CN202316490U

CN202316490U - Cooling device for decomposing and recovering photovoltaic assembly

Info

Publication number: CN202316490U
Application number: CN201120436896XU
Authority: CN
Inventors: 王士元
Original assignee: Yingli Group Co Ltd
Current assignee: Yingli Group Co Ltd
Priority date: 2011-11-07
Filing date: 2011-11-07
Publication date: 2012-07-11
Anticipated expiration: 2021-11-07

Abstract

The utility model discloses a cooling device for decomposing and recovering a photovoltaic assembly. In a working process of the cooling device, a driving device drives a fan to work; air blown out from the fan is subjected to a cooling treatment through a water condenser, is introduced into an air flue through an air inlet, and is introduced into a cooling cavity by an air outlet; the air outlet with a vertical downward open direction can enable cold air blown out from the air outlet to flow through the cooling cavity from top to bottom, so that the cold air is in contact with a high-temperature crushed material entering from a feed inlet and cools the high-temperature crushed material, and further, the high-temperature crushed material can be prevented from secondary adhesion; simultaneously, the flow direction of the cold air can guide the crushed material to downwards move from the inside of the cooling cavity until the crushed material reaches to a discharge hole; the crushed material is conveyed to external crushed material conveying equipment through the discharge hole, so as to enter a next treatment working procedure; therefore, through the mutual cooperation of all components, the in-time cooling treatment of the high-temperature crushed material of the photovoltaic assembly after a crushing treatment is achieved; the secondary adhesion of the high-temperature crushed material is avoided; and the convenience is provided for the implementation of a subsequent treatment working procedure.

Description

A kind of photovoltaic module that is used for decomposes the heat sink that reclaims

Technical field

The utility model relates to photovoltaic module and decomposes the recovery technology field, and particularly a kind of photovoltaic module that is used for decomposes the heat sink that reclaims.

Background technology

As a kind of emerging clean energy resource; Photovoltaic industry development in recent years is swift and violent; But the recycling of the waste and old photovoltaic module of the thing followed becomes unavoidable problem, and the improving constantly of As market, people also have higher requirement to the decomposition recycling of photovoltaic module.

Decompose in the removal process scrapping photovoltaic module in employing heat mode; Solid-state or semi-solid materials such as the backboard of fusion, battery sheet, welding and remaining rubber-plastics material not under hot environment; Be cut to the strip particle to cutting crushing cutter, and derived the high temperature pod.And after derivation, because particle still has uniform temperature, if the untimely processing of lowering the temperature; Very easily produce the secondary adhesion phenomenon of particle; Cutting and crushing before making it is handled and is lost meaning, and the particle behind the secondary adhesion is unfavorable for that classification reclaims, and makes troubles for follow-up correlation procedure.

Therefore, how a kind of device is provided, to handle be the important technological problems that those skilled in the art need solve at present so that the high temperature particle of the photovoltaic module after the break process lowered the temperature timely.

The utility model content

The purpose of the utility model provides a kind of heat sink that photovoltaic module decompose to reclaim that is used for, and this heat sink can be to the processing of lowering the temperature timely of the high temperature particle of the photovoltaic module after the break process.

For solving the problems of the technologies described above; The utility model provides a kind of photovoltaic module that is used for to decompose the heat sink that reclaims; Comprise housing, the inside of said housing has the cooling chamber, and the top of said housing has the charging aperture that is connected with the external discrete cabin; The bottom of said housing has the discharging opening that matches with the particle conveying equipment, and said charging aperture, said cooling chamber and said discharging opening are communicated with successively;

The both sides in said cooling chamber are provided with the air channel, and the air outlet in said air channel is positioned at the top in said cooling chamber, and the opening direction of said air outlet straight down;

The outer setting of said housing has the blower fan that is connected with the air inlet in said air channel, and said blower fan is corresponding one by one with said air inlet, and is provided with water condenser between said blower fan and the said air inlet, also is connected with drive unit on the said blower fan.

Preferably, said charging aperture is provided with first adpting flange suitable with pod.

Preferably, said discharging opening is provided with second adpting flange suitable with the particle conveying equipment.

Preferably, the junction of said air inlet and said blower fan has contraction section.

Preferably, have water inlet and the delivery port that is connected with outside supply and drain water system respectively on the said water condenser.

Preferably, said blower fan is specially two, and lays respectively at the both sides of said housing.

Preferably, said drive unit is specially motor.

Above-mentioned background is technological relatively; The photovoltaic module that is used for that the utility model provided decomposes the heat sink that reclaims; Comprise housing, the inside of said housing has the cooling chamber, and the top of said housing has the charging aperture that is connected with the external discrete cabin; The bottom of said housing has the discharging opening that matches with the particle conveying equipment, and said charging aperture, said cooling chamber and said discharging opening are communicated with successively; The both sides in said cooling chamber are provided with the air channel, and the air outlet in said air channel is positioned at the top in said cooling chamber, and the opening direction of said air outlet straight down; The outer setting of said housing has the blower fan that is connected with the air inlet in said air channel, and said blower fan is corresponding one by one with said air inlet, and is provided with water condenser between said blower fan and the said air inlet, also is connected with drive unit on the said blower fan.In the course of work, the said blower fan work of said drive device drives is handled after said air inlet feeds in the said air channel through said water condenser cooling by the wind that blows out in the blower fan; And feed in the said cooling chamber by said air outlet; Have straight down that the said air outlet of opening direction can make the cold wind that is blown out by said air outlet place flow through said cooling chamber from top to bottom, so that contact with the high temperature particle that gets into by the charging aperture place and to its cooling, to prevent its secondary adhesion; Simultaneously; The flow direction of cold wind can guide particle by downward moving until said discharging opening place in the said cooling chamber, and is delivered to outside particle conveying equipment place via said discharging opening, so that get into next treatment process; Thereby through cooperatively interacting of each parts; Realized the timely cooling of photovoltaic module high temperature particle after the break process is handled, avoided the secondary adhesion of high temperature particle, for the enforcement of subsequent treatment operation is provided convenience.

In another preferred version of the utility model, said charging aperture is provided with first adpting flange suitable with pod.This first adpting flange can significantly improve the assembling intensity between said charging aperture and pod; And make its assembling process more simple and easy to do; And after installing said first adpting flange additional; Can further improve the seal of assembling place between said charging aperture and pod, to guarantee the relative sealing between said cooling chamber and external environment condition, the particle in the chamber of avoiding lowering the temperature receives secondary pollution.

Description of drawings

In order to be illustrated more clearly in the utility model embodiment or technical scheme of the prior art; To do to introduce simply to the accompanying drawing of required use in embodiment or the description of the Prior Art below; Obviously, the accompanying drawing in describing below only is some embodiment of the utility model, for those of ordinary skills; Under the prerequisite of not paying creative work, can also obtain other accompanying drawing according to these accompanying drawings.

The assembly structure sketch map of the heat sink that Fig. 1 is provided for a kind of specific embodiment of the utility model;

Fig. 2 is the perspective structure side view of Fig. 1;

Fig. 3 is the perspective structure vertical view of Fig. 1.

The specific embodiment

The core of the utility model provides a kind of heat sink that photovoltaic module decompose to reclaim that is used for, and this heat sink can be to the processing of lowering the temperature timely of the high temperature particle of the photovoltaic module after the break process.

In order to make those skilled in the art person understand the utility model scheme better, the utility model is done further to specify below in conjunction with the accompanying drawing and the specific embodiment.

Please refer to Fig. 1, Fig. 2 and Fig. 3, the assembly structure sketch map of the heat sink that Fig. 1 is provided for a kind of specific embodiment of the utility model; Fig. 2 is the perspective structure side view of Fig. 1; Fig. 3 is the perspective structure vertical view of Fig. 1.

In the specific embodiment; The photovoltaic module that is used for that the utility model provided decomposes the heat sink that reclaims; Comprise housing 11, the inside of housing 11 has cooling chamber 12, and the top of housing 11 has the charging aperture 121 that is connected with the external discrete cabin; The bottom of housing 11 has the discharging opening 122 that matches with the particle conveying equipment, and charging aperture 121, cooling chamber 12 and discharging opening 122 are communicated with successively; The both sides in cooling chamber 12 are provided with air channel 13, and the air outlet 131 in air channel 13 is positioned at the top in cooling chamber 12, and the opening direction of air outlet 131 straight down; The outer setting of housing 11 has the blower fan 14 that is connected with the air inlet 132 in air channel 13, and blower fan 14 is corresponding one by one with air inlet 132, and is provided with water condenser 15 between blower fan 14 and the air inlet 132, also is connected with drive unit 16 on the blower fan 14.In the course of work, drive unit 16 drives blower fan 14 work, is handled after in the air inlet 132 feeding air channels 13 through water condenser 15 coolings by the wind that blows out in the blower fan 14; And by in the air outlet 131 feeding cooling chambeies 12; Have the air outlet 131 of opening direction straight down and can make the cold wind that blows out by air outlet 131 places flow through cooling chamber 12 from top to bottom, so that contact with the high temperature particle that gets into by charging aperture 121 places and to its cooling, to prevent its secondary adhesion; Simultaneously; The flow direction of cold wind can guide particle by downward moving until discharging opening 122 places in the cooling chamber 12, and is delivered to outside particle conveying equipment place via discharging opening 122, so that get into next treatment process; Thereby through cooperatively interacting of each parts; Realized the timely cooling of photovoltaic module high temperature particle after the break process is handled, avoided the secondary adhesion of high temperature particle, for the enforcement of subsequent treatment operation is provided convenience.

Particularly, charging aperture 121 is provided with first adpting flange 171 suitable with pod.This first adpting flange 171 can significantly improve the assembling intensity between charging aperture 121 and pod; And make its assembling process more simple and easy to do; And after installing first adpting flange 171 additional; Can further improve the seal of assembling place between charging aperture 121 and pod, to guarantee the relative sealing between cooling chamber 12 and external environment condition, the chamber 12 interior particles of avoiding lowering the temperature receive secondary pollution.

More specifically, discharging opening 122 is provided with second adpting flange 172 suitable with the particle conveying equipment.This second adpting flange 172 can significantly improve the assembling intensity between discharging opening 122 and particle conveying equipment; Reduce its assembly difficulty; And further improve the seal of assembling place between discharging opening 122 and particle conveying equipment, with the relative sealing between further assurance cooling chamber 12 and external environment condition.

Further, air inlet 132 has contraction section 133 with the junction of blower fan 14.This contraction section 133 can make by the contact area of 15 of the wind that blows out in the blower fan 14 and water condensers bigger; Contact more abundant; Increase the cold flow at air inlet 132 places simultaneously; So that cold wind is more fully effective to the cooling-down effect of the high temperature particle in the cooling chamber 12, and make its cooling efficient be able to corresponding raising.

In addition, have the water inlet 151 and delivery port 152 that is connected with outside supply and drain water system respectively on the water condenser 15.Through cooperatively interacting of this water inlet 151 and delivery port 152 and outside supply and drain water system, can realize the recycle of the cooling water in the water condenser, so that the operating efficiency of said heat sink is higher, cooling effect is better.

On the other hand, blower fan 14 is specially two, and lays respectively at the both sides of housing 11.Should be clear and definite, the quantity of this blower fan 14 is specially two and is merely preferred version, and its quantity is not limited to two shown in the figure, all can so long as can satisfy the actual use needs of said heat sink.

In addition, drive unit 16 is specially motor.Certainly, this drive unit 16 is not limited to the motor shown in the figure, all can so long as can satisfy the actual use needs of said heat sink.

To sum up can know; The photovoltaic module that is used for that provides in the utility model decomposes the heat sink that reclaims; Comprise housing, the inside of said housing has the cooling chamber, and the top of said housing has the charging aperture that is connected with the external discrete cabin; The bottom of said housing has the discharging opening that matches with the particle conveying equipment, and said charging aperture, said cooling chamber and said discharging opening are communicated with successively; The both sides in said cooling chamber are provided with the air channel, and the air outlet in said air channel is positioned at the top in said cooling chamber, and the opening direction of said air outlet straight down; The outer setting of said housing has the blower fan that is connected with the air inlet in said air channel, and said blower fan is corresponding one by one with said air inlet, and is provided with water condenser between said blower fan and the said air inlet, also is connected with drive unit on the said blower fan.In the course of work, the said blower fan work of said drive device drives is handled after said air inlet feeds in the said air channel through said water condenser cooling by the wind that blows out in the blower fan; And feed in the said cooling chamber by said air outlet; Have straight down that the said air outlet of opening direction can make the cold wind that is blown out by said air outlet place flow through said cooling chamber from top to bottom, so that contact with the high temperature particle that gets into by the charging aperture place and to its cooling, to prevent its secondary adhesion; Simultaneously; The flow direction of cold wind can guide particle by downward moving until said discharging opening place in the said cooling chamber, and is delivered to outside particle conveying equipment place via said discharging opening, so that get into next treatment process; Thereby through cooperatively interacting of each parts; Realized the timely cooling of photovoltaic module high temperature particle after the break process is handled, avoided the secondary adhesion of high temperature particle, for the enforcement of subsequent treatment operation is provided convenience.

More than be used for photovoltaic module to the utility model provided and decompose the heat sink that reclaims and carried out detailed introduction.Used concrete example among this paper the principle and the embodiment of the utility model are set forth, the explanation of above embodiment just is used to help to understand the method and the core concept thereof of the utility model.Should be understood that; For those skilled in the art; Under the prerequisite that does not break away from the utility model principle, can also carry out some improvement and modification to the utility model, these improvement and modification also fall in the protection domain of the utility model claim.

Claims

1. one kind is used for the heat sink that photovoltaic module decomposes recovery; It is characterized in that: comprise housing; The inside of said housing has the cooling chamber; The top of said housing has the charging aperture that is connected with the external discrete cabin, and the bottom of said housing has the discharging opening that matches with the particle conveying equipment, and said charging aperture, said cooling chamber and said discharging opening are communicated with successively;

2. the photovoltaic module that is used for as claimed in claim 1 decomposes the heat sink that reclaims, and it is characterized in that: said charging aperture is provided with first adpting flange suitable with pod.

3. the photovoltaic module that is used for as claimed in claim 2 decomposes the heat sink that reclaims, and it is characterized in that: said discharging opening is provided with second adpting flange suitable with the particle conveying equipment.

4. the photovoltaic module that is used for as claimed in claim 1 decomposes the heat sink that reclaims, and it is characterized in that: the junction of said air inlet and said blower fan has contraction section.

5. the photovoltaic module that is used for as claimed in claim 1 decomposes the heat sink that reclaims, and it is characterized in that: have the water inlet and the delivery port that are connected with outside supply and drain water system respectively on the said water condenser.

6. decompose the heat sink that reclaims like each described photovoltaic module that is used in the claim 1 to 5, it is characterized in that: said blower fan is specially two, and lays respectively at the both sides of said housing.

7. the photovoltaic module that is used for as claimed in claim 6 decomposes the heat sink that reclaims, and it is characterized in that: said drive unit is specially motor.