CN209297238U - Radiator and water heater composite structure - Google Patents

Abstract

The utility model provides a kind of radiator and water heater composite structure, comprising: hot superconductive plate, inside are formed with interconnected sealed passage, are filled with heat-transfer working medium in sealed passage；Liquid cooling heat radiator is formed with fluid passage positioned at the surface of hot superconductive plate in liquid cooling heat radiator, liquid cooling heat radiator is equipped with inlet and liquid outlet；Water heater main body；Heat exchanger is located in water heater main body；First circulation pipe, one end are connected with inlet, and the other end is connected with heat exchanger；Second circulation pipe, one end are connected with liquid outlet, and the other end is connected with heat exchanger；Circulating pump is located on first circulation pipeline or second circulation pipeline.The utility model is in the case where power device works normally, hot superconductive plate and liquid cooling heat radiator can rationally utilize the heat that power device generates, it can be used for carrying out the cold water in water heater main body heating and generate hot water for hot water for life or heating hot water, energy saving improves quality of the life.

Description

Radiator and water heater composite structure

Technical field

The utility model belongs to technical field of heat transfer, more particularly to a kind of radiator and water heater composite structure.

Background technique

Block chain is the account book database that one and another data block constantly connects, and the account book is by multiple on network Node safeguards jointly, cracks difficulty due to Encryption Algorithm and cryptography, guarantees that its data can not be tampered.Bit coin behind Technology is block chain technology, and the most successful application of block chain at present.

Bit coin is the P2P network based on workload (PoW), is constituted using nodes numerous in entire P2P network distributed Database confirms and records All Activity behavior, and uses the safety for being designed to ensure that money flow links of cryptography Property.Bit coin is to be solved by Computing complicated algorithm according to special algorithm, obtaining particular solution (meeting proof of work) Afterwards, it verifies the newest transaction in the part on bit coin network and is wrapped into deposit new block, then new block can be linked at bit It is broadcasted on coin long-chain and to whole network, after a number of other nodes confirmation for obtaining whole network, or it is newest as block chain Block and it is irreversible.Computer owner can obtain bit coin as reward during this, and here it is the distribution of bit coin Mode, also referred to as digging mine.

The digging mine of bit coin is that have not be that participant can dig, and participant needs faster than whose speed.In bit coin The early stage of development can be run with the CPU of common PC since participant is less and dig mine software digging mine, but increased when participating in digging mine number Add, along with equation solution difficulty increases, needs the GPU based on the numerous stream handles of FPGA, and based on ASIC (integrated electricity Road) profession dig mine chip mine machine, later again developed to concentrates a large amount of mine machines mining site, concentrate network calculation power mine pond.

Digging mine owner will be made of power supply, driving and control panel, calculation power plate and radiator, and one block of calculation power plate is equipped with tens A profession digs mine chip, consumes a large amount of electric energy at runtime, while generating a large amount of heat, and the temperature of chip and energy consumption at Direct ratio.Control inter-chip traces temperature is usually required that within 90 DEG C, when chip node temperature is higher than 110 DEG C, Jiu Huijin Enter self-shield mode and delay machine.By taking the digging mine that 2.7T calculates power calculates power plate as an example, when node temperature is at 80 DEG C, power consumption in 250W, When node temperature rises to 90 DEG C, power consumption is in 320W, when node temperature rises to 100 DEG C, calculates power and drops to 2T, power consumption rises to 350W。

Therefore it digs mine machine and calculates effective heat dissipation of power plate and the reasonable utilization of waste heat, be block chain technology and digging mine machine hair One of core key technology of exhibition.

Utility model content

In view of the foregoing deficiencies of prior art, the purpose of this utility model is to provide a kind of radiator and water heaters Composite structure, the heat-sinking capability for solving radiator in the prior art is limited, cannot be formed to high power device and effectively be dissipated Heat, and then limit the problem of heat that high-power radiator generates rationally utilizes.

In order to achieve the above objects and other related objects, the utility model provides a kind of radiator and water heater combination knot Structure, the radiator and water heater composite structure include:

Hot superconductive plate is formed with interconnected sealed passage in the hot superconductive plate, is filled in the sealed passage Heat-transfer working medium；The hot superconduction plate surface is equipped with heat source installation region；

Liquid cooling heat radiator positioned at the surface of the hot superconductive plate, and is located at except the heat source installation region, the liquid cooling Fluid passage is formed in radiator, the liquid cooling heat radiator is equipped with the inlet being connected with the fluid passage and out liquid Mouthful；

Water heater main body, inside are contained with water to be heated；The water heater main body is equipped with and the water heater main body The water inlet and water outlet that inside is connected；

Heat exchanger is located in the water heater main body；

First circulation pipe, one end are connected with the inlet, and the other end is connected with the heat exchanger；

Second circulation pipe, one end are connected with the liquid outlet, and the other end is connected with the heat exchanger；

Circulating pump is located on the first circulation pipeline or the second circulation pipeline.

As a kind of preferred embodiment of the utility model, the liquid cooling heat radiator includes the first deflector and fluid passage cover board； One surface of the fluid passage cover board is formed with holding tank, and the surface that the fluid passage cover board is formed with the holding tank adheres on described On the surface of hot superconductive plate, to form fluid passage chamber between the fluid passage cover board and the hot superconductive plate；First water conservancy diversion Plate is located in the fluid passage chamber, and is fixed on the surface of the hot superconductive plate, with super in first deflector and the heat The interconnected fluid passage is formed between guide plate and the fluid passage cover board；The inlet and the liquid outlet are respectively positioned on On the fluid passage cover board.

As a kind of preferred embodiment of the utility model, the holding tank includes the first holding tank and the second holding tank, institute It states the first holding tank and second holding tank includes opposite first end and second end；The quantity of first deflector is Two pieces, first deflector is located at first holding tank, and another first deflector is located at described second and accommodates In slot；The inlet is located at the first end of first holding tank, is connected with first holding tank, the liquid outlet position It is connected in the first end of second holding tank, and with second holding tank；The second end of first holding tank and institute The second end for stating the second holding tank is connected.

As a kind of preferred embodiment of the utility model, first deflector includes:

Several the first flow guide bars, first flow guide bar is along perpendicular to the first holding tank first end to described first The direction of holding tank second end is wave-shaped or square-wave-shaped extends, and several articles of first flow guide bars are along first holding tank the One end to the first holding tank second end direction parallel arrangement；

First connecting portion, positioned at the both ends of first flow guide bar, and with each equal integrally connected of first flow guide bar.

As a kind of preferred embodiment of the utility model, first deflector includes several flat first water conservancy diversion Item, several first flow guide bars are along perpendicular to the first holding tank first end to the side of the first holding tank second end It arranges to parallel interval.

As a kind of preferred embodiment of the utility model, the radiator and water heater composite structure further include:

First radiating fin positioned at an at least surface for the hot superconductive plate, and is located at except the heat source installation region, The first heat dissipation channel of several parallel intervals arrangement is formed in first radiating fin；

Second radiating fin, the surface positioned at the liquid cooling heat radiator far from the hot superconductive plate；Second radiating fin The second heat dissipation channel of several parallel intervals arrangement, second heat dissipation channel and first heat dissipation channel are formed in piece It is parallel；

Partition, the partition are placed on the hot superconductive plate, and the hot superconductive plate is divided into first part and Two parts；Wherein, the first part is located at the top of the partition, and the second part is located at the lower section of the partition；Institute The surface that the first radiating fin is located at the first part is stated, the liquid cooling heat radiator is located at the surface of the first part；Institute State the surface that heat source installation region is located at the second part；

Power device, the power device is located at the surface of the hot superconductive plate, and is located in the heat source installation region；

Seal case, the seal case side are formed with opening, and the seal case is placed on institute via the opening State the periphery of power device and the second part；The width of the opening is less than or equal to the width of the partition, the opening Length be less than or equal to the partition length.

As a kind of preferred embodiment of the utility model, the radiator and water heater composite structure further include:

Shell is placed on the hot superconductive plate, the liquid cooling heat radiator, first radiating fin and second heat dissipation The top and outside of fin, to form air duct between the shell in the hot superconductive plate；

An at least fan is located at first radiating fin one end, and is located at the hull outside, the outlet air of the fan Facing towards first radiating fin, and it is perpendicular with the extending direction of first heat dissipation channel.

As a kind of preferred embodiment of the utility model, the power device includes that virtual digit coin digs mine machine calculation power chip Group plate.

As a kind of preferred embodiment of the utility model, the radiator and water heater composite structure further include:

Electric heating system, the electric heating system include: heating device and electric connection line, and the heating device is located at described In water heater main body；Described electric connection line one end is connected with the heating device；

Temperature probe, one end are inserted in the water heater main body.

As a kind of preferred embodiment of the utility model, the radiator and water heater composite structure further include circulating liquid Tank is contained with circulating liquid inside the circulating liquid tank；The described one end of first circulation pipeline far from the inlet via The circulating liquid tank is connected with the heat exchanger.

As a kind of preferred embodiment of the utility model, the hot superconductive plate includes: annular peripheral frame, the first cover board, second Cover board and at least one second deflector；Wherein,

First cover board adheres on a surface of the annular peripheral frame, and second cover board adheres on the annular edge On surface of the frame far from first cover board, to form sealed chamber between first cover board and second cover board；

Second deflector is located in the sealed chamber；Second deflector includes several between first direction Every the protrusion arranged and extended in a second direction, wherein the first direction and the second direction are perpendicular, the first party The bottom integrally connected of the upward adjacent protrusion, and there is gap on the inside of the protrusion and between the adjacent protrusion, so that It obtains and forms the sealed passage between second deflector and first cover board and second cover board.

As a kind of preferred embodiment of the utility model, the hot superconductive plate includes at least two pieces of second deflectors, The length of second deflector is identical as the length on the inside of the annular peripheral frame；Between having between adjacent second deflector Gap, to form the first balance channel of the heat-transfer working medium, first balance channel between adjacent second deflector Extend along the first direction；Between second deflector closed on the annular peripheral frame and the annular peripheral frame have Gap, to form the second balance channel of the heat-transfer working medium between second deflector and the annular peripheral frame, described Two balance channels extend along the first direction；The height of second deflector is identical as the height of the annular peripheral frame.

As a kind of preferred embodiment of the utility model, the side wall of the protrusion is equipped with several deflector holes, described to lead Discharge orifice runs through second deflector along the thickness direction of second deflector.

As a kind of preferred embodiment of the utility model, an at least preset clearance is equipped in second deflector；It is described Hot superconductive plate further includes an at least cushion block, and the cushion block is located in the preset clearance；The height of the cushion block and described second The height of deflector is identical, and the first installation through-hole penetrated through along its short transverse is equipped in the cushion block；First cover board On be additionally provided at least one the second installation through-hole along the perforation of its thickness direction, second installation through-hole and first installation are logical Hole is correspondingly arranged；At least one third installation through-hole along the perforation of its thickness direction, the third are additionally provided on second cover board Installation through-hole is correspondingly arranged with first installation through-hole.

As a kind of preferred embodiment of the utility model, an at least preset clearance is equipped in second deflector；It is described First cover board or second cover board are equipped with an at least punching press boss, and the punching press boss is from first cover board or described the The inner surface of two cover boards is convexly equipped in the prepsetting gap, the height phase of the height of the punching press boss and second deflector Together, and the first installation through-hole penetrated through along its short transverse, second cover board or described first are equipped in the punching press boss At least one the second installation through-hole along the perforation of its thickness direction, second installation through-hole and first peace are additionally provided on cover board Dress through-hole is correspondingly arranged.

As a kind of preferred embodiment of the utility model, the hot superconductive plate includes:

First cover board；

Second cover board, including cover plate main body and annular convex edge, the annular convex edge and the cover plate main body integrally connected；Institute It states the first cover board to adhere on surface of the annular convex edge far from the cover plate main body, in first cover board and the lid Sealed chamber is formed between plate main body；

At least one second deflector is located in the sealed chamber；Second deflector includes several along first party To the protrusion for being intervally arranged and extending in a second direction, wherein the first direction and the second direction are perpendicular, and described The bottom integrally connected of the adjacent protrusion on one direction, and there is gap on the inside of the protrusion and between the adjacent protrusion, So that forming the sealed passage between second deflector and first cover board and second cover board.

As a kind of preferred embodiment of the utility model, the hot superconductive plate includes at least two pieces of second deflectors, The length of second deflector is identical as the length on the inside of the annular convex edge；Between having between adjacent second deflector Gap, to form the first balance channel of the heat-transfer working medium, first balance channel between adjacent second deflector Extend along the first direction；Between second deflector closed on the annular convex edge and the annular convex edge have Gap, to form the second balance channel of the heat-transfer working medium between second deflector and the annular convex edge, described Two balance channels extend along the first direction；The height of second deflector is identical as the height of the annular convex edge.

As a kind of preferred embodiment of the utility model, the side wall of the protrusion is equipped with several deflector holes, described to lead Discharge orifice runs through second deflector along the thickness direction of second deflector.

As a kind of preferred embodiment of the utility model, an at least preset clearance is equipped in second deflector；It is described Hot superconductive plate further includes an at least cushion block, and the cushion block is located in the preset clearance；The height of the cushion block and described second The height of deflector is identical, and the first installation through-hole penetrated through along its short transverse is equipped in the cushion block；First cover board On be additionally provided at least one the second installation through-hole along the perforation of its thickness direction, second installation through-hole and first installation are logical Hole is correspondingly arranged；At least one third installation through-hole along the perforation of its thickness direction, the third are additionally provided on second cover board Installation through-hole is correspondingly arranged with first installation through-hole.

As a kind of preferred embodiment of the utility model, an at least preset clearance is equipped in second deflector；It is described First cover board or second cover board are equipped with an at least punching press boss, and the punching press boss is from first cover board or described the The inner surface of two cover boards is convexly equipped in the prepsetting gap, the height phase of the height of the punching press boss and second deflector Together, and the first installation through-hole penetrated through along its short transverse, second cover board or described first are equipped in the punching press boss At least one the second installation through-hole along the perforation of its thickness direction, second installation through-hole and first peace are additionally provided on cover board Dress through-hole is correspondingly arranged.

As described above, the radiator and water heater composite structure of the utility model, have the advantages that

1. by the surface that power device is adhered on to hot superconductive plate, and the setting of hot superconduction plate surface by circulation pipe with The liquid cooling heat radiator that circulating liquid tank is connected, and recycle tube portion and be located in water heater main body, it is worked normally in power device In the case where, hot superconductive plate and liquid cooling heat radiator can rationally utilize the heat that power device generates, and can be used for hot water Cold water in device main body carries out heating and generates hot water for hot water for life or heating hot water, and energy saving improves quality of the life；

2. power device select virtual digit coin dig mine machine calculate power chipset plate, reasonably by virtual digit coin dig mine machine and Radiator and water heater composite structure both functions combine, and other than power device needs electric energy, do not need additional Electric energy heats the intracorporal cold water of water heater master, the case where consuming same electric energy, that is, can produce and digs mine operation generation Income, and can will dig the heat that mine machine calculation power chipset plate produces and be used to heat cold water, to generate hot water for life heat Water or heating hot water；

3. the first deflector is arranged in liquid cooling heat radiator, deflector increases heat exchange area, to mention in addition to enhancing liquid perturbation Outside high heat-sinking capability, the effect of reinforcing rib is also acted as, can reduce the thickness of liquid cooling cover board, to mitigate the entirety weight of radiator Amount；

4. being filled with heat-transfer working medium in hot superconductive plate inner seal chamber body, inhibit by heat-transfer working medium phase-change heat transfer or phase transformation Heat transfer, forms the hot superconducting characteristic of quick conductive, and equivalent heat conductivity makes entire hot superconductive plate temperature up to 4000W/m DEG C or more Degree uniformly, reduces the maximum temperature of the temperature difference and radiator between each power device；

5. it can be radiated using water cooling and air-cooled two kinds of forced heat radiation modes to power device by setting fan, Hot superconductive plate is thermally conductive fast again, and temperature is uniform, makes total small in size, light-weight under same radiating condition, can be very Big heat heat exchange is realized under low wind speed, achievees the purpose that low noise or mute；Meanwhile using air-cooled and two heat dissipation systems of liquid cooling System, after the intracorporal cold water of water heater master is heated to predetermined temperature, circulating pump stops working, and liquid cooling heat radiator stops dissipating Heat has higher reliability at this point, starting fan, the radiating mode of power device are switched to air-cooled mode by water cooling naturally；

6. being welded with radiating fin on hot superconductive plate, hot superconductive plate can be conducted the heat come quickly by sky by radiating fin Gas is taken away and is dissipated, and radiating fin is the heat exchange area increased with air, reduces system thermal resistance, improves heat-sinking capability, again Play the role of reinforcing hot superconductive plate, to reduce the material thickness of hot superconductive plate, improves intensity, mitigate weight, reduce cost；It adopts With the mode of welding by both sides radiating fin, it is existing because of radiating fin excessive height, radiating fin to avoid traditional Section Bar Heat Sinks The low defect of tail end radiating efficiency, improves the radiating efficiency of radiating fin；

7. power device is set to two opposite surfaces of hot superconductive plate, compact-sized, small in size, good heat dissipation effect；

8. partition is arranged on hot superconductive plate, hot superconductive plate is divided into upper and lower first part and second part, position by partition Power device is set in the second part surface of lower section, and is sealed second part by setting seal case, realizes power device Totally-enclosed, raising degree of protection and the reliability of part；

9. being seal cavity inside hot superconductive plate, and be equipped with the second deflector, internal second deflector the first cover board and Second cover board welds together, that is, plays booster action, applies two sides cover sheet thickness and is thinned, and bearing capacity increases, and intensity improves, and subtracts The weight and thickness of slight fever superconductive plate, and the heat exchange area inside increase, enhance the hot superconduction capacity of heat transmission；

10. heat exchanger and two jacket heating system of electric heating system can be used to hot water by setting electric heating system The intracorporal cold water of device master heats, and when one of break down, another can replace work, with higher reliable Property.

Detailed description of the invention

Fig. 1 and Fig. 2 is shown as the solid of the radiator provided in the utility model embodiment one and water heater composite structure Structural schematic diagram.

Fig. 3 is shown as part-structure in the radiator provided in the utility model embodiment one and water heater composite structure Configuration schematic diagram.

Fig. 4 is shown as part-structure in the radiator provided in the utility model embodiment one and water heater composite structure Schematic perspective view.

Fig. 5 to Fig. 7 is shown as the liquid in the radiator provided in the utility model embodiment one and water heater composite structure The schematic perspective view of cold heat sink.

Fig. 8 is shown as the hot superconductive plate in the radiator provided in the utility model embodiment one and water heater composite structure Configuration schematic diagram.

Fig. 9 is shown as the hot superconductive plate in the radiator provided in the utility model embodiment one and water heater composite structure Schematic perspective view.

Figure 10 to Figure 15 is shown as in the radiator provided in the utility model embodiment one and water heater composite structure The structural schematic diagram of different exemplary deflectors in hot superconductive plate；Wherein, Figure 11 be Figure 10 front view, Figure 13 be Figure 12 just View, Figure 15 are the front view of Figure 14.

Figure 16 is shown as the radiator provided in the utility model embodiment one and water heater composite structure marginal portion Partial cross section's structural schematic diagram.

Figure 17 to Figure 21 is shown as in the radiator provided in the utility model embodiment one and water heater composite structure not With the schematic perspective view of exemplary radiating fin.

Figure 22 is shown as having in the radiator provided in the utility model embodiment two and water heater composite structure reserved The configuration schematic diagram of the hot superconductive plate in gap.

Figure 23, which is shown as the radiator provided in the utility model embodiment two and water heater composite structure, has cushion block portion The partial cross section's structural schematic diagram divided.

Figure 24 is shown as having punching press in the radiator provided in the utility model embodiment two and water heater composite structure The configuration schematic diagram of the hot superconductive plate of boss.

Figure 25 is shown as the hot superconduction in the radiator provided in the utility model embodiment three and water heater composite structure The configuration schematic diagram of plate.

Figure 26 is shown as the hot superconduction in the radiator provided in the utility model embodiment three and water heater composite structure Deflector in plate is placed in the overlooking structure diagram in annular peripheral frame.

Figure 27 is shown as having in the radiator provided in the utility model embodiment four and water heater composite structure reserved The configuration schematic diagram of the hot superconductive plate of gap and cushion block.

Figure 28 is shown as the hot superconduction in the radiator provided in the utility model embodiment four and water heater composite structure Deflector in plate is placed in the overlooking structure diagram in annular peripheral frame.

Figure 29 is shown as having punching press in the radiator provided in the utility model embodiment four and water heater composite structure The configuration schematic diagram of the hot superconductive plate of boss.

Figure 30 is shown as the hot superconduction in the radiator provided in the utility model embodiment five and water heater composite structure The configuration schematic diagram of plate.

Figure 31 is shown as having in the radiator provided in the utility model embodiment six and water heater composite structure reserved The configuration schematic diagram of the hot superconductive plate in gap.

Figure 32 is shown as the hot superconduction in the radiator provided in the utility model embodiment seven and water heater composite structure The configuration schematic diagram of plate.

Figure 33 is shown as hot superconductive plate in the radiator provided in the utility model embodiment seven and water heater composite structure In deflector be located at the overlooking structure diagram on the inside of the annular convex edge of the second cover board.

Figure 34 is shown as having in the radiator provided in the utility model embodiment eight and water heater composite structure reserved The configuration schematic diagram of the hot superconductive plate of gap and cushion block.

Figure 35 is shown as hot superconductive plate in the radiator provided in the utility model embodiment eight and water heater composite structure In deflector be located at the overlooking structure diagram on the inside of the annular convex edge of the second cover board.

Figure 36 is shown as having punching press in the radiator provided in the utility model embodiment eight and water heater composite structure The configuration schematic diagram of the hot superconductive plate of boss.

Component label instructions

10 hot superconductive plates

100 first cover boards

101 second cover boards

1011 cover plate main bodies

1012 annular convex edges

102 annular peripheral frames

1021 filling aperture

103 second deflectors

1031 protrusions

1032 deflector holes

1033 second flow guide bars

1034 second connecting portions

1035 preset clearances

104 first solder layers

105 second solder layers

106 sealed passages

1061 heat-transfer working mediums

107 first balance channels

108 second balance channels

109 cushion blocks

110 first installation through-holes

111 second installation through-holes

112 third installation through-holes

113 punching press boss

114 filling tubes

115 third solder layers

116 the 4th solder layers

117 first parts

118 second parts

119 heat source installation regions

20 first radiating fins

201 first heat dissipation channels

202 L shape fins

203 stiffeners

204 heat sink strips

30 liquid cooling heat radiators

301 first deflectors

3011 first flow guide bars

3012 first connecting portions

302 fluid passage cover boards

3021 first holding tanks

3022 second holding tanks

3023 inlets

3024 liquid outlets

401 fans

402 shells

403 partitions

404 power devices

405 seal cases

50 second radiating fins

501 second heat dissipation channels

60 water heater main bodys

601 water outlets

602 water

701 heat exchangers

702 first circulation pipes

703 second circulation pipes

704 circulating pumps

705 circulating liquid tanks

706 circulating liquids

801 electric heater units

802 electric connection lines

803 temperature probes

Specific embodiment

The embodiments of the present invention is illustrated by particular specific embodiment below, those skilled in the art can be by this Content disclosed by specification understands other advantages and effect of the utility model easily.

Please refer to Fig.1 to Fig.3 6.It should be clear that this specification structure depicted in this specification institute accompanying drawings, ratio, size etc., are only used To cooperate the revealed content of specification, so that those skilled in the art understands and reads, it is practical new to be not limited to this The enforceable qualifications of type, therefore do not have technical essential meaning, the modification of any structure, the change of proportionate relationship or size Adjustment it is practical new should all still to fall in this in the case where not influencing the effect of the utility model can be generated and the purpose that can reach The revealed technology contents of type obtain in the range of capable of covering.Meanwhile in this specification it is cited as "upper", "lower", " left side ", The term on " right side ", " centre " and " one " etc. is merely convenient to being illustrated for narration, rather than enforceable to limit the utility model Range, relativeness are altered or modified, under the content of no substantial changes in technology, enforceable when being also considered as the utility model Scope.

Embodiment one

Please refer to Fig. 1 to Figure 15, the utility model provides a kind of radiator and water heater composite structure, the radiator and Water heater composite structure includes: hot superconductive plate 10, is formed with interconnected sealed passage 106, institute in the hot superconductive plate 10 It states in sealed passage 106 filled with heat-transfer working medium 1061；10 surface of hot superconductive plate is equipped with heat source installation region 119；Liquid Cold heat sink 30, the night cold heat sink 30 is located at the surface of the hot superconductive plate 10, and is located at the heat source installation region 119 Except, fluid passage is formed in the liquid cooling heat radiator 30, the liquid cooling heat radiator 30 is equipped with and the fluid passage phase The inlet 3023 and liquid outlet 3024 of connection；Water heater main body 60 is contained with inside the water heater main body 60 to be heated Water 602；The water heater main body 60 is equipped with the water inlet (not shown) being connected inside the water heater main body 60 and out The mouth of a river 601；Heat exchanger 701, the heat exchanger 701 are located in the water heater main body 60；First circulation pipe 702, it is described 702 one end of first circulation pipeline is connected with the inlet 3023, and the other end is connected with the heat exchanger 701；Second Circulation pipe 703, described 703 one end of second circulation pipe are connected with the liquid outlet 3024, the other end and the heat exchanger 701 It is connected；Circulating pump 704, the circulating pump 704 are located on the first circulation pipeline 702 or the second circulation pipeline 703.

It should be noted that hot super heat conduction includes filling work in closed interconnected micro-channel system Medium realizes the hot pipe technique of hot superconductive heat transfer by the evaporation of working media with condensation phase transformation；And pass through control enclosed system Middle working media micro-architectural state, i.e., in diabatic process, the boiling (or condensation of gaseous medium) of liquid medium is suppressed, and Reach the consistency of working medium micro-structure on this basis, and realizes the phase transformation of efficient heat transfer and inhibit (PCI) heat transfer technology.This implementation In example, the hot superconductive plate can inhibit heat sink for phase transformation, at this point, the heat-transfer working medium in the hot superconductive plate is conducting heat During boil or condensation is suppressed, and reach the consistency of working medium micro-structure on this basis and realize heat transfer.This implementation In example, the hot superconductive plate may be adopting heat pipes for heat transfer plate, at this point, the heat-transfer working medium in the hot superconductive plate was conducting heat It is carried out continuously evaporation endothermic in journey and condenses exothermic phase transformation circulation to realize flash heat transfer.

As an example, the heat-transfer working medium 1061 is fluid, it is preferable that the heat-transfer working medium 1061 can be gas or liquid The mixture of body or gas and liquid, it is further preferable that in the present embodiment, the heat-transfer working medium 1061 is the mixed of liquid and gas Close object.

As an example, the liquid cooling heat radiator 30 includes the first deflector incorporated by reference to Fig. 1 with continued reference to shown in Fig. 5 to Fig. 7 301 and fluid passage cover board 302；One surface of the fluid passage cover board 302 is formed with holding tank, and the fluid passage cover board 302 is formed The surface for stating holding tank adheres on the surface of the hot superconductive plate 10, in the fluid passage cover board 302 and the hot superconductive plate Fluid passage chamber is formed between 10；First deflector 301 is located in the fluid passage chamber, and is fixed on the hot superconductive plate 10 Surface, between first deflector 301 and the hot superconductive plate 10 and the fluid passage cover board 302 formed be interconnected The fluid passage；The inlet 3023 and the liquid outlet 3024 are respectively positioned on the fluid passage cover board 302；The feed liquor Mouth 2034 is connected with an inlet tube 119, and the liquid outlet 3024 is connected with an outlet tube 120.

As an example, the holding tank includes the first holding tank 3021 and the second holding tank 3022, first holding tank 3021 and second holding tank 3022 include opposite first end and second end；The quantity of first deflector 301 is Two pieces, first deflector 301 is located at first holding tank 3021, and another first deflector 301 is located at In second holding tank 3022；The inlet 3023 is located at the first end of first holding tank 3021, with described first Holding tank 3021 is connected, and the liquid outlet 3024 is located at the first end of second holding tank 3022, and holds with described second Slot 3022 of receiving is connected；The second end of first holding tank 3021 is connected with the second end of second holding tank 3022.

In one example, as shown in Figures 5 and 6, first deflector 301 includes: several the first flow guide bars 3011 And first connecting portion 3012, first flow guide bar 3011 is along perpendicular to 3021 first end of the first holding tank to described first The direction of 3021 second end of holding tank is wave-shaped or square-wave-shaped extends, and several first flow guide bars 3011 are along described first 3011 first end of holding tank to 3011 second end of the first holding tank direction parallel arrangement；Specifically, holding with described first Receiving the direction of 3021 first end of slot to 3021 first end of the first holding tank is that the length direction of the fluid passage cover board 302 is Example, several described first flow guide bars 3011 are wave-shaped along the width direction of the fluid passage cover board 302 or square-wave-shaped extends, and Length direction parallel arrangement of several described first flow guide bars 3011 along the fluid passage cover board 302；The first connecting portion 3012 be located at first flow guide bar 3011 both ends, and with the equal integrally connected of each first flow guide bar 3011.

In another example, as shown in fig. 7, first deflector 301 includes several flat first flow guide bars 3011, several first flow guide bars 3011 are along perpendicular to 3021 first end of the first holding tank to first holding tank The direction parallel interval of 3021 second ends is arranged；Specifically, being accommodated with 3021 first end of the first holding tank to described first The direction of 3021 first end of slot is several 3011 edges of the first flow guide bar for the length direction of the fluid passage cover board 302 The length direction of the fluid passage cover board 302 extends, and arranges along the width direction parallel interval of the fluid passage cover board 302.

As an example, as can be seen from figures 8 and 9, the hot superconductive plate 10 includes: annular peripheral frame 102, the first cover board 100, Two cover boards 101 and at least one second deflector 103, wherein first cover board 100 adheres on the one of the annular peripheral frame 102 On surface, second cover board 101 is adhered on surface of the annular peripheral frame 102 far from first cover board 100, in institute It states and forms sealed chamber between the first cover board 100 and second cover board 101；Second deflector 103 is located at the sealing In chamber；Second deflector 103 includes the protrusion that several are intervally arranged along first direction and extend in a second direction 1031, wherein the first direction and the second direction are perpendicular, the bottom of the adjacent protrusion 1031 on the first direction Portion's integrally connected, and there is gap between 1031 inside of the protrusion and the adjacent protrusion 1031, so that described second leads Interconnected sealed passage 106 is formed between flowing plate 103 and first cover board 100 and second cover board 101；It is described close It seals and is filled with heat-transfer working medium 1061 in channel 106.It should be noted that the direction that the arrow a in Figure 10, Figure 12 and Figure 14 is indicated The as described first direction, the direction that arrow b is indicated is the second direction；The first direction can lead for described second The length direction of flowing plate 103, the second direction is the width direction of second deflector 103, the first direction at this time Or the width direction of second deflector 103, the second direction is the length of second deflector 103 at this time Direction.

It should be noted that due on the inside of the annular peripheral frame 102 be hollow area, first cover board 100 with it is described It, can be in first cover board 100, second cover board after second cover board, 101 note is placed in the upper and lower surface of the annular peripheral frame 102 101 and the annular peripheral frame 102 on the inside of formed an airtight chamber.

The bottom integrally connected of the adjacent protrusion 1031 on the specific first direction, and 1031 lower section of the protrusion And there is gap between the adjacent protrusion 1031, it can thus make second deflector 103 to be in along its length The convex-concave shape of alternate intervals is arranged.

As an example, as shown in figure 16, the hot superconductive plate 10 further includes the first solder layer 104 and the second solder layer 105； Wherein, first solder layer 104 is located at first cover board 100 and the annular peripheral frame 102 and second deflector 103 Between, first cover board 100 and the annular peripheral frame 102 and second deflector 103 are welded together；Described Two solder layers 105 are between second cover board 101 and the annular peripheral frame 102 and second deflector 103, by institute The second cover board 101 is stated to weld together with the annular peripheral frame 102 and second deflector 103.

As an example, the height of second deflector 103 is identical as the height of the annular peripheral frame 102.By described The height of two deflectors 103 is set as identical as the height of the annular peripheral frame 102, it can be ensured that second deflector 103 Reach maximum with the bonding area of first solder layer 104 and second solder layer 105, to increase weld strength.

As an example, as shown in figure 8, the side of the annular peripheral frame 102 is equipped with the filling aperture 1021 through side wall.It is described After first cover board 100, second cover board 101 and the annular peripheral frame 102 and second deflector 103 weld together, The filling aperture 1021 is inserted into one end of one filling tube 114 to fill the heat-transfer working medium into the sealed passage 106 1061.After the populated heat-transfer working medium 1061, the filling aperture 1021 should be enclosed so that the sealed passage 106 is realized Sealing.

In one example, second deflector 103 can be but be not limited only to one piece of plate stamping and form, such as Fig. 8 and Shown in Figure 10, the length of second deflector 103 is identical as the length of 102 inside of annular peripheral frame, and described second leads The width of flowing plate 103 is of same size with 102 inside of annular peripheral frame；The side wall of the protrusion 1031 is equipped with several and leads Discharge orifice 1032, the deflector hole 1032 run through second deflector 103 along the thickness direction of second deflector 103.Tool Body, as shown in Figures 10 and 11, along the first direction, second deflector 103 can extend in square-wave-shaped, i.e., described Second deflector 103 includes several along the protrusion 1031 that first direction is intervally arranged, and the phase along the first direction The bottom of the adjacent protrusion 1031 is connected with each other, and concave between the adjacent protrusion 1031.Certainly, in other examples, Second deflector 103 wave-shaped can also extend along the first direction, but preferably described second deflector, 103 edge The first direction extends in square-wave-shaped, may insure upper surface (the i.e. described protrusion 1031 of second deflector 103 in this way Top surface) and lower surface (bottom surface of the recess portion between the i.e. adjacent protrusion 13) in planar, may insure so described The contact area of second deflector 103 and first solder layer 104 and second solder layer 105 is as big as possible, to mention High weld strength.First cover board 100, second cover board 101 and the annular peripheral frame 102 and second deflector It is gap between the protrusion 1031 of second deflector 103 and second solder layer 105, described after 103 weld together Gap between recess and first solder layer 104 and the deflector hole 1032 between protrusion 1031 collectively form described Sealed passage 106.In this example, second deflector 103 is run through along the second direction in the protrusion 1031, i.e., described Protrusion 1031 extends through second deflector 103 along the second direction, that is, the length of the protrusion 1031 with it is described Second direction is identical.Several deflector holes 1032, the institute on each protrusion 1031 are equipped on each protrusion 1031 It states extending direction of the deflector hole 1032 along the protrusion 1031 to arrange in uniline or higher order interlace, and each 1031 two sides of the protrusion Side wall on be equipped with the deflector hole 1032.The deflector hole 1032 on each protrusion 1031 can be as shown in Figure 10 It is arranged in a one-to-one correspondence, can also misplace arrangement.Due to the second deflector 103 described in the second direction and first weldering There is enough gaps, the heat-transfer working medium 1061 is along the second direction between the bed of material 104 and second solder layer 105 On flowing it is very smooth, and the heat-transfer working medium 1061 is along the first direction (side that the i.e. described protrusion 1031 is intervally arranged To) on circulation be obstructed, by the way that the deflector hole 1032 is arranged on the protrusion 1031, the heat-transfer working medium can be increased 1061 along the first direction flowing, to increase heat-transfer effect on the first direction, so that the heat-transfer working medium 1061 have almost the same mobility along the first direction and along the second direction, so that the entire hot superconductive plate All directions heat dissipation effect having the same, so that the temperature of described 10 each region of hot superconductive plate is identical, and then effectively It avoids causing the hair of the 10 regional area superheating phenomenon of hot superconductive plate since some or multiple directions heat dissipation effect are bad It is raw.

In another example, as shown in FIG. 12 and 13, second deflector 103 includes: several along described second The second flow guide bar 1033 and second connecting portion 1034 of direction parallel arrangement, second flow guide bar 1033 include several along institute State the protrusion 1031 that first direction is intervally arranged；Second flow guide bar 1033 and the annular peripheral frame positioned at two sides 102 inside is in contact；The second connecting portion 1034 is located at the both ends of second flow guide bar 1033, and with described in several Second flow guide bar 1033 is in integrally connected；Side and institute of the second connecting portion 1034 far from second flow guide bar 1033 The inside for stating annular peripheral frame 102 is in contact.In this example, the width of second deflector 103 and the annular peripheral frame 102 Inside it is of same size, the length of second deflector 103 is identical as the length of 102 inside of the annular peripheral frame.Described Two flow guide bars 1033 can prolong along the first direction (length direction of generally described second flow guide bar 1033) in square-wave-shaped It stretches, wave-shaped can also extend, i.e., described second flow guide bar 1033 includes what several were intervally arranged along the first direction The protrusion 1031, the bottom of the adjacent protrusion 1031 is connected with each other along the first direction, and the adjacent protrusion It is concave between 1031.Preferably, in the present embodiment, second flow guide bar 1033 prolongs along the first direction in square-wave-shaped It stretches, may insure that the upper surface and the lower surface of second flow guide bar 1033 is plane in this way, that is, ensure second water conservancy diversion The upper surface (top surface of the i.e. described protrusion 1031) of plate 103 and lower surface (i.e. the surface opposite with the top of the protrusion 1031) In planar, second deflector 103 and first solder layer 104 and second solder layer may insure in this way 105 contact area is as big as possible, to improve weld strength.First cover board 100, second cover board 101 with it is described After annular peripheral frame 102 and second deflector 103 weld together, the protrusion 1031 of second flow guide bar 1033 with it is described The gap between the recess and first solder layer 104 between gap, the protrusion 1031 between second solder layer 105 And the gap between adjacent second flow guide bar 1033 collectively forms the sealed passage 106.

As an example, the protrusion 1031 on adjacent two rows second flow guide bar 1033 can be arranged in a one-to-one correspondence, Institute i.e. along the second direction (i.e. second flow guide bar 1033 arrange direction), on the second flow guide bar 1033 described in each item Protrusion 1031 is stated to be arranged in a one-to-one correspondence.Certainly, in other examples, described convex on adjacent two rows second flow guide bar 1033 Portion 1031 can also shift to install, and the protrusion 1031 on so-called adjacent two rows second flow guide bar 1033, which shifts to install, is Refer to, the side of the protrusion 1031 on adjacent two rows second flow guide bar 1033 is staggered, as shown in FIG. 12 and 13；It is adjacent The distance that the protrusion 1031 of two rows of second flow guide bars 1033 misplaces can be less than the width of the protrusion 1031, such as Figure 12 and Shown in Figure 13, the distance that the protrusion 1031 of adjacent two rows second flow guide bar 1033 misplaces can also be equal to the protrusion 1031 Width, at this point, the second flow guide bar described in the protrusion 1031 of the second flow guide bar 1033 described in a row and a row adjacent thereto Recess alignment between 1033 protrusion 1031.It should be noted that the institute on adjacent two rows second flow guide bar 1033 When stating protrusion 1031 and shifting to install, be arranged in a one-to-one correspondence every the protrusion 1031 arranged on second flow guide bar 1033, i.e., it is odd Number arranges the protrusion on the second flow guide bar 1033 described in the protrusion 1031 and even rows on second flow guide bar 1033 1031 shift to install, and the protrusion 1031 on the second flow guide bar 1033 described in each odd row is arranged in a one-to-one correspondence, each even number The protrusion 1031 arranged on second flow guide bar 1033 is also arranged in a one-to-one correspondence.

As an example, the side wall of the protrusion 1031 can be equipped with deflector hole 1032, described as shown in Figure 14 and Figure 15 Deflector hole 1032 runs through second flow guide bar 1033 along the thickness direction of second flow guide bar 1033.Due to along described second Have between second flow guide bar 1033 and first solder layer 104 and second solder layer 105 on direction enough Gap, the heat-transfer working medium 1061 is very smooth in the flowing in the second direction, and the heat-transfer working medium 1061 is along institute The circulation for stating first direction (direction that i.e. described second flow guide bar 1033 extends) is obstructed, by being arranged on the protrusion 1031 The deflector hole 1032 can increase the heat-transfer working medium 1061 along the flowing of the first direction, to increase along described the Heat-transfer effect on one direction, so that the heat-transfer working medium 1061 has almost along the first direction and along the second direction Identical mobility, so that entire hot 10 all directions of superconductive plate heat dissipation effect having the same, so that the heat The temperature of 10 each region of superconductive plate is identical, and then effectively avoids causing since some or multiple directions heat dissipation effect are bad The generation of the 10 regional area superheating phenomenon of hot superconductive plate.

As an example, being equipped on the side wall of each 1031 two sides of protrusion on each second flow guide bar 1033 The deflector hole 1032, the deflector hole on the direction that second flow guide bar 1033 extends, each protrusion 1031 1032 as shown in figure 14 can be arranged in a one-to-one correspondence, and can also misplace arrangement.

As an example, please continue to refer to Fig. 1 to Fig. 4, the radiator and water heater composite structure further include: the first heat dissipation Fin 20, first radiating fin 20 is located at an at least surface for the hot superconductive plate 10, and is located at the heat source installing zone Except domain 119, the first heat dissipation channel 201 of several parallel intervals arrangement is formed in first radiating fin 20；Second Radiating fin 50, second radiating fin 50 are located at surface of the liquid cooling heat radiator 30 far from the hot superconductive plate 10；Institute State the second heat dissipation channel 501 that the arrangement of several parallel intervals is formed in the second radiating fin 50, second heat dissipation channel 501 is parallel with first heat dissipation channel 201；Partition 403, the partition 403 are placed on the hot superconductive plate 10, will The hot superconductive plate 10 is divided into first part 117 and second part 118；Wherein, the first part 117 is located at the partition 403 top, the second part 118 are located at the lower section of the partition 403；First radiating fin 20 is located at described first The surface of part 117, first radiating fin 20 can be only located at the surface of the first part 117, can also distinguish position In two opposite surfaces of the first part 117, at this point, being located at first radiating fin on hot 10 1 surface of superconductive plate 20 can be simultaneously positioned at the surface of the first part 117 and the surface of the second part 118；The liquid cooling heat radiator 30 In the surface of the first part 117；The heat source installation region 119 is located at the surface of the second part 118；Power device 404, the power device 404 is located at the surface of the hot superconductive plate 10, and is located in the heat source installation region 119；Sealing Cabinet 405,405 side of seal case are formed with opening, and the seal case 405 is placed on the function via the opening The periphery of rate device 404 and the second part 117；The width of the opening is less than or equal to the width of the partition 403, described The length of opening is less than or equal to the length of the partition 403, it is preferable that in the present embodiment, the width of the opening in it is described every The width of plate 403, the length of the opening are equal to the length of the partition 403.It should be noted that for the ease of aobvious in Fig. 3 Show, the seal case 405 is not placed on the periphery of the power device 404 and the second part 118, but specially moves To the lower section of the second part 118.

In one example, first radiating fin 20 can be wave-shaped in the horizontal direction (as shown in figure 17), can also To be in the horizontal direction in that square-wave-shaped extends (as shown in figure 18).First radiating fin 20 is wave-shaped or square in the horizontal direction Wavy extension, can in a limited space in increase by the surface area of first radiating fin 20 to the maximum extent, to increase Heat dissipation effect.

In another example, first radiating fin 20 along the vertical direction equally can wave-shaped or square-wave-shaped prolong It stretches, wherein Figure 19 extends so that first radiating fin 20 is wave-shaped along the vertical direction as example.First radiating fin Extension wave-shaped or square wave dress extend piece 20 along the vertical direction, can further increase the surface of first radiating fin 20 Product.

In another example, first radiating fin 20 can also include several tabular fins, also may include Parallel interval is arranged in the horizontal direction for several L shape fins 202, several described tabular fins or the L shape fin 202, As shown in figure 20.It should be noted that first radiating fin 20 further includes several stiffeners 203, the reinforcement at this time Item 203 extends along the direction that the tabular fin or the L shape fin 202 are arranged, by each tabular fin or L shape The concatenation of fin 202 is fixed, its mechanical strength is increased.

In another example, first radiating fin 20 can also include the heat sink strip of several parallel intervals arrangement 204, the equal integrally connected in end of each heat sink strip 204, as shown in figure 21.

As an example, as shown in figure 16, first radiating fin 20 can be via third solder layer 115 and solder layer 116 are fixedly welded on two opposite surfaces of the hot superconductive plate 10.Certainly, in other examples, first radiating fin 20 A surface of the hot superconductive plate 10 can also be only located at.

As an example, the specific structure of second radiating fin 50 can be with the specific knot of first radiating fin 20 Structure is identical, is not repeated herein.

As an example, the radiator and water heater composite structure further include: shell 402 and at least a fan 401, it is described Shell 402 is placed on the hot superconductive plate 10, the liquid cooling heat radiator 30, first radiating fin 20 and second heat dissipation The top and outside of fin 50, to form air duct between the shell 402 in the hot superconductive plate 10；401, the fan In described first radiating fin, 20 one end, and it is located at 402 outside of the shell, the outlet air surface of the fan 401 is towards described the One radiating fin 20, and it is perpendicular with the extending direction of first heat dissipation channel 201.It should be noted that the shell 402 Bottom and the shell 402 it is perpendicular with first heat dissipation channel 201 both ends of the surface it is opening-like, to ensure the shell Body 402 can be placed on the top and outside of the hot superconductive plate 10 and first radiating fin 20, and ensure the shell 402 will not influence the air blast cooling heat dissipation of the radiator and water heater composite structure.

As an example, the quantity of the fan 401 can be set according to actual needs, Fig. 1 is into Fig. 3 with the wind The quantity of fan 401 is two as an example, being not limited thereto in actual example.

As an example, the power device 404 may include that virtual digit coin digs mine machine and calculates power chipset plate, for example bit Coin digs mine machine and calculates power chipset plate, certainly, is not limited in bit coin in actual example and digs mine machine calculation power chipset plate, arbitrarily It is a kind of for obtain virtual digit coin digging mine machine calculate the hardened structure of power chipset should be included in it is interior.The power device 404 is (i.e. The virtual digit coin digs mine machine and calculates power chipset plate) it may include calculating power plate control panel and calculation power plate；The calculation power plate posts In the surface of the hot superconductive plate 10；The power plate control panel of calculating adheres on the surface of the hot superconductive plate 10, and with the calculation Power plate is connected.The calculation power plate may include that several calculate power board chip, and the calculation power board chip can be used for according to specific Algorithm solves, obtain the particular solution for meeting proof of work, and obtain corresponding secret key etc., the calculation power plate control panel is for controlling Make the normal work for calculating power plate.It is art technology that the virtual digit coin, which digs mine machine and calculates the specific structure of power chipset plate, Personnel are known, and the calculation power plate and the calculation power plate control panel also dawn known to those skilled in the art, no longer tired herein It states.The hot superconductive plate 10 is adhered on by the way that virtual digit coin is dug mine machine calculation power chipset plate as the power device 404 Surface, the virtual digit coin, which is dug when mine machine calculates the work of the devices such as calculation power board chip of power chipset plate, can generate a large amount of heat Amount, combined in this way by what the two was knocked at the door, it can generate dig mine operation generate income, and can will it is described virtually Digital currency digs mine machine and calculates heat that power chipset plate generates rationally using heating the cold water in the water heater main body 60, thus Hot water is generated for hot water for life or heating hot water.

It should be noted that when the power device 404 is that virtual digit coin digs mine machine calculation power chipset plate, the electricity Warmer further includes network function module (not shown), after the power device 404 and the network function module power on, The network function module can connect to cloud server, and the secret key that the calculation power plate calculates is sent to the cloud in real time Server.Realize that specific structure and the working principle of the network function module of above-mentioned function are known to those skilled in the art It dawn, is not repeated herein.

In one example, as shown in Fig. 1 and Fig. 4, two opposite surfaces of the hot superconductive plate 10 are equipped with the heat source peace Region 117 is filled, the power device 404 is located at the opposite two sides of the hot superconductive plate 10；The radiating fin 20 is located at described The opposite two sides of hot superconductive plate 10.

In another example, as shown in Figures 2 and 3, a surface of the hot superconductive plate 10 is equipped with the heat source installing zone In domain 117, the power device 404 is located at the side of the hot superconductive plate 10；The radiating fin 20 is located at the hot superconduction The opposite two sides of plate 10.The power device 404 is set to the side of the hot superconductive plate 10, the power device 404 wraps When including the calculation power plate and the calculation power plate control panel, it can be can be realized by one piece of calculation power plate control panel to all institutes The control for calculating power plate is stated, one piece of calculation power plate control panel can be saved.

As an example, the radiator and water heater composite structure further include electric heating system please continue to refer to Fig. 1 and Fig. 2 System, the electric heating system includes: heating device 801 and electric connection line 802, and the heating device 801 is located at the water heater In main body 60；Described 802 one end of electric connection line is connected with the heating device 801.The other end of the electric connection line 802 with Power electric connection, after the heating device 801 is electrically connected to a power source by the electric connection line 802, the heating device 801 is Water 602 in the water heater main body 60 is heated.The heating device 802 may include but be not limited only to thermocouple etc. Deng.By the way that the electric heating system is arranged, two jacket heating system of the heat exchanger 701 and the electric heating system can be used Cold water in the water heater main body 60 is heated, when one of break down, another can replace work, tool There is higher reliability.It should be noted that the electric heater unit 801 in Fig. 2 does not show that.

As an example, the radiator and water heater composite structure further include temperature probe please continue to refer to Fig. 1 and Fig. 2 803, one end of the temperature probe 803 is inserted in the water heater main body 60, for water heater main body described in real-time detection The temperature of water 602 in 60.

In one example, what the liquid cooling heat radiator 30 was used to radiate to the heat that the hot superconductive plate 10 transmits follows Ring liquid can be closed in the first circulation pipe 702, the heat exchanger 701 and the second circulation pipe 703, in institute Under the driving for stating circulating pump 704, the circulating liquid loopy moving, to realize heat exchange, as shown in Figure 1.

In another example, the radiator and water heater composite structure further include circulating liquid tank 705, the circulation fluid Circulating liquid 706 is contained with inside body tank 705；The one end of the first circulation pipeline 702 far from the inlet 3023 via The circulating liquid tank 705 is connected with the heat exchanger 701, i.e., described 702 one end of first circulation pipeline and the feed liquor Mouth 3023 is connected, and the other end is connected with the circulating liquid tank 705.At this point, described in the circulating liquid tank 705 follows Ring liquid 706 can be in the first circulation pipeline 702, the fluid passage, described second under the driving of the circulating pump 704 It is recycled between circulation line 703, the heat exchanger 701 and the circulating liquid tank 705, to realize heat dissipation heat exchange.

The radiator of the utility model and the working principle of water heater composite structure are as follows: when the power device 404 works When, hot 10 local heating of superconductive plate, heat is quickly transferred to the entire hot superconductive plate via the heat-transfer working medium 1061 10, then conducted by heat-conducting mode to first radiating fin 20, while also conducting to the liquid cooling heat radiator 30；Work as institute State 602 temperature of water in water heater main body 60 it is lower when, the circulating pump 704 works, and drives the circulating liquid 706 via institute It states inlet 3023 to enter in the liquid cooling heat radiator 30, heat is taken away and is heated up after flowing through first deflector 301, rise Circulating liquid 706 after temperature is flowed out via the liquid outlet 3024 to be entered in the heat exchanger 701 in the water heater main body 60 It carries out heat exchange and heats the water in the water heater main body 60, the coolant-temperature gage in the water heater main body 60 increases, described to follow The temperature of ring liquid 706 reduces, and continues cycling through stream using the first circulation pipeline 702 and the first circulation pipeline 703 It is dynamic, the heat that the power device 404 generates thus can be used to heat the cold water in the water heater main body 60.Work as institute State the water in water heater main body 60 temperature reach predetermined temperature after, the circulating pump 704 stops working, meanwhile, the fan 401 starting, cold wind flowed through under the driving of the fan 401 first radiating fin 20 surface and second radiating fin First heat dissipation channel 201 and second heat dissipation in first radiating fin 20 are flowed through in the surface of piece 50, i.e. cold wind Second heat dissipation channel 501 in device 50, is taken away heat by convection type, hot-air distributes heat to ambient enviroment In, hot wind winter can blow to it is indoor come for heating indoor heating, summer is then exhausted directly to outdoor.

Embodiment two

Incorporated by reference to Fig. 1 to Figure 21 refering to Figure 22 to Figure 24, the present embodiment also provides a kind of radiator and water heater combination knot Radiator and hot water described in the structure and embodiment one of structure, radiator described in the present embodiment and water heater composite structure The structure of device composite structure is roughly the same, and the difference of the two is that the specific structure of the hot superconductive plate 10 is different: the present embodiment Described in hot superconductive plate 10 had additional in second deflector 103 compared to hot superconductive plate 10 described in embodiment one An at least preset clearance 1035, meanwhile, the hot superconductive plate 10 further include an at least cushion block 109 or first cover board 100 or Second cover board 101 is equipped with an at least punching press boss 113.The other structures of hot superconductive plate 10 described in the present embodiment with The other structures of hot superconductive plate 10 described in embodiment one are identical, referring specifically to embodiment one, are not repeated herein.

In one example, as shown in FIG. 22 and 23, it is equipped in second deflector 103 in the hot superconductive plate 10 Several described preset clearances 1035, wherein Figure 22 is to be equipped with 4 preset clearances 1035 in second deflector 103 As an example, the quantity of the preset clearance 1035 is not limited in actual example；If the hot superconductive plate 10 further includes The dry cushion block 109, the quantity of the cushion block 109 is identical as the quantity of the preset clearance 1035, and the cushion block 109 1 One corresponding is set in each preset clearance 1035；The height of the height of the cushion block 109 and second deflector 103 It is identical, and the first installation through-hole 110 along the perforation of its short transverse is equipped in each cushion block 109；First cover board 100 On be additionally provided with several the second installation through-holes 111 penetrated through along the thickness direction of first cover board 100, second installation is logical The quantity in hole 111 is identical as the quantity of first installation through-hole 110, and second installation through-hole 111 and first peace Dress through-hole 110 is arranged in a one-to-one correspondence；Several are additionally provided on second cover board 101 along 101 thickness direction of the second cover board The third installation through-hole 112 of perforation, the quantity phase of the quantity of the third installation through-hole 112 and first installation through-hole 110 Together, and the third installation through-hole 112 is arranged in a one-to-one correspondence with first installation through-hole 110.It should be noted that in order to just In showing the preset clearance 1035, the cushion block 109 is not illustrated in Figure 22, meanwhile, for the ease of showing, in Figure 22 simultaneously First solder layer 104 and second solder layer 105 are not illustrated.Since the surface of the hot superconductive plate 10 needs to install The power device of fixed fever, but the sealed passage 106 in the hot superconductive plate 10 is sealing pipeline, it cannot be in the heat Installation fixation hole is directly beaten in the place of the corresponding sealed passage 106 of superconductive plate 10, to prevent the institute in the sealed passage 106 State the leakage of heat-transfer working medium 1061；The utility model by reserving the preset clearance 1035 in second deflector 103, and The identical cushion block 109 of height of second deflector 103 is set in the preset clearance 1035, in the cushion block It is formed with first installation through-hole 110 in 109, forms second installation through-hole 111 on first cover board 100 in this way And formed after the third installation through-hole 112 on second cover board 101 can be by the fixed device such as bolt Under the premise of will be described using first installation through-hole 110, second installation through-hole 111 and the third installation through-hole 112 Power device 404 is fixed on the hot superconductive plate 10, meanwhile, and may insure that the sealed passage 106 is in sealing state, The heat-transfer working medium 1061 will not be revealed.

In another example, as shown in figure 24, several are equipped in second deflector 103 of the hot superconductive plate 10 The preset clearance 1035, wherein set in Figure 24 using in second deflector 103 there are four the preset clearance 1035 as Example, in actual example, the quantity of the preset clearance 1035 is not limited；First cover board 100 or described second Cover board 101 is equipped with several described punching press boss 113, wherein is equipped with several institutes in Figure 24 with second cover board 101 Punching press boss 113 is stated as example；The punching press boss 113 is from first cover board 100 or the interior table of second cover board 101 Face is convexly equipped in the preset clearance 1035, the height phase of the height of the punching press boss 113 and second deflector 103 Together, the quantity of the punching press boss 113 is identical as the quantity of the preset clearance 1035, a pair of with the preset clearance 1,035 1 It should be arranged, and be equipped with the first installation through-hole 110 penetrated through along its short transverse, second cover board in the punching press boss 113 Be additionally provided on 101 or described first cover boards 100 several along its thickness direction perforation the second installation through-hole 111, described second Installation through-hole 111 is identical as the quantity of first installation through-hole 110, and sets with first installation through-hole 110 one-to-one correspondence It sets.It should be noted that if the punching press boss 113 is set on second cover board 101, then second installation through-hole 111 are located on first cover board 100, as shown in figure 24；If the punching press boss 113 is set on first cover board 100, Then second installation through-hole 111 is located on second cover board 101.It should be further noted that for the ease of display, figure First solder layer 104 and second solder layer 105 are not illustrated in 24.The utility model described second by leading The preset clearance 1035 is reserved in flowing plate 103, and several are set on first cover board 100 or second cover board 12 It is convexly equipped in the preset clearance 1035 punching press boss 113 interior and identical with the height of second deflector 103, It is equipped with first installation through-hole 110 in the punching press boss 113, in this way, in second cover board 101 or first cover board Described the can be utilized under the premise of device fixed by bolt etc. by being arranged after second installation through-hole 111 on 100 The power device is fixed on the hot superconductive plate by one installation through-hole 110 and second installation through-hole 111, meanwhile, again It may insure that the sealed passage 106 is in sealing state, the heat-transfer working medium 1061 will not be revealed.

It should be noted that Figure 22, into Figure 24, second deflector 103 is Figure 10 and figure in such as embodiment one Second deflector described in a monolith in second deflector 103 shown in 11 after the setting preset clearance 1035, certainly, In other examples, second deflector 103 can also be Figure 12 to shown in figure 15 described second in embodiment one for another example The second deflector in deflector 103 after the setting preset clearance 1035.

Embodiment three

Incorporated by reference to Fig. 1 to Figure 21 refering to Figure 25 to Figure 26, the present embodiment also provides a kind of radiator and water heater combination knot Radiator and hot water described in the structure and embodiment one of structure, radiator described in the present embodiment and water heater composite structure The structure of device composite structure is roughly the same, and the difference of the two is that the structure of the hot superconductive plate 10 is different: institute in embodiment one The quantity of second deflector 103 described in the hot superconductive plate 10 stated is one piece, and the second deflector described in the present embodiment 103 quantity is at least two pieces, and has gap between adjacent second deflector 103, in adjacent second water conservancy diversion The first balance channel 107 of the heat-transfer working medium 1061 is formed between plate 103, first balance channel 107 is along described first Direction extends, i.e., the extending direction of described first balance channel 107 is parallel with the first direction；With the annular peripheral frame 102 second deflectors 103 closed on have gap with the annular peripheral frame 102, in second deflector 103 with The second balance channel 108 of the heat-transfer working medium 1061, second balance channel 108 are formed between the annular peripheral frame 102 Extend along the first direction, i.e., the extending direction of described second balance channel 108 is parallel with the end face of the protrusion 31；Institute The height for stating the second deflector 103 is identical as the height of the annular peripheral frame 102.Hot superconductive plate 10 described in the present embodiment Other structures are identical with the other structures of hot superconductive plate 10 described in embodiment one, referring specifically to embodiment one, this Place is not repeated.First balance channel 107 can be used as vapor liquid equilibrium channel, to enhance the heat transfer work of gaseous state The heat-transfer working medium 1061 of matter 1061, the heat-transfer working medium 1061 of liquid condition or gas-liquid mixture phase is led along described second Flowing on 103 length direction of flowing plate；Second balance channel 108 can be used as fluid balance channel, liquid to enhance Flowing of the heat-transfer working medium 1061 of state along the first direction.Due to being along the second direction in the hot superconductive plate 10 Main channel direction, and the flow resistance of the heat-transfer working medium 1061 is larger along the first direction, mobility is poor, leads to It crosses and adds first balance channel 107 and second balance channel 108, the heat-transfer working medium 1061 can be enhanced along described The mobility of first direction, so that entire hot 10 all directions of superconductive plate heat dissipation effect having the same, so that institute The temperature for stating hot 10 each region of superconductive plate is identical, so effectively avoid due to some live multiple directions heat dissipation effect it is bad and Cause the generation of the 10 regional area superheating phenomenon of hot superconductive plate.

Example IV

Incorporated by reference to Fig. 1 to Figure 24 refering to Figure 27 to Figure 29, the present embodiment also provides a kind of radiator and water heater combination knot Radiator and hot water described in the structure and embodiment two of structure, radiator described in the present embodiment and water heater composite structure The structure of device composite structure is roughly the same, and the difference of the two is that the structure of the hot superconductive plate 10 is different: institute in embodiment two The quantity of second deflector 103 described in the hot superconductive plate 10 stated is one piece, and the second deflector described in the present embodiment 103 quantity is at least two pieces, and has gap between adjacent second deflector 103, in adjacent second water conservancy diversion The first balance channel 107 of the heat-transfer working medium 1061 is formed between plate 103, first balance channel 107 is along described first Direction extends, i.e., the extending direction of described first balance channel 107 is parallel with the first direction；With the annular peripheral frame 102 second deflectors 103 closed on have gap with the annular peripheral frame 102, in second deflector 103 with The second balance channel 108 of the heat-transfer working medium 1061, second balance channel 108 are formed between the annular peripheral frame 102 Extend along the first direction, i.e., the extending direction of described second balance channel 108 is parallel with the end face of the protrusion 31；Institute The height for stating the second deflector 103 is identical as the height of the annular peripheral frame 102.Hot superconductive plate 10 described in the present embodiment Other structures are identical with the other structures of hot superconductive plate 10 described in embodiment two, referring specifically to embodiment two, this Place is not repeated.First balance channel 107 can be used as vapor liquid equilibrium channel, to enhance the heat transfer work of gaseous state The heat-transfer working medium 1061 of matter 1061, the heat-transfer working medium 1061 of liquid condition or gas-liquid mixture phase is led along described second Flowing on 103 length direction of flowing plate；Second balance channel 108 can be used as fluid balance channel, liquid to enhance Flowing of the heat-transfer working medium 1061 of state along the first direction.Due to being along the second direction in the hot superconductive plate 10 Main channel direction, and the flow resistance of the heat-transfer working medium 1061 is larger along the first direction, mobility is poor, leads to It crosses and adds first balance channel 107 and second balance channel 108, the heat-transfer working medium 1061 can be enhanced along described The mobility of first direction, so that entire hot 10 all directions of superconductive plate heat dissipation effect having the same, so that institute The temperature for stating hot 10 each region of superconductive plate is identical, so effectively avoid due to some live multiple directions heat dissipation effect it is bad and Cause the generation of the 10 regional area superheating phenomenon of hot superconductive plate.

It should be noted that Figure 27 and Figure 28 are shown as having preset clearance 1035 in radiator and water heater composite structure And the structural schematic diagram of the hot superconductive plate 10 of cushion block 109, Figure 29 are shown as having punching press in radiator and water heater composite structure The structural schematic diagram of the hot superconductive plate 10 of boss 113.

It should be further noted that the preset clearance formed in the second deflector 103 described in the present embodiment 1035 are located in second deflector 103 closest with second balance channel 108, as shown in Figure 27 to Figure 29.Its In, Figure 27 to Figure 29 is with second deflector 103 in the second deflector 103 shown in Figure 12 and Figure 13 in example 1 Second including several described second flow guide bars 1033 and second connecting portion 1034 after the preset clearance 1035 is arranged is led Flowing plate is as an example, the quantity of second deflector 103 is two, and second deflector 103 further includes the cushion block 109 are used as example；Certainly, in other examples, second deflector 103 can also be Figure 10 and figure in such as embodiment one The second deflector after the preset clearance 1035 is set in 11 or Figure 14 and the second deflector shown in figure 15 103, described When second deflector 103 does not include the cushion block 109, institute is also provided on first cover board 11 or second cover board 21 State punching press convex block 113.The quantity of second deflector 103 can be set according to actual needs, be not limited to two.

It should be further noted that the arrangement mode of the preset clearance 1035 can be arranged according to actual needs Cloth, for example, several shown preset clearances 1035 can arrange as shown in Figure 27 to Figure 29 in a word, can also be such as embodiment It is arranged in array shown in Figure 22 and Figure 24 in two.

Embodiment five

Incorporated by reference to Fig. 1 to Figure 21 refering to Figure 30, the utility model also provides a kind of radiator and water heater composite structure, this Radiator and hot water described in the specific structure and embodiment one of radiator and water heater composite structure as described in the examples The specific structure of device composite structure is roughly the same, and the difference of the two is that the specific structure of the hot superconductive plate 10 is different: implementing In example one, the hot superconductive plate 10 includes: annular peripheral frame 102, the first cover board 100, the second cover board 101 and at least one second water conservancy diversion Plate 103, wherein first cover board 100 adheres on a surface of the annular peripheral frame 102, and second cover board 101 posts In on surface of the annular peripheral frame 102 far from first cover board 100, in first cover board 100 and second lid Sealed chamber is formed between plate 101.And in the present embodiment, the hot superconductive plate 10 includes: the first cover board 100, the second cover board 101 And second deflector 103；Second cover board 101 includes cover plate main body 1011 and annular convex edge 1012, the annular convex edge 1012 with 1011 integrally connected of cover plate main body；First cover board 100 adheres on the annular convex edge 1012 far from described On the surface of cover plate main body 1011, to form sealed chamber between first cover board 100 and the cover plate main body 1011.

It should be noted that in the present embodiment, or first cover board 100 includes cover plate main body and convex annular Edge, and second cover board 101 is identical as the second cover board 101 described in embodiment one；At this point, 101 note of the second cover board It is placed in the annular convex edge.

In the specific structure and embodiment one of second deflector 103 in hot superconductive plate 10 described in the present embodiment The specific structure of second deflector 103 in the hot superconductive plate 10 is identical, is not repeated herein.Equally, originally The other structures of radiator described in embodiment and water heater composite structure other than the hot superconductive plate 10 and embodiment one Described in radiator and water heater composite structure in corresponding structure it is identical, be not repeated herein.

In the present embodiment, second cover board 101 can form the cover plate main body 1011 and described by Sheet Metal Forming Technology Annular convex edge 1012 does not need additionally to use annular peripheral frame, to mitigate the weight of the hot superconductive plate 10, reduces cost.

Embodiment six

Incorporated by reference to Fig. 1 to Figure 24 refering to Figure 31, the utility model also provides a kind of radiator and water heater composite structure, this Radiator and hot water described in the specific structure and embodiment two of radiator and water heater composite structure as described in the examples The specific structure of device composite structure is roughly the same, and the difference of the two is that the specific structure of the hot superconductive plate 10 is different: implementing In example two, the hot superconductive plate 10 includes: annular peripheral frame 102, the first cover board 100, the second cover board 101 and at least one second water conservancy diversion Plate 103, wherein first cover board 100 adheres on a surface of the annular peripheral frame 102, and second cover board 101 posts In on surface of the annular peripheral frame 102 far from first cover board 100, in first cover board 100 and second lid Sealed chamber is formed between plate 101.And in the present embodiment, the hot superconductive plate 10 includes: the first cover board 100, the second cover board 101 And second deflector 103；Second cover board 101 includes cover plate main body 1011 and annular convex edge 1012, the annular convex edge 1012 with 1011 integrally connected of cover plate main body；First cover board 100 adheres on the annular convex edge 1012 far from described On the surface of cover plate main body 1011, to form sealed chamber between first cover board 100 and the cover plate main body 1011.

It should be noted that in the present embodiment, or first cover board 100 includes cover plate main body and convex annular Edge, and second cover board 101 is identical as the second cover board 101 described in embodiment two；At this point, 101 note of the second cover board It is placed in the annular convex edge.

In the specific structure and embodiment two of second deflector 103 in hot superconductive plate 10 described in the present embodiment The specific structure of second deflector 103 in the hot superconductive plate 10 is identical, is not repeated herein.Equally, originally The other structures of radiator described in embodiment and water heater composite structure other than the hot superconductive plate 10 and embodiment two Described in radiator and water heater composite structure in corresponding structure it is identical, be not repeated herein.

In the present embodiment, second cover board 101 can form the cover plate main body 1011 and described by Sheet Metal Forming Technology Annular convex edge 1012 does not need additionally to use annular peripheral frame, to mitigate the weight of the hot superconductive plate 10, reduces cost.

Embodiment seven

Incorporated by reference to Fig. 1 to Figure 26 refering to Figure 32 to Figure 33, the utility model also provides a kind of radiator and water heater combination Radiator described in the specific structure and embodiment three of structure, radiator described in the present embodiment and water heater composite structure And the specific structure of water heater composite structure is roughly the same, the difference of the two is the specific structure of the hot superconductive plate 10 not Same: in embodiment three, the hot superconductive plate 10 includes: annular peripheral frame 102, the first cover board 100, the second cover board 101 and at least one Second deflector 103, wherein first cover board 100 adheres on a surface of the annular peripheral frame 102, second lid Plate 101 adheres on surface of the annular peripheral frame 102 far from first cover board 100, in first cover board 100 and institute It states and forms sealed chamber between the second cover board 101.And in the present embodiment, the hot superconductive plate 10 includes: the first cover board 100, Two cover boards 101 and the second deflector 103；Second cover board 101 includes cover plate main body 1011 and annular convex edge 1012, the ring Shape convex edge 1012 and 1011 integrally connected of cover plate main body；It is remote that first cover board 100 adheres on the annular convex edge 1012 On surface from the cover plate main body 1011, to form sealing between first cover board 100 and the cover plate main body 1011 Chamber.

It should be noted that in the present embodiment, or first cover board 100 includes cover plate main body and convex annular Edge, and second cover board 101 is identical as the second cover board 101 described in embodiment three；At this point, 101 note of the second cover board It is placed in the annular convex edge.

In the specific structure and embodiment three of second deflector 103 in hot superconductive plate 10 described in the present embodiment The specific structure of second deflector 103 in the hot superconductive plate 10 is identical, is not repeated herein.Equally, originally The other structures of radiator described in embodiment and water heater composite structure other than the hot superconductive plate 10 and embodiment three Described in radiator and water heater composite structure in corresponding structure it is identical, be not repeated herein.

In the present embodiment, second cover board 101 can form the cover plate main body 1011 and described by Sheet Metal Forming Technology Annular convex edge 1012 does not need additionally to use annular peripheral frame, to mitigate the weight of the hot superconductive plate 10, reduces cost.

Embodiment eight

Incorporated by reference to Fig. 1 to Figure 29 refering to Figure 34 to Figure 36, the utility model also provides a kind of radiator and water heater combination Structure, radiator described in the specific structure and example IV of radiator described in the present embodiment and water heater composite structure And the specific structure of water heater composite structure is roughly the same, the difference of the two is the specific structure of the hot superconductive plate 10 not Same: in example IV, the hot superconductive plate 10 includes: annular peripheral frame 102, the first cover board 100, the second cover board 101 and at least one Second deflector 103, wherein first cover board 100 adheres on a surface of the annular peripheral frame 102, second lid Plate 101 adheres on surface of the annular peripheral frame 102 far from first cover board 100, in first cover board 100 and institute It states and forms sealed chamber between the second cover board 101.And in the present embodiment, the hot superconductive plate 10 includes: the first cover board 100, Two cover boards 101 and the second deflector 103；Second cover board 101 includes cover plate main body 1011 and annular convex edge 1012, the ring Shape convex edge 1012 and 1011 integrally connected of cover plate main body；It is remote that first cover board 100 adheres on the annular convex edge 1012 On surface from the cover plate main body 1011, to form sealing between first cover board 100 and the cover plate main body 1011 Chamber.

It should be noted that in the present embodiment, or first cover board 100 includes cover plate main body and convex annular Edge, and second cover board 101 is identical as the second cover board 101 described in example IV；At this point, 101 note of the second cover board It is placed in the annular convex edge.

In the specific structure and example IV of second deflector 103 in hot superconductive plate 10 described in the present embodiment The specific structure of second deflector 103 in the hot superconductive plate 10 is identical, is not repeated herein.Equally, originally The other structures and example IV of radiator described in embodiment and water heater composite structure other than the hot superconductive plate 10 Described in radiator and water heater composite structure in corresponding structure it is identical, be not repeated herein.

In the present embodiment, second cover board 101 can form the cover plate main body 1011 and described by Sheet Metal Forming Technology Annular convex edge 1012 does not need additionally to use annular peripheral frame, to mitigate the weight of the hot superconductive plate 10, reduces cost.

In conclusion the utility model provides a kind of radiator and water heater composite structure, the radiator and water heater Composite structure includes: hot superconductive plate, and interconnected sealed passage is formed in the hot superconductive plate, is filled out in the sealed passage Filled with heat-transfer working medium；The hot superconduction plate surface is equipped with heat source installation region；Liquid cooling heat radiator, positioned at the hot superconductive plate Surface, and be located at except the heat source installation region, fluid passage, the liquid cooling heat radiator are formed in the liquid cooling heat radiator It is equipped with the inlet and liquid outlet being connected with the fluid passage；Water heater main body, inside are contained with water to be heated；Institute It states water heater main body and is equipped with the water inlet and water outlet being connected with the water heater body interior；Heat exchanger is located at institute It states in water heater main body；First circulation pipe, one end are connected with the inlet, and the other end is connected with the heat exchanger； Second circulation pipe, one end are connected with the liquid outlet, and the other end is connected with the heat exchanger；Circulating pump is located at described On first circulation pipeline or the second circulation pipeline.The radiator and water heater composite structure of the utility model have with following Beneficial effect: 1. by the way that power device to adhere on to the surface of hot superconductive plate, and the setting of hot superconduction plate surface by circulation pipe with The liquid cooling heat radiator that circulating liquid tank is connected, and recycle tube portion and be located in water heater main body, it is worked normally in power device In the case where, hot superconductive plate and liquid cooling heat radiator can rationally utilize the heat that power device generates, and can be used for hot water Cold water in device main body carries out heating and generates hot water for hot water for life or heating hot water, and energy saving improves quality of the life； 2. power device selects virtual digit coin to dig mine machine and calculates power chipset plate, reasonably by virtual digit coin dig mine machine and radiator and Both functions of water heater composite structure combine, and other than power device needs electric energy, do not need additional electric energy to heat Cold water in water machine body is heated, and the case where consuming same electric energy, that is, be can produce and is dug mine operation generation income, and can It is used to heat cold water so that the heat that mine machine calculation power chipset plate produces will be dug, to generate hot water for hot water for life or heating Hot water；3. the first deflector is arranged in liquid cooling heat radiator, deflector increases heat exchange area, to improve in addition to enhancing liquid perturbation Outside heat-sinking capability, the effect of reinforcing rib is also acted as, can reduce the thickness of liquid cooling cover board, to mitigate the entirety weight of radiator Amount；4. being filled with heat-transfer working medium in hot superconductive plate inner seal chamber body, inhibit heat transfer by heat-transfer working medium phase-change heat transfer or phase transformation, The hot superconducting characteristic of quick conductive is formed, equivalent heat conductivity keeps entire hot superconduction plate temperature equal up to 4000W/m DEG C or more It is even, reduce the maximum temperature of the temperature difference and radiator between each power device；5., can be using water cooling and air-cooled by setting fan Two kinds of forced heat radiation modes radiate to power device, and hot superconductive plate is thermally conductive fast, and temperature is uniform, under same radiating condition So that total is small in size, light-weight, big heat heat exchange can be realized under very low wind speed, reaches low noise or mute mesh 's；Meanwhile using air-cooled and two cooling systems of liquid cooling, after the intracorporal cold water of water heater master is heated to predetermined temperature, Circulating pump stops working, and liquid cooling heat radiator stops heat dissipation, at this point, starting fan, the radiating mode of power device is by water cooling nature It is switched to air-cooled mode, there is higher reliability；6. being welded with radiating fin on hot superconductive plate, radiating fin can be super by heat The heat that guide plate conduction comes quickly is taken away by air and is dissipated, and radiating fin is the heat exchange area increased with air, reduces System thermal resistance improves heat-sinking capability, and plays the role of reinforcing hot superconductive plate, to reduce the material thickness of hot superconductive plate, improves Intensity mitigates weight, reduces cost；By the way of welding by both sides radiating fin, avoid existing for traditional Section Bar Heat Sinks because Radiating fin excessive height, the low defect of radiating fin tail end radiating efficiency, improves the radiating efficiency of radiating fin；7. power Device is set to two opposite surfaces of hot superconductive plate, compact-sized, small in size, good heat dissipation effect；8. being arranged on hot superconductive plate Hot superconductive plate is divided into upper and lower first part and second part by partition, partition, and function is arranged in underlying second part surface Rate device, and being sealed second part by setting seal case, realizes the totally-enclosed of power device, improves degree of protection and can By property；9. being seal cavity inside hot superconductive plate, and it is equipped with the second deflector, internal second deflector is the first cover board and second Cover board welds together, that is, plays booster action, applies two sides cover sheet thickness and is thinned, and bearing capacity increases, and intensity improves, and mitigates heat The weight and thickness of superconductive plate, and the heat exchange area inside increase, enhance the hot superconduction capacity of heat transmission；10. passing through setting electric heating System, can be used heat exchanger and two jacket heating system of electric heating system heats the intracorporal cold water of water heater master, when When one of failure, another can replace work, reliability with higher.

The above embodiments are only illustrative of the principle and efficacy of the utility model, and not for limitation, this is practical new Type.Any person skilled in the art can all carry out above-described embodiment under the spirit and scope without prejudice to the utility model Modifications and changes.Therefore, such as those of ordinary skill in the art without departing from the revealed essence of the utility model All equivalent modifications or change completed under mind and technical idea, should be covered by the claim of the utility model.

Claims (20)

1. a kind of radiator and water heater composite structure, which is characterized in that the radiator and water heater composite structure include:

Hot superconductive plate, is formed with interconnected sealed passage in the hot superconductive plate, filled with heat transfer in the sealed passage Working medium；The hot superconduction plate surface is equipped with heat source installation region；

Liquid cooling heat radiator positioned at the surface of the hot superconductive plate, and is located at except the heat source installation region, the liquid-cooling heat radiation Fluid passage is formed in device, the liquid cooling heat radiator is equipped with the inlet and liquid outlet being connected with the fluid passage；

Water heater main body, inside are contained with water to be heated；The water heater main body is equipped with and the water heater body interior The water inlet and water outlet being connected；

Heat exchanger is located in the water heater main body；

First circulation pipe, one end are connected with the inlet, and the other end is connected with the heat exchanger；

Second circulation pipe, one end are connected with the liquid outlet, and the other end is connected with the heat exchanger；

Circulating pump is located on the first circulation pipeline or the second circulation pipeline.

2. radiator according to claim 1 and water heater composite structure, which is characterized in that the liquid cooling heat radiator includes First deflector and fluid passage cover board；One surface of the fluid passage cover board is formed with holding tank, and the fluid passage cover board is formed with described The surface of holding tank adheres on the surface of the hot superconductive plate, to be formed between the fluid passage cover board and the hot superconductive plate Fluid passage chamber；First deflector is located in the fluid passage chamber, and is fixed on the surface of the hot superconductive plate, in described The interconnected fluid passage is formed between first deflector and the hot superconductive plate and the fluid passage cover board；The feed liquor Mouth and the liquid outlet are respectively positioned on the fluid passage cover board.

3. radiator according to claim 2 and water heater composite structure, which is characterized in that the holding tank includes first Holding tank and the second holding tank, first holding tank and second holding tank include opposite first end and second end； The quantity of first deflector is two pieces, and first deflector is located at first holding tank, another described first Deflector is located in second holding tank；The inlet is located at the first end of first holding tank, holds with described first Slot of receiving is connected, and the liquid outlet is located at the first end of second holding tank, and is connected with second holding tank；It is described The second end of first holding tank is connected with the second end of second holding tank.

4. radiator according to claim 3 and water heater composite structure, which is characterized in that the first deflector packet It includes:

Several the first flow guide bars, first flow guide bar are accommodated along perpendicular to the first holding tank first end to described first The direction of slot second end is wave-shaped or square-wave-shaped extends, and several first flow guide bars are along the first holding tank first end To the direction parallel arrangement of the first holding tank second end；

First connecting portion, positioned at the both ends of first flow guide bar, and with each equal integrally connected of first flow guide bar.

5. radiator according to claim 3 and water heater composite structure, which is characterized in that first deflector includes Several flat first flow guide bars, several first flow guide bars are along perpendicular to the first holding tank first end to institute State the direction parallel interval arrangement of the first holding tank second end.

6. radiator according to claim 1 and water heater composite structure, which is characterized in that the radiator and water heater Composite structure further include:

First radiating fin positioned at an at least surface for the hot superconductive plate, and is located at except the heat source installation region, described The first heat dissipation channel of several parallel intervals arrangement is formed in first radiating fin；

Second radiating fin, the surface positioned at the liquid cooling heat radiator far from the hot superconductive plate；In second radiating fin It is formed with the second heat dissipation channel of several parallel intervals arrangement, second heat dissipation channel is equal with first heat dissipation channel Row；

Partition, the partition are placed on the hot superconductive plate, and the hot superconductive plate is divided into first part and second Point；Wherein, the first part is located at the top of the partition, and the second part is located at the lower section of the partition；Described One radiating fin is located at the surface of the first part, and the liquid cooling heat radiator is located at the surface of the first part；The heat Source installation region is located at the surface of the second part；

Power device, the power device is located at the surface of the hot superconductive plate, and is located in the heat source installation region；

Seal case, the seal case side are formed with opening, and the seal case is placed on the function via the opening The periphery of rate device and the second part；The width of the opening is less than or equal to the width of the partition, the length of the opening Degree is less than or equal to the length of the partition.

7. radiator according to claim 6 and water heater composite structure, which is characterized in that the radiator and water heater Composite structure further include:

Shell is placed on the hot superconductive plate, the liquid cooling heat radiator, first radiating fin and second radiating fin Top and outside, to form air duct between the shell in the hot superconductive plate；

An at least fan is located at first radiating fin one end, and is located at the hull outside, the outlet air surface court of the fan To first radiating fin, and it is perpendicular with the extending direction of first heat dissipation channel.

8. radiator according to claim 6 and water heater composite structure, which is characterized in that the power device includes void Quasi- digital currency digs mine machine and calculates power chipset plate.

9. radiator according to claim 1 and water heater composite structure, which is characterized in that the radiator and water heater Composite structure further include:

Electric heating system, the electric heating system include: heating device and electric connection line, and the heating device is located at the hot water In device main body；Described electric connection line one end is connected with the heating device；

Temperature probe, one end are inserted in the water heater main body.

10. radiator according to claim 1 and water heater composite structure, which is characterized in that the radiator and hot water Device composite structure further includes circulating liquid tank, is contained with circulating liquid inside the circulating liquid tank；The first circulation pipeline One end far from the inlet is connected via the circulating liquid tank with the heat exchanger.

11. radiator according to any one of claim 1 to 10 and water heater composite structure, which is characterized in that described Hot superconductive plate includes: annular peripheral frame, the first cover board, the second cover board and at least one second deflector；Wherein,

First cover board adheres on a surface of the annular peripheral frame, and it is remote that second cover board adheres on the annular peripheral frame On surface from first cover board, to form sealed chamber between first cover board and second cover board；

Second deflector is located in the sealed chamber；Second deflector includes that several are arranged along first direction interval Cloth and the protrusion extended in a second direction, wherein the first direction and the second direction are perpendicular, on the first direction The bottom integrally connected of the adjacent protrusion, and there is gap on the inside of the protrusion and between the adjacent protrusion, so that institute It states and forms the sealed passage between the second deflector and first cover board and second cover board.

12. radiator according to claim 11 and water heater composite structure, which is characterized in that the hot superconductive plate includes At least two pieces of second deflectors, the length of second deflector are identical as the length on the inside of the annular peripheral frame；It is adjacent There is gap between second deflector, it is flat with form the heat-transfer working medium between adjacent second deflector first Weighing apparatus channel, first balance channel extend along the first direction；Second water conservancy diversion closed on the annular peripheral frame Plate and the annular peripheral frame have gap, to form the heat-transfer working medium between second deflector and the annular peripheral frame The second balance channel, second balance channel extends along the first direction；The height of second deflector with it is described The height of annular peripheral frame is identical.

13. radiator according to claim 11 and water heater composite structure, which is characterized in that the side wall of the protrusion is equal Equipped with several deflector holes, the deflector hole runs through second deflector along the thickness direction of second deflector.

14. radiator according to claim 11 and water heater composite structure, which is characterized in that in second deflector Equipped with an at least preset clearance；The hot superconductive plate further includes an at least cushion block, and the cushion block is located in the preset clearance；Institute The height for stating cushion block is identical as the height of second deflector, and first penetrated through along its short transverse is equipped in the cushion block Installation through-hole；At least one the second installation through-hole along the perforation of its thickness direction, second peace are additionally provided on first cover board Dress through-hole is correspondingly arranged with first installation through-hole；At least one is additionally provided on second cover board along the perforation of its thickness direction Third installation through-hole, the third installation through-hole are correspondingly arranged with first installation through-hole.

15. radiator according to claim 11 and water heater composite structure, which is characterized in that in second deflector Equipped with an at least preset clearance；It is convex that first cover board or second cover board are equipped with an at least punching press boss, the punching press The inner surface of platform from first cover board or second cover board is convexly equipped in the preset clearance, the height of the punching press boss It is identical as the height of second deflector, and it is logical that the first installation penetrated through along its short transverse is equipped in the punching press boss At least one the second installation through-hole along the perforation of its thickness direction, institute are additionally provided on hole, second cover board or first cover board The second installation through-hole is stated to be correspondingly arranged with first installation through-hole.

16. radiator according to any one of claim 1 to 10 and water heater composite structure, which is characterized in that described Hot superconductive plate includes:

First cover board；

Second cover board, including cover plate main body and annular convex edge, the annular convex edge and the cover plate main body integrally connected；Described One cover board adheres on surface of the annular convex edge far from the cover plate main body, in first cover board and the cover board master Sealed chamber is formed between body；

At least one second deflector is located in the sealed chamber；Second deflector includes several between first direction Every the protrusion arranged and extended in a second direction, wherein the first direction and the second direction are perpendicular, the first party The bottom integrally connected of the upward adjacent protrusion, and there is gap on the inside of the protrusion and between the adjacent protrusion, so that It obtains and forms the sealed passage between second deflector and first cover board and second cover board.

17. radiator according to claim 16 and water heater composite structure, which is characterized in that the hot superconductive plate includes At least two pieces of second deflectors, the length of second deflector are identical as the length on the inside of the annular convex edge；It is adjacent There is gap between second deflector, it is flat with form the heat-transfer working medium between adjacent second deflector first Weighing apparatus channel, first balance channel extend along the first direction；Second water conservancy diversion closed on the annular convex edge Plate and the annular convex edge have gap, to form the heat-transfer working medium between second deflector and the annular convex edge The second balance channel, second balance channel extends along the first direction；The height of second deflector with it is described The height of annular convex edge is identical.

18. radiator according to claim 16 and water heater composite structure, which is characterized in that the side wall of the protrusion is equal Equipped with several deflector holes, the deflector hole runs through second deflector along the thickness direction of second deflector.

19. radiator according to claim 16 and water heater composite structure, which is characterized in that in second deflector Equipped with an at least preset clearance；The hot superconductive plate further includes an at least cushion block, and the cushion block is located in the preset clearance；Institute The height for stating cushion block is identical as the height of second deflector, and first penetrated through along its short transverse is equipped in the cushion block Installation through-hole；At least one the second installation through-hole along the perforation of its thickness direction, second peace are additionally provided on first cover board Dress through-hole is correspondingly arranged with first installation through-hole；At least one is additionally provided on second cover board along the perforation of its thickness direction Third installation through-hole, the third installation through-hole are correspondingly arranged with first installation through-hole.

20. radiator according to claim 16 and water heater composite structure, which is characterized in that in second deflector Equipped with an at least preset clearance；It is convex that first cover board or second cover board are equipped with an at least punching press boss, the punching press The inner surface of platform from first cover board or second cover board is convexly equipped in the preset clearance, the height of the punching press boss It is identical as the height of second deflector, and it is logical that the first installation penetrated through along its short transverse is equipped in the punching press boss At least one the second installation through-hole along the perforation of its thickness direction, institute are additionally provided on hole, second cover board or first cover board The second installation through-hole is stated to be correspondingly arranged with first installation through-hole.