CN204881094U - Solar energy glass board drying device - Google Patents

Abstract

The utility model provides a solar energy glass board drying device, includes bottom plate, heating device, admission line and stoving structure, and the bottom plate includes power and first support column, and heating device includes heating cabinet, first filter screen and heating rod, and the admission line includes fan and second filter screen, the stoving structure includes framework, first through -hole, passageway, second through -hole, horizontal plate, third through -hole and montant. The utility model discloses simple structure, convenient to use can carry out quick stoving to the solar energy glass board, and drying efficiency is well just effectual, is fit for popularizing and applying, can show the manufacturing cost who reduces the enterprise.

Description

A kind of solar energy glass plate drying unit

Technical field

The utility model relates to solar energy glass technical field, particularly relates to a kind of solar energy glass plate drying unit.

Background technology

Solar energy has generality, all have everywhere, can directly development and utilization, be convenient to gather, and need not exploit and transport, exploitation solar energy does not pollute the environment, solar energy is one of most clean energy resource, its total amount belongs to the maximum energy can developed in the world now, in certain sense, the energy of the sun is nexhaustible, the invention of solar energy glass plate and application, certain facilitation is served to the development and use of solar energy, but current solar energy glass plate drying unit complex structure, using method is loaded down with trivial details, can not dry fast solar energy glass plate, and drying efficiency is low, weak effect, and make it be not suitable for applying due to the limitation of itself equipment, which improves the production cost of enterprise.

Therefore, need to provide a kind of new technical scheme to solve the problems of the technologies described above.

Utility model content

The purpose of this utility model is to provide a kind of solar energy glass plate drying unit that can effectively solve the problems of the technologies described above.

In order to solve the problems of the technologies described above, the utility model adopts following technical scheme:

A kind of solar energy glass plate drying unit, described solar energy glass plate drying unit comprises base plate, be positioned at the heater above described base plate, the drying structure being positioned at the admission line above described heater and being positioned on the right side of described admission line, described base plate comprises the power supply being positioned at described plate upper surface and the first support column being positioned at the described plate upper surface left and right sides, described heater comprises the heating cabinet be positioned on the left of described power supply, be positioned at the first screen pack of described heating cabinet inner surface and be positioned at the heating rod of described heating cabinet inside, described admission line comprises the blower fan be positioned on described admission line and the second screen pack being positioned at described admission line inner surface, described drying structure comprises the framework being positioned at described first support column upper surface, be positioned at the first through hole in described framework, be positioned at the passage of described framework inside, be positioned at the second through hole of described framework inside, be positioned at the level board in the middle part of described framework, third through-hole on described level board and the montant between described framework and described level board.

Described base plate is cuboid, described floor level is placed, described power supply is cuboid, described power supply lower surface is fixedly connected with the upper surface of described base plate, described first support column is cuboid, described first support column is provided with two and lays respectively at the left and right sides, and described first support column is vertically placed, and described first support column lower surface is fixedly connected with the upper surface of described base plate.

Described heating cabinet is hollow cuboid, described heating cabinet lower surface contacts with the upper surface of described base plate, described heating cabinet adopts heat-barrier material to make, described first screen pack is cuboid, described first screen pack horizontal positioned, described first screen pack side is fixedly connected with the inner surface of described heating cabinet, and described heating rod is vertically placed, described heating rod is positioned at the inside of described heating cabinet, and described heating rod and described power supply are electrically connected.

Described admission line is L-type, described admission line lower end extends to the inside of described heating cabinet through described first screen pack, described admission line is fixedly connected with described first screen pack, the upper end of described heating rod extends to the inside of described admission line, described blower fan is arranged on described admission line, described blower fan is used for inside outside air being drawn into described admission line, described second screen pack is cylinder, described second screen pack is vertically placed, described second screen pack side is fixedly connected with the inner surface of described admission line, described second screen pack is used for filtering entering inner air.

Described framework is concave shape, described framework horizontal positioned, described first through hole is located in described framework, described passage is concave character type, described passage is positioned at the inside of described framework and communicates with described first through hole, described second through hole is provided with several, and described second through hole one end communicates with described passage, and the described second through hole other end communicates with the inner surface of described framework.

Described level board is cuboid, described level board is provided with two and lays respectively at upper and lower both sides, described level board horizontal positioned, and described level board left end is fixedly connected with described framework, described level board is provided with some described third through-holes, and described third through-hole runs through the upper and lower surface of described level board.

Described montant is cuboid, described montant is provided with several, described montant is vertically placed, described montant is between described framework and described level board, described montant one end is fixedly connected with the inner surface of described framework, the described montant other end is fixedly connected with described level board, and the right-hand member of described admission line is aimed at described first through hole and is fixedly connected with the left surface of described framework, and the upper end of described first support column is fixedly connected with the lower surface of described framework.

After adopting technique scheme, the utility model tool has the following advantages:

The utility model solar energy glass plate drying unit structure is simple, and easy to use, can dry fast solar energy glass plate, drying efficiency is good and effective, is applicable to applying the production cost that significantly can reduce enterprise.

Accompanying drawing explanation

Be described further below in conjunction with the detailed description of the invention of accompanying drawing to the utility model solar energy glass plate drying unit:

Fig. 1 is the structural representation of the utility model solar energy glass plate drying unit;

Detailed description of the invention

As shown in Figure 1, the utility model solar energy glass plate drying unit drying structure 4 of comprising base plate 1, being positioned at heater 2 above described base plate, being positioned at the admission line 3 above described heater and being positioned on the right side of described admission line.

As shown in Figure 1, described base plate 1 comprises the power supply 11 being positioned at described base plate 1 upper surface and the first support column 12 being positioned at the described base plate 1 upper surface left and right sides, described base plate 1 is in cuboid, described base plate 1 horizontal positioned, described power supply 11 is fixedly connected with the upper surface of described base plate 1 in power supply 11 lower surface described in cuboid, described first support column 12 is in cuboid, described first support column 12 is provided with two and lays respectively at the left and right sides, described first support column 12 is vertically placed, and described first support column 12 lower surface is fixedly connected with the upper surface of described base plate 1.

As shown in Figure 1, described heater 2 comprises the heating cabinet 21 be positioned on the left of described power supply 11, be positioned at the first screen pack 22 of described heating cabinet 21 inner surface and be positioned at the heating rod 23 of described heating cabinet 21 inside, described heating cabinet 21 is in hollow cuboid, described heating cabinet 21 lower surface contacts with the upper surface of described base plate 1, described heating cabinet 21 adopts heat-barrier material to make, described first screen pack 22 is in cuboid, described first screen pack 22 horizontal positioned, described first screen pack 22 side is fixedly connected with the inner surface of described heating cabinet 21, described heating rod 23 is vertically placed, described heating rod 23 is positioned at the inside of described heating cabinet 21, described heating rod 23 is electrically connected with described power supply 11.

As shown in Figure 1, described admission line 3 comprises the blower fan 31 be positioned on described admission line 3 and the second screen pack 32 being positioned at described admission line 3 inner surface, described admission line 3 is in L-type, described admission line 3 lower end extends to the inside of described heating cabinet 21 through described first screen pack 22, described admission line 3 is fixedly connected with described first screen pack 22, the upper end of described heating rod 23 extends to the inside of described admission line 3, described blower fan 31 is arranged on described admission line 3, described blower fan 31 is for being drawn into the inside of described admission line 3 by outside air, described second screen pack 32 is in cylinder, described second screen pack 32 is vertically placed, described second screen pack 32 side is fixedly connected with the inner surface of described admission line 3, described second screen pack 32 is for filtering entering inner air.

As shown in Figure 1, described drying structure 4 comprises the framework 41 being positioned at described first support column 12 upper surface, be positioned at the first through hole 411 in described framework 41, be positioned at the passage 42 of described framework 41 inside, be positioned at the second through hole 43 of described framework 41 inside, be positioned at the level board 44 in the middle part of described framework 41, third through-hole 441 on described level board 44 and the montant 45 between described framework 41 and described level board 44, described framework 41 is in concave shape, described framework 41 horizontal positioned, described first through hole 411 is located in described framework 41, described passage 42 is in concave character type, described passage 42 is positioned at the inside of described framework 41 and communicates with described first through hole 411, described second through hole 43 is provided with several, described second through hole 43 one end communicates with described passage 42, described second through hole 43 other end communicates with the inner surface of described framework 41, described level board 44 is in cuboid, described level board 44 is provided with two and lays respectively at upper and lower both sides, described level board 44 horizontal positioned, described level board 44 left end is fixedly connected with described framework 41, described level board 44 is provided with some described third through-holes 441, described third through-hole 441 runs through the upper and lower surface of described level board 44, described montant 45 is in cuboid, described montant 45 is provided with several, described montant 45 is vertically placed, described montant 45 is between described framework 41 and described level board 44, described montant 45 one end is fixedly connected with the inner surface of described framework 41, described montant 45 other end is fixedly connected with described level board 44, the right-hand member of described admission line 3 is aimed at described first through hole 411 and is fixedly connected with the left surface of described framework 41, the upper end of described first support column 12 is fixedly connected with the lower surface of described framework 41.

As shown in Figure 1, when described the utility model solar energy glass plate drying unit uses, first start described blower fan 31 simultaneously described power supply 11 start to power to described heating rod 23, described heating rod 23 is made to start heating, then wind enters into the inside of described heating cabinet 21 from described first screen pack 22, then the inside of described admission line 3 is entered through the side of described heating rod 23, described heating rod 23 heats the air entering into described admission line 3 inside, make the air themperature entering described admission line 3 inside higher, then the inside of described passage 42 is entered into through the filtration of described second screen pack 32, then solar energy glass plate is placed between described level board 44, then the hot blast entering into described passage 42 enters into the space between described framework 41 and described level board 44 by described second through hole 43, then enter between described level board 44 through described first through hole 441, contact with solar energy glass plate, solar energy glass plate is dried.So far, the use procedure of the utility model solar energy glass plate drying unit is described.

The above; be only the detailed description of the invention of the bracing or strutting arrangement of engineering survey equipment in the utility model construction; but the protection domain of the bracing or strutting arrangement of engineering survey equipment is not limited thereto in the utility model construction; in the technical scope of the bracing or strutting arrangement exposure of any those skilled in the art engineering survey equipment in the utility model construction; change can be expected easily or replace, within the protection domain that all should be encompassed in the bracing or strutting arrangement of engineering survey equipment in the utility model construction.Therefore, in the utility model construction, the protection domain of the bracing or strutting arrangement of engineering survey equipment should be as the criterion with the protection domain of described claim.

Claims (7)

1. a solar energy glass plate drying unit, it is characterized in that: described solar energy glass plate drying unit comprises base plate, be positioned at the heater above described base plate, the drying structure being positioned at the admission line above described heater and being positioned on the right side of described admission line, described base plate comprises the power supply being positioned at described plate upper surface and the first support column being positioned at the described plate upper surface left and right sides, described heater comprises the heating cabinet be positioned on the left of described power supply, be positioned at the first screen pack of described heating cabinet inner surface and be positioned at the heating rod of described heating cabinet inside, described admission line comprises the blower fan be positioned on described admission line and the second screen pack being positioned at described admission line inner surface, described drying structure comprises the framework being positioned at described first support column upper surface, be positioned at the first through hole in described framework, be positioned at the passage of described framework inside, be positioned at the second through hole of described framework inside, be positioned at the level board in the middle part of described framework, third through-hole on described level board and the montant between described framework and described level board.

2. solar energy glass plate drying unit according to claim 1, it is characterized in that: described base plate is cuboid, described floor level is placed, described power supply is cuboid, described power supply lower surface is fixedly connected with the upper surface of described base plate, and described first support column is cuboid, and described first support column is provided with two and lays respectively at the left and right sides, described first support column is vertically placed, and described first support column lower surface is fixedly connected with the upper surface of described base plate.

3. solar energy glass plate drying unit according to claim 2, it is characterized in that: described heating cabinet is hollow cuboid, described heating cabinet lower surface contacts with the upper surface of described base plate, described first screen pack is cuboid, described first screen pack horizontal positioned, described first screen pack side is fixedly connected with the inner surface of described heating cabinet, and described heating rod is vertically placed, and described heating rod is positioned at the inside of described heating cabinet.

4. solar energy glass plate drying unit according to claim 3, it is characterized in that: described admission line is L-type, described admission line lower end extends to the inside of described heating cabinet through described first screen pack, described admission line is fixedly connected with described first screen pack, the upper end of described heating rod extends to the inside of described admission line, described blower fan is arranged on described admission line, described second screen pack is cylinder, described second screen pack is vertically placed, and described second screen pack side is fixedly connected with the inner surface of described admission line.

5. solar energy glass plate drying unit according to claim 4, it is characterized in that: described framework is concave shape, described framework horizontal positioned, described first through hole is located in described framework, described passage is concave character type, and described passage is positioned at the inside of described framework and communicates with described first through hole, and described second through hole is provided with several, described second through hole one end communicates with described passage, and the described second through hole other end communicates with the inner surface of described framework.

6. solar energy glass plate drying unit according to claim 5, it is characterized in that: described level board is cuboid, described level board is provided with two and lays respectively at upper and lower both sides, described level board horizontal positioned, described level board left end is fixedly connected with described framework, described level board is provided with some described third through-holes, and described third through-hole runs through the upper and lower surface of described level board.

7. solar energy glass plate drying unit according to claim 6, it is characterized in that: described montant is cuboid, described montant is provided with several, described montant is vertically placed, described montant is between described framework and described level board, described montant one end is fixedly connected with the inner surface of described framework, the described montant other end is fixedly connected with described level board, the right-hand member of described admission line is aimed at described first through hole and is fixedly connected with the left surface of described framework, and the upper end of described first support column is fixedly connected with the lower surface of described framework.