CN109599481A - DFPN ties double water conservancy diversion refrigerators and its cabinet - Google Patents

Abstract

The present invention relates to electrical equipment fields, it discloses DFPN and ties double water conservancy diversion refrigerators, including thermoelectric couple to (1), thermoelectric couple passes through flow deflector (2) to the two sides of (1) respectively and is fixed with hot end tile (3) and cold end tile (4), the side of hot end tile (3) is fixedly connected with flow deflector (2), the other side of hot end tile (3) is fixed with the first radiator (5), the side of cold end tile (4) is fixedly connected with flow deflector (2), the other side of cold end tile (4) is fixed with the second radiator (6), it is further fixed on the cold conduction cooling part (7) of storage, it is coupled between hot end tile (3) and the first radiator (5) by liquid silica gel.Refrigerator of the present invention can replace discrete heating, refrigeration system；The temperature difference range of refrigerator from 90 DEG C-it is 130 DEG C subzero, using two-region be isolated method make cooling and heating type improved efficiency 15%-20%, using mineral it is thermally conductive sliding silica gel can be reduced 90% or more failure rate.

Description

DFPN ties double water conservancy diversion refrigerators and its cabinet

Technical field

The present invention relates to electrical equipment fields more particularly to DFPN to tie double water conservancy diversion refrigerators and its cabinet.

Background technique

Energy-saving and emission-reduction become the hot spot of the concern of country, the same weight of energy-saving and emission-reduction work of electric power and telecommunications industry IT industry again It is same urgent, the task of energy-saving and emission-reduction will be made to implement to links, the concept of environmental protection and technology is made to extend to electric power electricity The entire industry chain of letter.Therefore our independent researches first DFPN of China ties bidirectional guide intelligence refrigerator model machine.It is thorough Bottom changes the mode of current refrigerator, ties bidirectional guide intelligence refrigerator technology using DFPN, can not only save a large amount of Electric power, and effectively avoid pollution discharge and ambient noise.The refrigerator height by international and domestic numerous colleagues at present Concern.

DFPN ties bidirectional guide refrigerator, just refers to using semiconductor electronic chip as refrigeration unit, is dissipated by recycling The refrigerating and heating combined equipment that hot systems are set up can satisfy the use such as production, life, cabinet, cabinet, make air themperature in certain model Enclose adjustable electronic device.It being compared with common air-conditioning, DFPN ties intelligent refrigerator compressor-free, without refrigerant, no mechanical noise, Realize environment protecting and power-saving emission reduction truly.Traditional air conditioner carries out mechanical refrigeration by compressor, needs addition Length of schooling cryogen --- freon, the molecular state by changing freon reach heat absorption and exothermic purpose, once fluorine benefit occurs High leakage, will seriously destroy atmospheric environment.And DFPN knot refrigerator uses electronic cooling mode, does not need compressor and fluorine benefit It is high, therefore avoid and pollute the environment.

Since PN junction electronic refrigerator does not have mechanical movement, because without generating additional energy consumption and noise.Through calculating； The energy consumption that DFPN ties electronic refrigerator is only the 1/5 of existing refrigeration modes.The refrigeration efficiency ratio of PN junction electronic refrigerator can be with The variation of ambient temperature and change.If outdoor temperature on daytime is 35 DEG C, the Energy Efficiency Ratio of semiconductor intelligent air condition is 2.7, then When to evening outdoor temperature being 32 DEG C, the Energy Efficiency Ratio of semiconductor intelligent air condition then reaches 5.4, and Energy Efficiency Ratio is bigger, the electricity of saving It can be more.And the Energy Efficiency Ratio of Ordinary Compression air conditioner be it is fixed, arbitrarily cannot control and change.So with Ordinary Compression Air conditioner is compared, and PN junction electronic refrigerator can effectively realize energy-saving and emission-reduction.

In terms of human oriented design, PN junction electronic refrigerator also shows that its own advantage.It realizes digital intellectualization Constant temperature and humidity accurately controls, and relative humidity controls between 55% to 65%, not the dry sensation of traditional air conditioner, and human body sensory is more It is comfortable.In addition, PN junction electronic refrigerator install it is also very convenient, only need to general pvc pipe by main and auxiliaries into Row connection, enormously simplifies installation process, has saved cost.

China is the first in the world air-conditioning big producer, and annual output is about 50,000,000, the 2/3 of Zhan Quanqiu total amount.Meanwhile I The second big country of state or world power consumption, 30% or so of the China air conditioning energy consumption Yi Zhan city energy consumption, summer is in some cities It has been even more than 50%.If the average efficiency of every air-conditioning improves 20%, the air-conditioning newly bought every year can be saved for country 6,000,000,000 kilowatt hour of electric energy.PN junction electronic refrigerator not only reduces cost, and greatly as a kind of completely new technical solution Reduce the exploitation of fuel source and the discharge of carbon dioxide, effectively inhibits the aggravation of greenhouse effects, be conducive to environmental protection. It is estimated that the electricity saved is equivalent to Three Gorges water power within 1 year if all changing the air-conditioning in the whole nation into semiconductor intelligent air condition It stands 2.5 times of generated energy.

PN junction electronic refrigerator technology is only answered because of low efficiency, complex manufacturing technology and the reasons such as at high cost all the time For high-tech areas such as space flight, military project, scientific researches.And We conducted high-end technology optimization designs, realize the double of DFPN knot The reliability that equipment is improved to water conservancy diversion refrigerator technology has or has surmounted the economy of conventional compression air conditioner, comfort And practicability, it is green product, represents the developing direction of energy saving Refrigeration Technique from now on.

Application number CN201510312007.1 is patent of invention, discloses a kind of autonomous type semiconductor refrigerating cabinet and its control Method processed, system include energy-storage system, semiconductor refrigeration system and control system；Energy-storage system include solar photovoltaic assembly and Battery；Semiconductor refrigeration system includes circulating fan, cold end substrate, cold end flow guide bar, conducting element, hot end flow guide bar and heat End group plate；Control system includes photosensitive element, temperature sensor and controller.Invention directly utilizes sun power generation driving semiconductor Refrigeration system operation greatly reduces the energy consumption for cooling of outdoor cabinet without consuming alternating current refrigeration；It can be answered simultaneously to be provided when having a power failure The warm standby that plunges cold source, keeps the stability of system higher.But it is to pacify that semiconductor refrigeration system, which is installed on cabinet body side, It is application of the conventional semiconductor refrigeration system on cabinet, due to can also in refrigeration system and cabinet outside cabinet shell Heat exchange occurs, refrigeration effect is low, waste of energy；In the cold and hot exchange of refrigerator, expand with heat and contract with cold, heat-conducting effect is bad In the case of, the flexible of thermoelectric couple pair is influenced by other component, affects refrigerator service life.

In addition the cold conduction cooling part material of the storage of prior art semiconductor refrigeration system is common metal piece, the effect of thermal conductivity Generally, make thermally conductive refrigerating efficiency not high, it is therefore desirable to which a kind of effect of the cold conduction cooling part material of raising storage, thermoelectric couple are free to energy Flexible, the better DFPN of integrally cooling effect ties double water conservancy diversion refrigerators.

Summary of the invention

The present invention is unable to the not high disadvantage of free extension, thermally conductive refrigerating efficiency for refrigerator in the prior art, provides DFPN ties double water conservancy diversion refrigerators and its cabinet.

In order to solve the above-mentioned technical problem, the present invention is addressed by following technical proposals:

DFPN ties double water conservancy diversion refrigerators, including thermoelectric couple pair, the two sides of thermoelectric couple pair are fixed by flow deflector respectively There are hot end tile and cold end tile, the side of hot end tile is fixedly connected with flow deflector, and the other side of hot end tile is fixed with The side of one radiator, cold end tile is fixedly connected with flow deflector, and the other side of cold end tile is fixed with the second radiator, cold end It is further fixed on the cold conduction cooling part of storage between tile and the second radiator, is joined between hot end tile and the first radiator by liquid silica gel Knot.It is very small that DFPN ties double water conservancy diversion refrigerator thermal inertias, the cooling and warming time quickly, in the feelings of the good cold end zero load of hot-side heat dissipation Under condition, as soon as being powered less than minute, cooling piece can reach maximum temperature difference.Reversed use of DFPN cooling piece is exactly thermo-electric generation, Semiconductor chilling plate applies in general to middle low-temperature space power generation.

Preferably, by mass percentage, mineral liquid silica gel includes following component:

Preferably, mineral porcelain powder mixture is the mixture of aluminium silicate mineral matter powder and ceramic powders, poly- silicon oxygen Alkane mixture is organopolysiloxane, a variety of mixtures in diorganopolysiloxaneand；Drying retardant is oiliness drying retardant.Using The thermally conductive sliding silica gel of mineral can be reduced 90% or more failure rate.Polysiloxane mixture is a variety of organopolysiloxanes composition The organopolysiloxane and one kind of the mixture or one or more of mixture or a variety of diorganopolysiloxaneands composition Or the mixture of more than one diorganopolysiloxaneand composition.

The mineral liquid silica gel that has been used in combination between hot end tile and radiator is coupled, the main work of mineral liquid silica gel With being to keep refrigerator capable of expansion and contraction, present invention adds nonmetallic mineral Heat Conduction Materials, improve the rate of heat dispation of liquid silica gel, To making mineral liquid silica gel in the cold and hot exchange of refrigerator, the thermoelectric couple that expands with heat and contract with cold to free extension all around not It is impacted, substantially prolong refrigerator service life.

Preferably, by mass percentage, storing up cold conduction cooling part material includes following element composition: copper 99.90%- 99.94%, silver 0.04%-0.09%, phosphorus 0-0.003%, bismuth 0-0.002%, antimony 0-0.004%, arsenic 0-0.004%, iron 0.004%-0.006%, nickel 0-0.006%, lead 0.004%-0.006%, sulphur 0.004%-0.006%, tin 0-0.006%, Zinc 0-0.006%, oxygen 0%-0.006%.The purity is high of cold conduction cooling part material is stored up, tissue is fine and closely woven, and oxygen content is extremely low, pore-free, It is trachoma, loose, store up cold conduction cooling part as a kind of quick-cooling, heating transmitting medium, advanced alloy, high-effective conductive body, hot-working when production 900~1050 DEG C of temperature, the quality that cold conduction cooling part is stored up under same volume also weighs about 20% than ordinary steel, is six times of magnesium.It leads Hot property is splendid, and reheated forging and stamping and heat treatment process, electrode is non-directional, has good thermoelectricity conductive performance, and has anti- Lose weatherability.

Preferably, the double water conservancy diversion refrigerator working principles of DFPN knot are: when one piece of N-type semiconductor material and one piece of p-type half Conductor material is coupled to galvanic couple clock synchronization, and the transfer of energy can be generated by connecting DC current in this circuit, and electric current is partly led by N-type The side that body material flows to p-type semiconductor material absorbs heat, becomes cold end；N-type semiconductor material is flowed to by p-type semiconductor material The side of material discharges heat, becomes hot end；P-type semiconductor material and N-type semiconductor material form thermoelectric couple pair；Pass through change The size and N-type of electric current, p-type semiconductor material element logarithm control heat absorption and exothermic size.

Cabinet, cabinet are equipped with DFPN and tie double water conservancy diversion refrigerators, and cabinet includes cabinet shell, refrigeration cabinet and heat dissipation tank Body, it is heat-insulated by cabinet thermal insulation areas between refrigeration cabinet and heat radiation box, the thermal insulation areas PN is equipped in cabinet thermal insulation areas, DFPN knot is double Water conservancy diversion refrigerator is mounted in cabinet shell or outside cabinet shell.DFPN ties double water conservancy diversion refrigerators and is divided into cabinet built-in type and cabinet Fitted outside.The built-in exterior of DFPN knot refrigerator, which can be embodied in built-in type, can directly produce cabinet, and fitted outside can be to Cabinet through production or at work carries out upgrading.The combination of different modes all uses two-region heat-insulated, improves DFPN Refrigerator application efficiency is tied, DFPN knot refrigerator failure rate is substantially reduced.

DFPN ties the power very little of the single cooling module of double water conservancy diversion refrigerators, but is combined into pile, with the electricity of same type If the method for heap series and parallel is combined into refrigeration system, power can be very big, therefore refrigeration work consumption can accomplish that several milliwatts arrive The range of upper myriawatt is applied in different fields, and there are two types of functions for modular refrigerating appliance, can freeze and heat, but heat effect Rate is very high, is always larger than 1, can replace discrete heating system and refrigeration system.

Preferably, hot end tile, the first radiator are mounted in cabinet thermal insulation areas, thermoelectric couple is heat-insulated to PN is mounted on In area, cold end tile, the cold conduction cooling part of storage, the second radiator are mounted in refrigeration cabinet.Refrigeration is made using the method that two-region is isolated Pyrogenicity improved efficiency 15%-20%.

It is mounted in cabinet shell preferably, DFPN ties double water conservancy diversion refrigerators, refrigeration cabinet and heat radiation box are all located at In cabinet shell.When the double water conservancy diversion refrigerators of DFPN knot are mounted in cabinet shell, cabinet is divided into the cabinet of two sides, refrigeration cabinet It is additionally provided with thermal insulation areas between heat radiation box, three different regions will be divided into cabinet, have also been additionally provided in cabinet shell Outlet air, air-intake device are used to improve the effect or heat dissipation of conduction heat.

It is mounted on outside cabinet shell preferably, DFPN ties double water conservancy diversion refrigerators, DFPN ties the quantity of double water conservancy diversion refrigerators For one or more, refrigeration cabinet is located on the inside of cabinet shell, and heat radiation box is located on the outside of cabinet shell.DFPN knot is double to lead When stream refrigerator is mounted on outside cabinet shell, it can be used refrigerator as room conditioning, using room as cabinet, refrigerator Radiating end and cold end be respectively provided inside and outside the room.Refrigerator can realize that Intelligent Dynamic stepless voltage regulation controls, and regulation performance is far high In common convertible frequency air-conditioner, than 50% or more Ordinary Compression air conditioner economize on electricity, is such as used in electric power telecommunications room, room is freezed It transform equipment enclosure refrigeration as, economizing on energy and electricity rate can be promoted 80%--90%.

Preferably, cabinet includes electric power distributing cabinet, telecomm base station cabinet, data center's cabinet, elevator control cabinet, Electric Appliance Cabinet.

The DFPN cooling piece that DFPN is tied in double water conservancy diversion refrigerators is electric current transducing matrix part, by the control of input current, High-precision temperature control can be achieved, add temperature measurement and control means, it is easy to realize remote control, program-controlled, computer control System, convenient for composition automatic control system.

The present invention has significant technical effect: not needing any refrigerant, can connect due to using above technical scheme Continuous work, no pollution sources do not have rotary part, will not generate gyroscopic action, and no slide unit is a kind of solid sheet, work Do not shaken when making, noise, service life it is long, installation is easy；Refrigerator has refrigeration, heating function simultaneously, can replace discrete Heating system and refrigeration system；The temperature difference range of refrigerator from 90 DEG C-it is 130 DEG C subzero, the present invention use two-region isolation method Make cooling and heating type improved efficiency 15%-20%, can be reduced 90% or more failure rate using the thermally conductive sliding silica gel of mineral.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of invention.

Fig. 2 is the structural schematic diagram that DFPN ties that double water conservancy diversion refrigerators are mounted in cabinet.

Fig. 3 is the structural schematic diagram that DFPN ties that double water conservancy diversion refrigerators are mounted on outside cabinet.

The toponym that each number designation is referred in the figures above is as follows: where 1-thermoelectric couple is to, 2-water conservancy diversion Piece, 3-hot end tiles, 4-cold end tiles, the 5-the first radiator, the 6-the second radiator, the 7-cold conduction cooling parts of storage, 8-cabinets, 81-refrigeration cabinets, 82-heat radiation boxes, 83-cabinet thermal insulation areas, the 84-thermal insulation areas PN.

Specific embodiment

Present invention is further described in detail with embodiment with reference to the accompanying drawing.

Embodiment 1

DFPN ties double water conservancy diversion refrigerators, as shown in Figure 1, including thermoelectric couple to 1, thermoelectric couple leads to 1 two sides respectively It crosses flow deflector 2 and is fixed with hot end tile 3 and cold end tile 4, the side of hot end tile 3 is fixedly connected with flow deflector 2, hot end tile 3 other side is fixed with the first radiator 5, and the side of cold end tile 4 is fixedly connected with flow deflector 2, the other side of cold end tile 4 It is fixed with the second radiator 6, is further fixed on the cold conduction cooling part 7 of storage between cold end tile 4 and the second radiator 6, hot end tile 3 and the It is coupled between one radiator 5 by liquid silica gel.

By mass percentage, mineral liquid silica gel includes following component:

In the present embodiment, by mass percentage, mineral liquid silica gel includes following component: mineral porcelain powder mixture 40%, polysiloxane mixture 10%, aluminium oxide 30%, aluminium hydroxide 11%, drying retardant 9%.

Mineral porcelain powder mixture is the mixture of aluminium silicate mineral matter powder and ceramic powders, and polysiloxane mixture is A variety of mixtures in organopolysiloxane, diorganopolysiloxaneand；Drying retardant is oiliness drying retardant.Poly- silicon in the present embodiment Oxygen alkane mixture is a variety of organopolysiloxanes.

By mass percentage, storing up cold conduction cooling part material includes following element composition: copper 99.90%-99.94%, silver 0.04%-0.09%, phosphorus 0-0.003%, bismuth 0-0.002%, antimony 0-0.004%, arsenic 0-0.004%, iron 0.004%- 0.006%, nickel 0-0.006%, lead 0.004%-0.006%, sulphur 0.004%-0.006%, tin 0-0.006%, zinc 0- 0.006%, oxygen 0%-0.006%.In the present embodiment, storing up cold conduction cooling part material includes following element composition: copper 99.90%, silver 0.064%, phosphorus 0.003%, bismuth 0.001%, antimony 0.002%, arsenic 0.002%, iron 0.004%, nickel 0.004%, lead 0.004%, sulphur 0.004%, tin 0.004%, zinc 0.004%, oxygen 0.004%.

When one piece of N-type semiconductor material and one piece of p-type semiconductor material are coupled to galvanic couple clock synchronization, connect in this circuit DC current can generate the transfer of energy, and electric current absorbs heat by the side that N-type semiconductor material flows to p-type semiconductor material, As cold end；Heat is discharged by the side that p-type semiconductor material flows to N-type semiconductor material, becomes hot end；P-type semiconductor material Material is with N-type semiconductor material composition thermoelectric couple to 1；By the size and N-type, the member of p-type semiconductor material that change electric current Part logarithm absorbs heat and exothermic size to control.

Embodiment 2

DFPN ties double water conservancy diversion refrigerators, as shown in Figure 1, including thermoelectric couple to 1, thermoelectric couple leads to 1 two sides respectively It crosses flow deflector 2 and is fixed with hot end tile 3 and cold end tile 4, the side of hot end tile 3 is fixedly connected with flow deflector 2, hot end tile 3 other side is fixed with the first radiator 5, and the side of cold end tile 4 is fixedly connected with flow deflector 2, the other side of cold end tile 4 It is fixed with the second radiator 6, is further fixed on the cold conduction cooling part 7 of storage between cold end tile 4 and the second radiator 6, hot end tile 3 and the It is coupled between one radiator 5 by liquid silica gel.

By mass percentage, mineral liquid silica gel includes following component:

In the present embodiment, by mass percentage, mineral liquid silica gel includes following component: mineral porcelain powder mixture 42%, polysiloxane mixture 15%, aluminium oxide 20%, aluminium hydroxide 10%, drying retardant 13%.

Mineral porcelain powder mixture is the mixture of aluminium silicate mineral matter powder and ceramic powders, and polysiloxane mixture is A variety of mixtures in organopolysiloxane, diorganopolysiloxaneand；Drying retardant is oiliness drying retardant.Poly- silicon in the present embodiment Oxygen alkane mixture is a variety of organopolysiloxanes, diorganopolysiloxaneand.

By mass percentage, storing up cold conduction cooling part material includes following element composition: copper 99.90%-99.94%, silver 0.04%-0.09%, phosphorus 0-0.003%, bismuth 0-0.002%, antimony 0-0.004%, arsenic 0-0.004%, iron 0.004%- 0.006%, nickel 0-0.006%, lead 0.004%-0.006%, sulphur 0.004%-0.006%, tin 0-0.006%, zinc 0- 0.006%, oxygen 0%-0.006%.In the present embodiment, storing up cold conduction cooling part material includes following element composition: copper 99.94%, silver 0.04%, bismuth 0.001%, antimony 0.002%, arsenic 0.002%, iron 0.005%, lead 0.005%, sulphur 0.005%.

DFPN ties double water conservancy diversion refrigerator working principles: when one piece of N-type semiconductor material and one piece of p-type semiconductor material connection Form galvanic couple clock synchronization, the transfer of energy can be generated by connecting DC current in this circuit, and electric current is flowed to by N-type semiconductor material The side of p-type semiconductor material absorbs heat, becomes cold end；It is released by the side that p-type semiconductor material flows to N-type semiconductor material Thermal discharge becomes hot end；P-type semiconductor material and N-type semiconductor material composition thermoelectric couple are to 1；By changing the big of electric current Small and N-type, p-type semiconductor material element logarithm come control heat absorption and exothermic size.

Embodiment 3

DFPN ties double water conservancy diversion refrigerators, as shown in Figure 1, including thermoelectric couple to 1, thermoelectric couple leads to 1 two sides respectively It crosses flow deflector 2 and is fixed with hot end tile 3 and cold end tile 4, the side of hot end tile 3 is fixedly connected with flow deflector 2, hot end tile 3 other side is fixed with the first radiator 5, and the side of cold end tile 4 is fixedly connected with flow deflector 2, the other side of cold end tile 4 It is fixed with the second radiator 6, is further fixed on the cold conduction cooling part 7 of storage between cold end tile 4 and the second radiator 6, hot end tile 3 and the It is coupled between one radiator 5 by liquid silica gel.

By mass percentage, mineral liquid silica gel includes following component:

In the present embodiment, by mass percentage, mineral liquid silica gel includes following component: mineral porcelain powder mixture 50%, polysiloxane mixture 14%, aluminium oxide 20%, aluminium hydroxide 9%, drying retardant 7%.

Mineral porcelain powder mixture is the mixture of aluminium silicate mineral matter powder and ceramic powders, and polysiloxane mixture is A variety of mixtures in organopolysiloxane, diorganopolysiloxaneand；Drying retardant is oiliness drying retardant.Poly- silicon in the present embodiment Oxygen alkane mixture is a variety of diorganopolysiloxanecompositions.

By mass percentage, storing up cold conduction cooling part material includes following element composition: copper 99.90%-99.94%, silver 0.04%-0.09%, phosphorus 0-0.003%, bismuth 0-0.002%, antimony 0-0.004%, arsenic 0-0.004%, iron 0.004%- 0.006%, nickel 0-0.006%, lead 0.004%-0.006%, sulphur 0.004%-0.006%, tin 0-0.006%, zinc 0- 0.006%, oxygen 0%-0.006%.In the present embodiment, storing up cold conduction cooling part material includes following element composition: copper 99.90%, silver 0.54%, phosphorus 0.001%, bismuth 0.001%, antimony 0.002%, iron 0.006%, nickel 0.006%, lead 0.006%, sulphur 0.006%, Tin 0.006%, zinc 0.006%, oxygen 0.006%.

DFPN ties double water conservancy diversion refrigerator working principles: when one piece of N-type semiconductor material and one piece of p-type semiconductor material connection Form galvanic couple clock synchronization, the transfer of energy can be generated by connecting DC current in this circuit, and electric current is flowed to by N-type semiconductor material The side of p-type semiconductor material absorbs heat, becomes cold end；It is released by the side that p-type semiconductor material flows to N-type semiconductor material Thermal discharge becomes hot end；P-type semiconductor material and N-type semiconductor material composition thermoelectric couple are to 1；By changing the big of electric current Small and N-type, p-type semiconductor material element logarithm come control heat absorption and exothermic size.

Embodiment 4

Cabinet, as shown in Fig. 2, cabinet, which is equipped with DFPN, ties double water conservancy diversion refrigerators, cabinet includes cabinet shell 8, refrigeration case Body 81 and heat radiation box 82, heat-insulated by cabinet thermal insulation areas 83 between refrigeration cabinet 81 and heat radiation box 82, cabinet thermal insulation areas 83 Interior to be equipped with the thermal insulation areas PN 84, DFPN ties double water conservancy diversion refrigerators and is mounted in cabinet shell 8.

Hot end tile 3, the first radiator 5 are mounted in cabinet thermal insulation areas 83, and thermoelectric couple is mounted on the thermal insulation areas PN 84 to 1 Interior, cold end tile 4, the cold conduction cooling part 7 of storage, the second radiator 6 are mounted in refrigeration cabinet 81.Refrigeration cabinet 81 and heat radiation box 82 It is all located in cabinet shell 8.

Embodiment 5

Cabinet, as shown in figure 3, cabinet, which is equipped with DFPN, ties double water conservancy diversion refrigerators, cabinet includes cabinet shell 8, refrigeration case Body 81 and heat radiation box 82, heat-insulated by cabinet thermal insulation areas 83 between refrigeration cabinet 81 and heat radiation box 82, cabinet thermal insulation areas 83 It is interior to be equipped with the thermal insulation areas PN 84.

Hot end tile 3, the first radiator 5 are mounted in cabinet thermal insulation areas 83, and thermoelectric couple is mounted on the thermal insulation areas PN 84 to 1 Interior, cold end tile 4 has the cold conduction cooling part 7 of storage, the second radiator 6 to be mounted in refrigeration cabinet 81.

DFPN ties double water conservancy diversion refrigerators and is mounted on outside cabinet shell 8, and the quantity that DFPN ties double water conservancy diversion refrigerators is two, causes Ice chest body 81 is located at 8 inside of cabinet shell, and heat radiation box 82 is located at 8 outside of cabinet shell.

Cabinet includes electric power distributing cabinet, telecomm base station cabinet, data center's cabinet, elevator control cabinet, Electric Appliance Cabinet.

Embodiment 6

The property of cold conduction cooling part is stored up in 20 DEG C of at a temperature of measurement, obtains following result:

	Embodiment 1	Embodiment 2	Embodiment 3
				Density g/cm	8.9	9.2	9.3
Specific gravity g/mm	8.79	8.99	9.02
				Thermal coefficient w/ (m.k)	393.1	396.4	396.3
Resistivity Ω mm2/m	0.016	0.018	0.019

The conductive and heat conductive effect for storing up cold conduction cooling part has greatly improved compared with the prior art, and DFPN is made to tie refrigerator system efficiency Rise 15%.

In short, the foregoing is merely presently preferred embodiments of the present invention, it is all according to equalization made by scope of the present invention patent Variation and modification, shall all be covered by the patent of the invention.

Claims (10)

1.DFPN ties double water conservancy diversion refrigerators, including thermoelectric couple is to (1), it is characterised in that: thermoelectric couple distinguishes the two sides of (1) It is fixed with hot end tile (3) and cold end tile (4) by flow deflector (2), the side and flow deflector (2) of hot end tile (3) are fixed Connection, the other side of hot end tile (3) are fixed with the first radiator (5), and the side and flow deflector (2) of cold end tile (4) are fixed Connection, the other side of cold end tile (4) are fixed with the second radiator (6), between cold end tile (4) and the second radiator (6) also It is fixed with the cold conduction cooling part (7) of storage, is coupled between hot end tile (3) and the first radiator (5) by mineral liquid silica gel.

2. DFPN according to claim 1 ties double water conservancy diversion refrigerators, it is characterised in that: by mass percentage, mineral liquid Body silica gel includes following component:

3. DFPN according to claim 2 ties double water conservancy diversion refrigerators, it is characterised in that: mineral porcelain powder mixture is manosil AS The mixture of salt mineral powders and ceramic powders, polysiloxane mixture are organopolysiloxane, diorganopolysiloxaneand In a variety of mixtures；Drying retardant is oiliness drying retardant.

4. DFPN according to claim 1 ties double water conservancy diversion refrigerators, which is characterized in that by mass percentage, Chu Leng is led Cold part (7) material includes following element composition: copper 99.90%-99.94%, silver 0.04%-0.09%, phosphorus 0-0.003%, bismuth 0-0.002%, antimony 0-0.004%, arsenic 0-0.004%, iron 0.004%-0.006%, nickel 0-0.006%, lead 0.004%- 0.006%, sulphur 0.004%-0.006%, tin 0-0.006%, zinc 0-0.006%, oxygen 0%-0.006%.

5. DFPN according to claim 1 ties double water conservancy diversion refrigerators, it is characterised in that: when one piece of N-type semiconductor material and One piece of p-type semiconductor material is coupled to galvanic couple clock synchronization, in this circuit connect DC current generate energy transfer, electric current by The side that N-type semiconductor material flows to p-type semiconductor material absorbs heat, becomes cold end；N-type is flowed to by p-type semiconductor material The side of semiconductor material discharges heat, becomes hot end；P-type semiconductor material and N-type semiconductor material form thermoelectric couple pair (1)；Heat absorption and exothermic size are controlled by the element logarithm of the size and N-type of change electric current, p-type semiconductor material.

6. cabinet, it is characterised in that: cabinet is equipped with DFPN described in claim 1-5 and ties double water conservancy diversion refrigerators, and cabinet includes Cabinet shell (8), refrigeration cabinet (81) and heat radiation box (82), pass through cabinet between refrigeration cabinet (81) and heat radiation box (82) Thermal insulation areas (83) is heat-insulated, is equipped with the thermal insulation areas PN (84) in cabinet thermal insulation areas (83), and DFPN ties double water conservancy diversion refrigerators and is mounted on cabinet In shell (8) or cabinet shell (8) outside.

7. cabinet according to claim 6, it is characterised in that: hot end tile (3), the first radiator (5) are mounted on cabinet In thermal insulation areas (83), thermoelectric couple is mounted in the thermal insulation areas PN (84) (1), and cold end tile (4) has the cold conduction cooling part (7) of storage, the Second radiator (6) is mounted in refrigeration cabinet (81).

8. cabinet according to claim 7, it is characterised in that: DFPN ties double water conservancy diversion refrigerators and is mounted on cabinet shell (8) Interior, refrigeration cabinet (81) and heat radiation box (82) are all located in cabinet shell (8).

9. cabinet according to claim 7, it is characterised in that: DFPN ties double water conservancy diversion refrigerators and is mounted on cabinet shell (8) Outside, it is one or more that DFPN, which ties the quantity of double water conservancy diversion refrigerators, and refrigeration cabinet (81) is located on the inside of cabinet shell (8), Heat radiation box (82) is located on the outside of cabinet shell (8).

10. cabinet according to claim 6, it is characterised in that: cabinet includes electric power distributing cabinet, telecomm base station cabinet, data Central cabinet, elevator control cabinet, Electric Appliance Cabinet.