CN103743018A

CN103743018A - Novel energy-saving TE module air conditioner

Info

Publication number: CN103743018A
Application number: CN201310751475.XA
Authority: CN
Inventors: 王春
Original assignee: Individual
Current assignee: Individual
Priority date: 2013-12-25
Filing date: 2013-12-25
Publication date: 2014-04-23

Abstract

The invention relates to a novel energy-saving TE module air conditioner. The air conditioner comprises a shell, impounding containers, energy releaser chamber energy-releasing pieces and absorption materials, wherein the front and rear end planes of the shell are respectively provided with an energy exchanger chamber and an energy releaser chamber, a diversion air duct is arranged in the shell, and fans are correspondingly arranged at air flue ports; an energy core consists of a plurality of TE modules and a power supply main-board carrier inside the shell; the energy exchanger chambers are internally provided with energy diffusion pieces which are closely adhered to one surfaces of the TE modules, energy exchange is performed when the energy diffusion pieces are in contact with outside air, and condensate water is aggregated by hydrones in the air and flow downwards; the impounding containers are arranged below the energy exchanger chambers and are used for storing condensate water; and the energy releaser chamber energy-releasing pieces are arranged on the other surfaces of the TE modules, are used for absorbing energy generated by the TE modules, and quickly conducting the energy out, wherein the energy generated by the TE modules is opposite to the energy in an energy exchanger; and the absorption materials are adhered to the energy-releasing pieces and are used for absorbing the condensate water and guiding the condensate water to an element to be heated and evaporated, and one end of each absorption material is protruded into the impounding container. The novel energy-saving TE module air conditioner has the characteristics of environmental protection, energy conservation and the like.

Description

A kind of novel energy-conserving TE module air-conditioner

Technical field

The present invention relates to a kind of novel energy-conserving TE module air-conditioner, mainly with TE module, replace traditional compressor, can reach and save the energy and power consumption, can produce cold energy and heat energy, be applied to industry, civil air conditioner, wait and belong to semiconductor heating, refrigerating integrated application.

Background technology

At present air-conditioner has the following disadvantages: (1) is used refrigerant and compressor etc. to coordinate, realize power conversion, not only cost is high for it, volume is large, environment-adapting ability is poor, is not easy mobile and transportation, and during running, noise greatly and very power consumption again, for now all be particular about green can with focus on environmental protection, really do not meet environmental regulations; (2) use ceramic substrate TE module, yield rate is low, and energy consumption is large, and functional reliability is low etc., does not meet the standard of energy-saving and emission-reduction.

Summary of the invention

The deficiency existing for overcoming existing air-conditioner, the invention provides a kind of novel energy-conserving TE module air-conditioner, it comprises casing, and its front/rear end is respectively equipped with energy exchanger chamber and energy release chamber, its inside is provided with diversion air duct, and corresponding each wind passage mouth place is provided with fan; Casing is inner, consists of the core of energy a plurality of TE modules and power supply mainboard carrier; In energy exchanger chamber, there is energy dissipation part, be closely attached to the one side of TE module; During with the contacting of outside air, carry out energy exchange, and airborne hydrone can be combined into condensed water dirty; Water storage container, is arranged on below, energy exchanger chamber, for storing condensed water; Release energy release chamber can sheet, is arranged on TE module another side, in order to absorb the generation of TE module and energy contrary in interchanger, and energy is conducted fast; One adsorption material, is attached at that release can sheet, and this water storage container is also stretched in its one end, in order to draw condensed water and to be directed on this element and to be heated and to be evaporated.The features such as the present invention has environmental protection, energy-conservation.

Further, described energy exchanger chamber, has energy dissipation part, diversion air duct, fan, casing front end face to form a device chamber.

Further, the energy dissipation part of described energy exchanger chamber, base material is copper or aluminium, by welding or crimping, is fixed on the one side of TE module.

Further, the diversion air duct of described energy exchanger chamber, that part is vertical contacts with diffusion by transducing substrate, by crimping or welding, closely connect together, a plurality of pod apertures of surface array at transducing substrate, casing end face is provided with air intake vent and air intake vent and air outlet, on air intake vent and air outlet, is provided with mutually suitable fan.

Further, described a plurality of TE modules, the upper and lower base plate of its TE module is metal substrate, base material is copper or aluminium, on base material, be coated with diamond insulating coating, be provided with the line layer mutually suitable with thermocouple arm on diamond insulating coating, this combination forms TE module.

Further, described power supply mainboard carrier, by the turbid required line layer of power source design that is carved into of the copper layer on epoxy resin board, it has multiple electronic component to be combined on epoxy resin copper clad laminate, and epoxy resin base plate is provided with and the suitable window of TE module and installing hole simultaneously.

Further,, there are energy cache module, heat pipe in described energy release chamber, releasing can sheet, fan, casing rear end face form another device chamber.

Further, described energy cache module, its base material is copper or aluminium, at the end face of base material, is provided with the locating hole mutually suitable with heat pipe; Energy cache module is by being closely connected in the another side of TE module by crimping or welding; Heat pipe is closely connected with the locating hole on energy cache module end face by crimping or welding; Release a plurality of airflow holes of array and the connecting hole mutually suitable with heat pipe on energy sheet, by crimping or welding, be closely connected with heat pipe; Casing rear end face is provided with air intake vent and air outlet, on air intake vent and air outlet, is provided with mutually suitable fan.

Further, described adsorption material, water storage container; The material of adsorption material is cotton cord, and the material of water storage container is metal or macromolecular material

According to above technical scheme, can realize following beneficial effect:

1. the present invention forms a device chamber by energy dissipation part, diversion air duct, fan, casing front end face, and its energy dissipation part base material is copper or aluminium, by welding or crimping, is fixed on the one side of TE module; Part is vertical contacts with diffusion for transducing substrate, by crimping or welding, closely connect together, a plurality of pod apertures of surface array at transducing substrate, casing end face is provided with air intake vent and air outlet, the rear end face of casing, be provided with LCD fluorescent screen display and some buttons, be connected with power supply mainboard carrier, be used for controlling temperature and power connection and disconnect on air intake vent and air outlet and be provided with mutually suitable fan; Effectively improve energy conversion efficiency, greatly reduced each system conduction resistance, strengthened the conductibility of energy.

2. the present invention is metal substrate by the upper and lower base plate of a plurality of TE modules, and base material is copper or aluminium, is coated with diamond insulating coating on base material, is provided with the line layer mutually suitable with thermocouple arm on diamond insulating coating, and this combination forms TE module; Effectively improve the yield rate of product, effectively solved the rotten problem such as turbid of the defect, element internal cold draining, electrochemistry of TE module thermal stress, greatly improved its working life and energy conversion efficiency thereof.

3. the present invention is by the combination of power supply mainboard carrier and a plurality of TE modules, by the turbid required line layer of power source design that is carved into of the copper layer on epoxy resin board, it has multiple electronic component to be combined on epoxy resin copper clad laminate, and TE module is fixed on the core that forms energy on the window on epoxy resin base plate simultaneously; Greatly simplify link, effectively reduced product cost, reduced TE module because of the fault that power supply causes, improved quality and the reliability of product.

4. the present invention is energy release chamber, has energy cache module, heat pipe, releasing can sheet, fan, casing rear end face form another device chamber; The energy dissipation part of energy exchanger chamber, base material is copper or aluminium, by welding or crimping, is fixed on the one side of TE module; Part is vertical contacts with diffusion for metal substrate, by crimping or welding, closely connect together, release can sheet a plurality of pod apertures of surface array, casing end face is provided with air intake vent and air outlet, air intake vent is provided with mutually suitable fan with air outlet; Effectively improve energy conversion efficiency, greatly reduced each system conduction resistance, strengthened the conductibility of energy.

5. the present invention, by adsorption material, is attached at and releases energy sheet, and this water storage container is also stretched in its one end, in order to draw condensed water; Adsorption material, water storage container; The material of adsorption material is cotton cord, and the material of water storage container is metal or macromolecular material; The core that has effectively solved TE module energy is when work, and the condensate water producing during the exchange of extraneous air produce power, have simple in structure, the feature such as cost is low.

Accompanying drawing explanation

Below in conjunction with drawings and Examples, the invention will be further described.

Fig. 1, Fig. 2 is plane decomposing schematic representation of the present invention;

Fig. 3 is behaviour in service schematic diagram of the present invention;

Wherein 11 ... shell, 12 ... water storage container, 13 ... rope made of hemp adsorption material, 14 ... power supply mainboard carrier, 15 energy cache modules, 16 ... heat pipe locating hole, 17a, 17b ... metal substrate, 18a, 18b ... diamond insulating coating, 19a, 19b ... the line layer that thermocouple arm is mutually suitable, 20 ... thermocouple arm, 21 ... heat pipe, 22 ... TE module, 111a, 111b ... casing front end face air intake vent, air outlet, 112a, 112b, 215a, 215b ... fan, 113 ... pod apertures, 114 ... energy exchanger chamber, 115 ... diffusion part, 116 transducing substrates, 117 ... front end face, 210 ... connecting hole, 211 ... energy release room, 212 ... airflow hole, 213 ... release energy sheet, 214a, 214b, casing rear end face air outlet, air intake vent, 216 water storage container cover plates, 217 ... condensate water drippage hole, 218 ... press button, 219 ... LCD fluorescent screen display, 220 ... rear end face.

The specific embodiment

Below in conjunction with accompanying drawing, explain technical scheme of the present invention.

Described a kind of novel energy-conserving TE module air-conditioner, comprises casing, and its front/rear end is respectively equipped with energy exchanger chamber and energy release chamber, the energy dissipation part of energy exchanger chamber, and base material is copper or aluminium, by welding or crimping, is fixed on the one side of TE module; The diversion air duct of energy exchanger chamber, be that part is vertical contacts with diffusion by transducing substrate, by crimping or welding, closely connect together, in a plurality of pod apertures of surface array of transducing substrate, casing end face is provided with air intake vent and air outlet, on air intake vent and air outlet, is provided with mutually suitable fan; The upper and lower base plate of its TE module is metal substrate, base material is copper or aluminium, on base material, be coated with diamond insulating coating, on diamond insulating coating, be provided with the line layer mutually suitable with thermocouple arm, this combination forms TE module, the combination of power supply mainboard carrier and a plurality of TE modules, by the turbid required line layer of power source design that is carved into of the copper layer on epoxy resin board, it has multiple electronic component to be combined on epoxy resin copper clad laminate, and TE module is fixed on the core that forms energy on the window on epoxy resin base plate simultaneously; , there are energy cache module, heat pipe in energy release chamber, releasing can sheet, fan, casing rear end face form another device chamber; Energy cache module, its base material is copper or aluminium, at the end face of base material, is provided with the locating hole mutually suitable with heat pipe; Energy cache module is by being closely connected in the another side of TE module by crimping or welding; Heat pipe is closely connected with the pod apertures on energy cache module end face by crimping or welding; Release a plurality of airflow holes of array and the connecting hole mutually suitable with heat pipe on energy sheet, by crimping or welding, be closely connected with heat pipe; Casing rear end face is provided with air intake vent and air outlet, on air intake vent and air outlet, is provided with mutually suitable fan; The rear end face of casing, is provided with LCD fluorescent screen display and some buttons, is connected with power supply mainboard carrier, is used for override temperature and power connection and disconnection.One adsorption material, is attached at that release can sheet, and this water storage container is also stretched in its one end, in order to draw condensed water and to be directed on this element and to be heated and to be evaporated.

During use, external power supply and power supply mainboard carrier 116 are connected, by rear end face 220 buttons 218 of casing, control temperature, electronic component work on power supply mainboard carrier 116, provides a best operating current and voltage to TE module 22, the work of TE22 module, the sense of current loading at TE module according to power supply mainboard carrier 116, the one side of TE module 22 produces heat energy or cold energy; Heat energy or cold energy are transmitted on diffusion part 115 fast by energy transducing substrate 116, by casing front end face 11, being provided with air intake vent 111a and air outlet 111b mutually

suitable fan

111a, 111b works, extraneous air-flow passes through air intake vent, enter energy exchanger chamber 114, air-flow is under the effect of diffusion part 115 pod apertures 113, quick and TE module 22 produces heat energy or cold energy exchange, the air-flow after exchange is derived through the air outlet 111b of front end face; The another side of TE module 22 produces the energy contrary with interchanger chamber 114 simultaneously, cold energy or heat energy, be delivered to fast on energy cache module 15, in heat pipe 21 internal working medium effects, make energy fast transfer to releasing on energy sheet 213,

fan

215a, 215b on the rear end face 220 of casing work simultaneously, air-flow has the air intake vent 214b of rear end face to import, in energy release chamber 211, exchange with the energy of releasing on energy sheet 213, air-flow is derived at the air outlet 214a of rear end face 220 along the airflow hole 212 of releasing on energy sheet 213; Simultaneously indoor in energy exchange chamber 114 and energy release 211, can produce condensate water, condensate water is under the effect of gravity, drop onto on the cover plate 216 of below, casing inside water storage container, drippage hole 217 on the cover plate 216 of water storage container, flow in water storage container 12, cotton cord adsorption material 13 one end are placed in water storage container 12, one end can sheet 213 be connected with releasing, because hydrone is in the interior diffusion of cotton cord 13, the heat energy that the other end is released on energy sheet 213 passes through cotton cord 13, the hydrone in cotton cord 13 is evaporated, thereby eliminate the drawback that existing condensed water of air conditioner discharges; Simultaneously the formation of TE module 22 is upper by

metal substrate

17a, 17b, plated with gold hard rock insulating coating 18a, 18b, and diamond insulating coating 18a, 18b is provided with line layer 19a, the 19b mutually suitable with thermocouple arm 20, thus be combined into efficient, reliable TE module.

Claims

1. a novel energy-conserving TE module air-conditioner, comprises casing, and its front/rear end is respectively equipped with energy exchanger chamber and energy release chamber, and its inside is provided with diversion air duct, and corresponding each wind passage mouth place is provided with fan; Casing is inner, consists of the core of energy a plurality of TE modules and power supply mainboard carrier; In energy exchanger chamber, there is energy dissipation part, be closely attached to the one side of TE module; Water storage container, is arranged on below, energy exchanger chamber, for storing condensed water; Energy sheet is released in energy release chamber, and TE module another side is set, and an adsorption material is attached at and releases energy sheet, and this water storage container is also stretched in its one end, in order to draw condensed water and to be directed on this element.

2. a kind of novel energy-conserving TE module air-conditioner according to claim 1, is characterized in that, described energy exchanger chamber has energy dissipation part, diversion air duct, fan, casing front end face to form a device chamber.

3. according to a kind of novel energy-conserving TE module air-conditioner described in claim 1 and 2, it is characterized in that, the energy dissipation part of described energy exchanger chamber, base material is copper or aluminium, by welding or crimping, is fixed on the one side of TE module.

4. according to a kind of novel energy-conserving TE module air-conditioner described in claim 2 and 3, it is characterized in that, the diversion air duct of described energy exchanger chamber, that part is vertical contacts with diffusion by transducing substrate, by crimping or welding, closely connect together, in a plurality of pod apertures of surface array of transducing substrate, casing front end face is provided with air intake vent and air outlet, on air intake vent and air outlet, is provided with mutually suitable fan.

5. according to a kind of novel energy-conserving TE module air-conditioner described in claim 1 and 3, it is characterized in that, described a plurality of TE module, the upper and lower base plate of its TE module is metal substrate, base material is copper or aluminium, on base material, be coated with diamond insulating coating, be provided with the line layer mutually suitable with thermocouple arm on diamond insulating coating, this combination forms TE module.

6. according to a kind of novel energy-conserving TE module air-conditioner described in claim 1 and 5, it is characterized in that, described power supply mainboard carrier, by the turbid required line layer of power source design that is carved into of the copper layer on epoxy resin board, it has multiple electronic component to be combined on epoxy resin copper clad laminate, and epoxy resin base plate is provided with and the suitable window of TE module simultaneously.

7. a kind of novel energy-conserving TE module air-conditioner according to claim 1, is characterized in that, there are energy cache module, heat pipe in described energy release chamber, releasing can sheet, fan, casing rear end face form another device chamber.

8. a kind of novel energy-conserving TE module air-conditioner of stating according to claim 1 and 7, is characterized in that, described energy release chamber, and energy cache module, its base material is copper or aluminium, at the end face of base material, is provided with the locating hole mutually suitable with heat pipe; Energy cache module is by being closely connected in the another side of TE module by crimping or welding; Heat pipe is closely connected with the locating hole on energy cache module end face by crimping or welding; Release a plurality of airflow holes of array and the connecting hole mutually suitable with heat pipe on energy sheet, by crimping or welding, be closely connected with heat pipe; Casing rear end face is provided with air intake vent and air outlet, on air intake vent and air outlet, is provided with mutually suitable fan.

9. a kind of novel energy-conserving TE module air-conditioner according to claim 1, is characterized in that adsorption material, water storage container; The material of adsorption material is cotton cord, and the material of water storage container is metal or macromolecular material.