CN205191973U - Dry -type electronic refrigerating device - Google Patents

Abstract

The utility model discloses a dry -type electronic refrigerating device, including the shell, the shell top is equipped with that wind scooper, bottom are equipped with the fan, the lateral surface is equipped with the hot air duct that looses, installs refrigerating plant in the shell, refrigerating plant include at least one be equipped with lead warm medium lead the temperature pipe, lead the temperature pipe and pass the warm paillon foil of leading of two at least parallel arrangement, pass the both ends of leading the temperature pipe of leading warm paillon foil with two to lead the inboard bulge driving fits of warm splint fixed, lead the warm splint outside for two and paste tightly with the contact of electron refrigeration piece refrigeration face. The utility model discloses an it is no longer mobile to lead warm media, and through electronics refrigeration piece refrigeration, also can not influence its refrigeration effect when whole refrigerating plant is in the slope upset state that jolts, flows the cryogenic refrigerating plant of formula and yi shui with present refrigerant and is electronics refrigerating plant that cold volume conducts the media and compares and have stronger adaptability.

Description

A kind of dry electronic refrigerating plant

Technical field

The utility model is a kind of refrigerating plant, particularly a kind of dry electronic refrigerating plant adopting electronic refrigerating sheet.

Background technology

Be 2010101122794 at application number, a kind of electronic refrigeration plant is disclosed in the Chinese utility model patent of a kind of electronic refrigeration plant by name, primary structure includes shell, water diversion disk, refrigeration cassette, heat exchange integrated package, electronic refrigerating sheet, radiating block, heat sink, heat dissipation wind channel, water receiving water diversion disk, blowing air channel, heat radiation discharge pipe, centrifugal blower, water box, water receiving flow guiding disc, Air Filter, guide vane, heat radiation aspiration channel, heat radiation bend, water injection pipe, water pump, heat radiation axial flow blower, guide duct, air intake deflector, be provided with cooling water system in the enclosure, twice cooling air system and heat dissipation pipeline system.

Although this design refrigeration manifests, in this design, cold mainly relies on water as cold conductive medium, and cruelly leaks aerial water and can pollute because air constantly circulates, rotten spoiled, causes the air quality in cooled space to decline.

And said apparatus be used for vehicle air conditioner time, normally can not use because vehicle-mounted electronic cooling air conditioning water tank can cause along with rocking of car its water circulation unstable, therefore develop a kind of electronic refrigeration plant of flowing cold conductive medium that do not adopt imperative.

Utility model content

Because the above-mentioned defect of prior art, technical problem to be solved in the utility model is to provide the immobilising dry electronic refrigerating plant of a kind of cold conductive medium.

For achieving the above object, the utility model provides a kind of dry electronic refrigerating plant, comprise shell, described cover top portion is provided with wind scooper, bottom is provided with blower fan, lateral surface is provided with heat dissipation wind channel, in described shell, refrigerating plant is installed, described refrigerating plant comprise at least one be equipped with lead warm medium lead temperature pipe, described lead warm pipe and arranged in parallel lead warm paillon foil through at least two, the described two ends of leading warm pipe through leading warm paillon foil with lead temperature and press from both sides that protuberance inside version is closely sealed to be fixed, lead to contact with electronic refrigerating sheet chill surface outside warm clamping plate for described two pieces and be adjacent to.

Further, described lead warm pipe pass perpendicularly through lead warm paillon foil and with lead warm paillon foil and fit tightly.

Further, described warm medium of leading is made up of the material of high temperature diffusivity.

Further, described electronic refrigerating sheet heating face and radiating block one surface contact are adjacent to, another surface of described radiating block is adjacent to heat sink group one side, and be provided with radiator fan near described heat sink group another side, described radiator fan is for generation of the air-flow blowing to heat sink group.

Preferably, described radiating block, the material of leading warm clamping plate, lead warm paillon foil and leading warm pipe employing thermal conductivity factor higher are made.

More preferably, the material that described thermal conductivity factor is higher is silver, copper, aluminium, carbon fiber one wherein.

Further, described radiating block, heat sink group, radiator fan are installed in heat dissipation wind channel.

Preferably, described heat dissipation wind channel, wind scooper, shell be brushed with insulating moulding coating or be pasted with thermal insulation layer.

More preferably, described insulating moulding coating is composite heat-isolating silicate paint or thermal insulating coating.

The beneficial effects of the utility model are: the utility model is freezed by electronic refrigerating sheet, the cold of electronic refrigerating sheet conducts to and is led the closely sealed temperature of leading leading warm medium that fixedly is equipped with of warm clamping plate clamping by leading warm clamping plate and manage, be passed to again to be arranged on to lead and warm pipe leads warm paillon foil, blower fan drives wind to take cold out of through leading warm paillon foil, also its refrigeration can not be affected when whole refrigerating plant is in and jolts inclination flip state, the electronic refrigeration plant that the refrigerating plant freezed with existing flow of refrigerant dynamic formula and Yi Shui do cold conductive medium is compared has stronger adaptability, and it does not use cold-producing medium, do not volatilize the environmental pollution problems such as leakage, the cold conductive medium of flowing is not used yet, can not cruelly leak in atmosphere, thus avoid it and pollute because air constantly circulates, rotten, spoiled, cause the phenomenon that the air quality in cooled space declines, there is the advantage that prior art is incomparable.

Accompanying drawing explanation

Fig. 1 is the structural representation of a kind of dry electronic refrigerating plant of the utility model detailed description of the invention.

Fig. 2 is the exploded perspective figure of a kind of dry electronic refrigerating plant of the utility model detailed description of the invention.

Fig. 3 is the front sectional elevation of a kind of dry electronic refrigerating plant of the utility model detailed description of the invention.

Fig. 4 is the heat dissipation wind channel structure schematic diagram of a kind of dry electronic refrigerating plant of the utility model detailed description of the invention.

Detailed description of the invention

Below in conjunction with drawings and Examples, the utility model is described in further detail:

See Fig. 1 to Fig. 4, a kind of dry electronic refrigerating plant, comprise shell 8, described shell 8 top is provided with wind scooper 1, bottom is provided with blower fan 9, lateral surface is provided with heat dissipation wind channel 10, in described shell 8, refrigerating plant is installed, described refrigerating plant comprise many be equipped with lead warm medium 12 lead warm pipe 3; Described warm medium of leading is made up (object helps to lead warm pipe to transmit cold) of the material of high temperature diffusivity, described leads warm pipe 3 through (preferably passing perpendicularly through, this mode is main is conveniently punch to leading warm paillon foil and install) severally arranged in parallel lead warm paillon foil 4, described protuberance 21 of leading inside warm clamping plate 2 through the two ends of leading warm pipe 3 and two pieces of leading warm paillon foil 4 is closely sealed fixing, leads to contact with electronic refrigerating sheet 5 chill surface outside warm clamping plate 2 for described two pieces to be adjacent to.Described lead warm medium 12 and assist to lead warm pipe and draw the cold of leading warm clamping plate 2 cooled by electronic refrigerating sheet, be then transferred to and lead warm paillon foil 4;

When after electronic refrigerating sheet energising, the chill surface of electronic refrigerating sheet can produce low temperature and lead warm clamping plate cooling down by what be in contact with it, and cold can be passed to after leading the cooling of warm clamping plate and be in contact with it fixing leading warm medium and lead the cooling of warm pipe, the warm paillon foil of leading be connected and fixed with it also can be lowered the temperature after leading the cooling of warm pipe, this just reaches the refrigeration of tradition by refrigerant circulation, and the cold conductive medium of the cold-producing medium that do not flow of this refrigeration modes and flowing, even if whole refrigerating plant also can not cause because refrigerant circulation is obstructed as the refrigerating plant flowed by refrigerant circulation under being in the environment of sharp pounding inclination flip refrigeration not good or lose, when leading after warm foil temperature all reduces, when the air of lowering the temperature is by refrigerating plant, this air meeting with lead warm foil surfaces and fully contact, thus by the heat absorption of air of waiting to lower the temperature, just reach the effect of cooling.Certainly, the quantity of the increase and decrease such as the speed can lowered the temperature according to actual needs electronic refrigerating sheet.

Faster in order to make to lead warm pipe 3 and lead heat transfer between warm paillon foil 4, described lead warm pipe 3 and lead warm paillon foil 4 and should fit tightly, this mode can increase their contact area to improve its mutual heat conduction velocity.

Generate heat face and radiating block 6 one surface contact of described electronic refrigerating sheet 5 is adjacent to, another surface of described radiating block 6 is adjacent to heat sink group 7 one side, be provided with radiator fan 11 near described heat sink group 7 another side, described radiator fan 11 is for generation of the air-flow blowing to heat sink group 7.

Rapidly electronic refrigerating sheet can be generated heat the heat conduction in face in heat sink group by radiating block, described heat sink group is identical with air-conditioning heat dissipation plate group of the prior art, combine by multi-disc heat sink, when the wind that radiator fan produces blows over heat sink group, described wind fully can contact with the fin of heat sink group, take away in the heat conduction inlet air of fin, this just reaches the effect of heat radiation.

Because radiating block 6 needs the heat conduction in the face that generated heat by electronic refrigerating sheet 5 fast to enter in heat sink group 7, and lead warm clamping plate 2, lead warm paillon foil 4 and lead warm pipe 3 and need fast the cold quantity transmission of electronic refrigerating sheet 5 chill surface to be entered in air to be freezed, therefore radiating block 6, lead warm clamping plate 2, lead warm paillon foil 4 and lead warm pipe 3 and need to adopt the higher material of thermal conductivity factor to make, as silver, copper, aluminium, carbon fiber etc.

Described radiating block 6, heat sink group 7, radiator fan 11 are installed in heat dissipation wind channel 10; This structure can ensure that the wind that radiator fan produces does not leak, the wind that radiator fan is produced is all by heat sink group, radiating block flowing, wind energy simultaneously carries out heat exchange with heat sink group and radiating block, and the more traditional device only dispelled the heat by heat sink group of radiating rate wants high.

Certainly, need leading warm clamping plate when reality uses, wind scooper, shell need adopt Insulation, to prevent, cold (heat after heating) is invalid to be scattered and disappeared, described Insulation is the insulating moulding coating of brush on heat dissipation wind channel, wind scooper, shell or pastes thermal insulation layer, and described insulating moulding coating is composite heat-isolating silicate paint or thermal insulating coating.This effectively can completely cut off air beyond they and refrigerating plant or contactant carries out heat trnasfer, avoids outside heat to be conducted in refrigerating plant, thus affects refrigeration.

During use, the chill surface of electronic refrigerating sheet 5 will be led warm clamping plate 2 and be lowered the temperature, lead warm clamping plate 2 temperature conduction to be led warm medium 12 to coupled and led in warm pipe 3, lead warm pipe 3 again cold to be transmitted to and to lead on warm paillon foil 4, when thermal current to be cooled is blown in shell 8 by blower fan 9, this air-flow can by leading warm paillon foil 4, lower than this air-flow owing to leading warm paillon foil 4 temperature, therefore lead warm paillon foil 4 and can absorb temperature in this air-flow, and then from wind scooper 1 mouthful blowout after this gas flow temperature is reduced.

The heat that the heating face of electronic refrigerating sheet 5 produces in the process can be transferred in heat-conducting block 6, and heat-conducting block 6 transfers heat to again in heat sink group 7, the air flow cooling that heat sink group 7 is produced by radiator fan 11.

When needs add hot-air, can be reverse by electronic refrigerating sheet both positive and negative polarity, also or can by air access heat dissipation channel 10 to be heated, and still normal ventilation (now leading the effect of heat sink group 7 when warm paillon foil 4 is equivalent to freeze) in shell 8.Air to be heated is by carrying out heat exchange with heat sink during heat sink group 7, and the heat now transmitted by electronic refrigerating sheet 5 face of generating heat can add hot-air by heat sink group, and the wind that blower fan 9 produces can be lowered the temperature to whole refrigerating plant by leading warm paillon foil 4.

More than describe preferred embodiment of the present utility model in detail.Should be appreciated that those of ordinary skill in the art just can make many modifications and variations according to design of the present utility model without the need to creative work.Therefore, all technical staff in the art according to design of the present utility model on the basis of existing technology by the available technical scheme of logical analysis, reasoning, or a limited experiment, all should by the determined protection domain of claims.

Claims (9)

1. a dry electronic refrigerating plant, comprise shell, described cover top portion is provided with wind scooper, bottom is provided with blower fan, lateral surface is provided with heat dissipation wind channel, in described shell, refrigerating plant is installed, it is characterized in that: described refrigerating plant comprise at least one be equipped with lead warm medium lead temperature pipe, described lead warm pipe and arranged in parallel lead warm paillon foil through at least two, the described two ends of leading warm pipe through leading warm paillon foil are closely sealed fixing with the protuberance of leading inside warm clamping plate, described lead to contact with electronic refrigerating sheet chill surface outside warm clamping plate be adjacent to.

2. a kind of dry electronic refrigerating plant as claimed in claim 1, is characterized in that: described lead warm pipe pass perpendicularly through lead warm paillon foil and with lead warm paillon foil and fit tightly.

3. a kind of dry electronic refrigerating plant as claimed in claim 1, is characterized in that: described warm medium of leading is made up of the material of high temperature diffusivity.

4. a kind of dry electronic refrigerating plant as claimed in claim 1, it is characterized in that: described electronic refrigerating sheet heating face and radiating block one surface contact are adjacent to, another surface of described radiating block is adjacent to heat sink group one side, be provided with radiator fan near described heat sink group another side, described radiator fan is for generation of the air-flow blowing to heat sink group.

5. a kind of dry electronic refrigerating plant as described in claim 1 or 4, is characterized in that: described radiating block, the material of leading warm clamping plate, lead warm paillon foil and leading warm pipe employing thermal conductivity factor higher are made.

6. a kind of dry electronic refrigerating plant as claimed in claim 5, is characterized in that: the material that described thermal conductivity factor is higher is silver, copper, aluminium, carbon fiber one wherein.

7. a kind of dry electronic refrigerating plant as claimed in claim 4, is characterized in that: described radiating block, heat sink group, radiator fan are installed in heat dissipation wind channel.

8. a kind of dry electronic refrigerating plant as claimed in claim 1, is characterized in that: described heat dissipation wind channel, wind scooper, shell be brushed with insulating moulding coating or be pasted with thermal insulation layer.

9. a kind of dry electronic refrigerating plant as claimed in claim 8, is characterized in that: described insulating moulding coating is composite heat-isolating silicate paint or thermal insulating coating.