tank 11, is collected to total return pipe 112.

As shown in figure 3, header tank 11, water inlet pipe 12, outlet pipe 31, cooling water channel 22, control valve 224 and heat exchange coil 21 constitute water cooling back board system, are installed on cabinet exhaust outlet.

Embodiment 2

It is that multiple water inlet pipes 12 constitute the cooling section at least two annulars in place of this implementation and the difference of embodiment 1 13, refrigerating module 2 is located in cooling section 13.Multiple cooling sections 13 are suitable for multiple cabinets, and each cooling section 13 is ring Shape structure, flow remain dynamic balance state, 22 water flow equivalent of the cooling water channel distribution in each cooling section 13, Ensure that the cold of each cabinet evenly distributes, some cabinet is avoided hot issue occur.The number in cooling section 13 is according to cabinet Depending on number.

In this implementation, as shown in Figure 6 and Figure 7, water inlet pipe 12 constitutes three cooling sections 13, between each cooling section 13 is waited Away from arranged in parallel.It is separated by water inlet pipe 12 between two neighboring cooling section 13.It is connected between two neighboring cooling section 13 Different water inlet pipes 12 is connected between the same water inlet pipe 12 or two neighboring cooling section 13.As shown in fig. 6, adjacent two When connecting the same water inlet pipe 12 between a cooling section 13, be located at 22 water inlet ends 221 of cooling water channel of 12 both sides of water inlet pipe with Water inlet pipe 12 is connected to.As shown in fig. 7, when connecting different water inlet pipes 12 between two neighboring cooling section 13, each water inlet pipe 12 only sides are connected to the water inlet end 221 of cooling water channel 22.The water inlet pipe 12 of traditional conveying chilled water is vertical element structure, When 12 a certain sections of blockings of water inlet pipe, chilled water can not be by cooling water channel, to be cooled down to cabinet.And by water inlet pipe 12 It is set as loop configuration, when 12 a certain sections of blockings of water inlet pipe, chilled water avoids blocking pipeline, by another water inlet pipe 12 to cold But water route 22 conveys chilled water.

As shown in Figure 6 and Figure 7, each cooling section 13 has the two vertically disposed cooling water channels 22 of row, same vertical row The cooling water channel 22 of row forms one group of cooling unit 23；Each cooling section 13 has two groups of cooling units 23, two groups of cooling lists Member 23 is set up in parallel, and every group of cooling unit 23 is each equipped with heat exchange coil 21.

There is water inlet pipe 12 at least one water inlet 14, water inlet 14 to be connected to header tank 11.As shown in fig. 6, water inlet There are one water inlets 14 for the tool of pipe 12.As shown in fig. 7, there are three water inlets 14 for the tool of water inlet pipe 12.Outlet pipe 31 has at least one Water outlet.Water outlet is connected to header tank 11.

When water cooling back board system works, chilled water enters header tank 11 from water inlet manifold 111, and header tank 11 distributes water and arrives Water inlet pipe 12 enters heat exchange coil 21 by cooling water channel 22, and the chilled water after heat exchange is pooled to out from cooling water channel 22 Water pipe 31 leaves system into header tank 11 from total return pipe 112.Because arbitrary index circuit water inlet with water outlet with collection Water tank 11 is connected, so the pressure drop of arbitrary loop is equal, the valve 224 even if on cooling water channel 22 ensures arbitrary ring closing The pressure drop on road is equal, so flow remains that dynamic balance state, the water operation of each cooling water channel 22 are uniform.

Content described in this specification embodiment is only enumerating to the way of realization of inventive concept, protection of the invention Range is not construed as being only limitted to the concrete form that embodiment is stated, protection scope of the present invention is also and in art technology Personnel according to present inventive concept it is conceivable that equivalent technologies mean.

Claims (10)

1. water cooling back board system, it is characterised in that：Water cooling back board system, including water inlet module, it is set to the cold of cabinet exhaust outlet But module and water outlet module, water inlet module include the header tank for distributing water and the water inlet pipe for conveying chilled water, header tank It is connected to water inlet pipe, multiple water inlet pipes, which are constituted, has the cooling section of at least two annulars；Each cooling section all has cooling mould Block, refrigerating module include heat exchange coil and multigroup cooling water channel, and heat exchange coil covers cooling water channel, and cooling water channel has water inlet end And water outlet, water inlet end are connected to water inlet pipe, water outlet module includes outlet pipe and header tank, and water outlet is connected to outlet pipe, is gone out Water pipe is connected to header tank.

2. water cooling back board system as described in claim 1, it is characterised in that：Pass through water inlet pipe between two neighboring cooling section It separates.

3. water cooling back board system as claimed in claim 2, it is characterised in that：It is connected between two neighboring cooling section same Water inlet pipe.

4. water cooling back board system as claimed in claim 2, it is characterised in that：It is connected between two neighboring cooling section different Water inlet pipe.

5. water cooling back board system as claimed in claim 2, it is characterised in that：Each cooling section has two row vertically disposed Cooling water channel, each column cooling water channel form one group of cooling unit；Each cooling section has two groups of cooling units, two groups of cooling lists Member is set up in parallel, and every group of cooling unit is each equipped with heat exchange coil.

6. water cooling back board system as described in claim 1, it is characterised in that：The water inlet end of every group of cooling water channel is equipped with control The valve of inflow.

7. water cooling back board system as described in claim 1, it is characterised in that：In header tank and water outlet module in water inlet module Header tank be the same header tank.

8. water cooling back board system as described in claim 1, it is characterised in that：Water inlet pipe has at least one water inlet, water inlet Mouth is connected to header tank.

9. water cooling back board system as described in claim 1, it is characterised in that：Outlet pipe has at least one water outlet, water outlet Mouth is connected to header tank.

10. water cooling back board system as described in claim 1, it is characterised in that：Header tank connects water inlet manifold and total return pipe.