CN204738422U - Integration semiconductor refrigeration unit glass curtain wall - Google Patents

Abstract

The utility model discloses an integration semiconductor refrigeration unit glass curtain wall, including framework, control module, be provided with the semiconductor refrigeration piece in the middle of the framework, the semiconductor refrigeration piece includes cold junction and hot junction, it has thermal -insulated cotton to fill in the middle of the framework, thermal -insulated cotton both ends are provided with the metal sheet, the framework inboard is arranged in to the cold junction, cold junction the place ahead is provided with indoor endothermic fin, the framework outside is arranged in the hot junction, hot junction the place ahead is provided with outdoor heat radiation fins, first section of framework is provided with the solar energy electroplax, second section of framework is provided with glass, the solar energy electroplax is connected with semiconductor refrigeration piece and control module electricity respectively. The utility model discloses do not need external power source, it is safe energy -conserving, the installation is simple, adorned the curtain unit can, need not the extra work, need not add refrigerating medium, non -maintaining, the reliability is high, and is longe -lived, adopt thin and many fins can effectively improve the radiating effect, more be favorable to air convection.

Description

Integration semiconductor refrigerating unit glass curtain wall

Technical field

The utility model relates to curtain wall field, is specifically related to integrated semiconductor refrigerating unit glass curtain wall.

Background technology

Curtain wall is the exterior wall pad of building, and not load-bearing, hangs up as curtain, therefore is also called suspension wall, is the modern large-scale Light Wall with decorative effect commonly used with highrise building.By structural framing with inlay sheet material and form, do not bear the architectural exterior-protecting construction of agent structure load and effect.

Semiconductor chilling plate, is also thermoelectric module, is a kind of heat pump.Its advantage does not have slide unit, and be applied in some spaces and be restricted, reliability requirement is high, without the occasion that cold-producing medium pollutes.Utilize the Peltier effect of semi-conducting material, when the galvanic couple that direct current is connected into by two kinds of different semi-conducting materials, heat can be absorbed at the two ends of galvanic couple respectively and release heat, the object of freezing can be realized.

Energy-conserving and environment-protective are themes of contemporary world.For a long time, the refrigeration consumption of air-conditioning account for the major part on power load in summer peak, the sunlight in summer is strong simultaneously, make the matter worse to air conditioner load especially, in order to save the energy, utilizing solar energy to carry out refrigeration is significantly, from cost, reliability, installing space is considered, semiconductor refrigerating is most suitable. utilize and embed solar panel at curtain face of wall, semiconductor refrigerating block is set in curtain wall inside, can refrigeration be reached, cold day can be realized by the change sense of current easily simultaneously and heat heating function.

Utility model content

For the problems referred to above, the utility model aims to provide installs non-maintaining life-span of simple energy-conserving and environment-protective high integrated semiconductor refrigerating unit glass curtain wall.

For realizing this technical purpose, scheme of the present utility model is: integrated semiconductor refrigerating unit glass curtain wall, comprise framework, control module, semiconductor chilling plate is provided with in the middle of described framework, described semiconductor chilling plate comprises cold junction and hot junction, described framework central filler has heat insulation foam, described heat insulation foam two ends are provided with metal sheet, described cold junction is placed in inside framework, described cold junction front is provided with indoor heat absorption fin, described hot junction is placed in outside framework, front, described hot junction is provided with outdoor radiating fin, described framework upper semisection is provided with solar energy electroplax, described framework lower semisection is provided with glass, described solar energy electroplax is electrically connected with semiconductor chilling plate and control module respectively.

As preferably, described indoor heat absorption fin thickness is 0.50 ~ 1.5mm, and the spacing between described indoor heat absorption fin is 1.2 ~ 3.6mm.

As preferably, described outdoor radiating fin thickness is 0.50 ~ 1.5mm, and the spacing between described outdoor radiating fin is 1.2 ~ 3.6mm.

As preferably, described heat insulation foam is that the spun-glass insulation of the loose structure of the coefficient of heat conduction 0.01 ~ 0.060w/cm.k is cotton.

The beneficial effects of the utility model, do not need external power source, energy-saving safe; Install simple, install curtain wall unit, without the need to extra work; Do not need to add refrigerant, non-maintaining, reliability is high, and the life-span is long; Adopt thin and many fin effectively can improve radiating effect, be more conducive to cross-ventilation heat radiation.

Accompanying drawing explanation

Fig. 1 is indoor partial structurtes schematic diagram of the present utility model;

Fig. 2 is outdoor partial structurtes schematic diagram of the present utility model;

Fig. 3 is structural representation of the present utility model.

Detailed description of the invention

Below in conjunction with the drawings and specific embodiments, the utility model is described in further details.

As Fig. 1, 2, shown in 3, the integrated semiconductor refrigerating unit glass curtain wall of specific embodiment described in the utility model, comprise framework 1, control module, semiconductor chilling plate is provided with in the middle of described framework 1, described semiconductor chilling plate comprises cold junction 4 and hot junction 6, described framework 1 central filler has heat insulation foam 3, described heat insulation foam 3 two ends are provided with metal sheet 2, described cold junction 4 is placed in inside framework 1, described cold junction 4 front is provided with indoor heat absorption fin 5, described hot junction 6 is placed in outside framework 1, front, described hot junction 6 is provided with outdoor radiating fin 7, described framework 1 upper semisection is provided with solar energy electroplax 8, described framework 1 lower semisection is provided with the glass 9 for daylighting, described solar energy electroplax 8 is electrically connected with semiconductor chilling plate and control module respectively.

In order to improve the heat exchanger effectiveness of indoor heat absorption fin and outdoor radiating fin, described indoor heat absorption fin 5 thickness is 0.50 ~ 1.5mm, and the spacing between described indoor heat absorption fin 5 is 1.2 ~ 3.6mm.Described outdoor radiating fin 7 thickness is 0.50 ~ 1.5mm, and the spacing between described outdoor radiating fin 7 is 1.2 ~ 3.6mm.Thin and many fin effectively can improve radiating effect, is more conducive to cross-ventilation heat radiation.

In order to improve heat insulation effect, reduce heat transfer, described heat insulation foam 3 is that the spun-glass insulation of the loose structure of the coefficient of heat conduction 0.01 ~ 0.060w/cm.k is cotton.The cotton pyroconductivity of spun-glass insulation is low, nonflammable, nonpoisonous and tasteless, corrosion-resistant, long service life.

The above; be only preferred embodiment of the present utility model; not in order to limit the utility model, every above embodiment is done according to technical spirit of the present utility model any trickle amendment, equivalently replace and improve, within the protection domain that all should be included in technical solutions of the utility model.

Claims (4)

1. integrated semiconductor refrigerating unit glass curtain wall, comprise framework, control module, it is characterized in that: in the middle of described framework, be provided with semiconductor chilling plate, described semiconductor chilling plate comprises cold junction and hot junction, described framework central filler has heat insulation foam, described heat insulation foam two ends are provided with metal sheet, described cold junction is placed in inside framework, described cold junction front is provided with indoor heat absorption fin, described hot junction is placed in outside framework, front, described hot junction is provided with outdoor radiating fin, described framework upper semisection is provided with solar energy electroplax, described framework lower semisection is provided with glass, described solar energy electroplax is electrically connected with semiconductor chilling plate and control module respectively.

2. integrated semiconductor refrigerating unit glass curtain wall according to claim 1, is characterized in that: described indoor heat absorption fin thickness is 0.50 ~ 1.5mm, and the spacing between described indoor heat absorption fin is 1.2 ~ 3.6mm.

3. integrated semiconductor refrigerating unit glass curtain wall according to claim 1, is characterized in that: described outdoor radiating fin thickness is 0.50 ~ 1.5mm, and the spacing between described outdoor radiating fin is 1.2 ~ 3.6mm.

4. integrated semiconductor refrigerating unit glass curtain wall according to claim 1, is characterized in that: described heat insulation foam is that the spun-glass insulation of the loose structure of the coefficient of heat conduction 0.01 ~ 0.060w/cm.k is cotton.