CN210602555U - Battery polar plate drying room - Google Patents

Abstract

The utility model discloses a battery polar plate drying room, belonging to the field of horizontal battery production equipment, comprising a fan, an air supply chamber, a heater, an air supply channel and a drying chamber; the air supply chamber is provided with an air inlet and a circulating inlet, the drying chamber is communicated with the air supply chamber through the circulating inlet, and the opening and closing of the air inlet can be controlled; the both sides of drying chamber are equipped with air inlet plate and return air board respectively, and the air supply passageway extends the setting to the bottom from the top of drying room, and the air inlet plate is established on the vertical face of air supply passageway, and the return air board sets up with the air inlet plate relatively, and the return air board is through circulation entry and air supply chamber intercommunication. The utility model discloses a make the heated air at supply-air chamber and drying chamber internal circulation flow, to the air secondary heating that has the waste heat after the circulation, reduced the energy consumption to through establishing the air inlet plate on the vertical face of air supply passageway and the relative setting of return air board and air inlet plate, realized that the air after the heating blows off with the level in the drying chamber, make the polar plate be heated evenly, avoid the polar plate to split.

Description

Battery polar plate drying room

Technical Field

The utility model relates to a horizontal battery production facility field especially relates to a battery polar plate drying room.

Background

The polar plate is the important component of horizontal battery, and before assembling into the electric core subassembly to the polar plate, need dry the polar plate earlier, current drying the polar plate of horizontal battery is through tunnel type drying room, and the power consumption is higher, and is difficult to control the flow of hot-air, causes the polar plate easily to appear the crack.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a 3 drying houses of battery polar plate in order to solve above problem.

To achieve the purpose, the utility model adopts the following technical proposal:

a battery polar plate drying room comprises a fan, an air supply chamber, a heater, an air supply channel and a drying chamber; the air supply chamber is arranged outside the drying chamber, the fan and the heater are arranged in the air supply chamber, the air supply channel is arranged in the drying chamber, the exhaust end of the fan is connected with the input end of the air supply channel, and the air suction end of the fan is arranged above the heater;

the air supply chamber is provided with an air inlet and a circulating inlet, the air inlet and the circulating inlet are both arranged below the heater, the drying chamber is communicated with the air supply chamber through the circulating inlet, and the opening and closing of the air inlet can be controlled;

the drying room is characterized in that an air inlet plate and an air return plate are respectively arranged on two sides of the drying room, the air supply channel extends from the top of the drying room to the bottom of the drying room, the air inlet plate is arranged on the vertical surface of the air supply channel, the air return plate is opposite to the air inlet plate, and the air return plate is communicated with the air supply room through the circulating inlet.

The utility model discloses a make the heated air at supply-air chamber and drying chamber internal circulation flow, to the air secondary heating that has the waste heat after the circulation, reduced the energy consumption to through establishing the air inlet plate on the vertical face of air supply passageway and the relative setting of return air board and air inlet plate, realized that the air after the heating blows off with the level in the drying chamber, make the polar plate be heated evenly, avoid the polar plate to split.

Preferably, still include the hydrofuge structure, the hydrofuge structure includes the hydrofuge hole, the hydrofuge hole is established the top of return air board.

Because the density of the water vapor is low, the moisture exhaust holes are arranged above the air return plate, so that the water vapor is conveniently exhausted during moisture exhaust.

Preferably, the dehumidifying structure further comprises a dehumidifying fan, wherein an air suction end of the dehumidifying fan is arranged above the air inlet plate and communicated with the drying chamber, and an air exhaust end of the dehumidifying fan corresponds to the dehumidifying hole.

The dehumidifying fan is arranged to accelerate the discharge of the water vapor in the drying chamber through the dehumidifying hole.

Preferably, the heater comprises a heating chamber and a plurality of heating pipes, and the plurality of heating pipes are arranged in the heating chamber.

The air is heated by the heating pipes, so that the heating efficiency is high.

Preferably, still include the air inlet regulating plate, the air inlet regulating plate with a plurality of aperture sizes and the same diaphragm orifice in position are all seted up to the air inlet plate, the laminating of air inlet regulating plate one side of air inlet plate is relative the air inlet plate slides from top to bottom and forms adjustable fresh air inlet.

The air inlet adjusting plate and the air inlet plate slide up and down, so that plate holes in the air inlet adjusting plate and plate holes in the air inlet plate are intersected to form air inlet holes, and the size of the aperture of the air inlet holes can be adjusted by adjusting the up-down position of the air inlet adjusting plate, so that the control of exhaust flow is realized, the structure is simple, and the adjustment is convenient.

Preferably, the outer side of the drying chamber and the outer side of the air supply chamber are uniformly provided with heat insulation layers.

The heat insulation layers are arranged on the outer side of the drying room and the outer side of the air supply chamber, so that heat loss is avoided for heat insulation of the drying room and the air supply chamber.

Preferably, the drying device further comprises a drying support, and the drying support is arranged in the drying chamber.

The drying support is used for placing the polar plate.

Preferably, the bottom of the drying support is provided with universal wheels.

The drying support is provided with universal wheels, so that an operator can move the drying support conveniently.

The utility model has the advantages that: the utility model discloses a make the heated air at supply-air chamber and drying chamber internal circulation flow, to the air secondary heating that has the waste heat after the circulation, reduced the energy consumption to through establishing the air inlet plate on the vertical face of air supply passageway and the relative setting of return air board and air inlet plate, realized that the air after the heating blows off with the level in the drying chamber, make the polar plate be heated evenly, avoid the polar plate to split.

Drawings

The accompanying drawings are provided to further illustrate the present invention, but the content in the accompanying drawings does not constitute any limitation to the present invention.

Fig. 1 is a schematic view of the overall structure of the present invention;

fig. 2 is a schematic view of the direction of hot air circulation of the present invention;

fig. 3 is a top view of the present invention;

fig. 4 is a schematic view of the air inlet plate and the air inlet adjusting plate of the present invention.

Wherein: the drying device comprises a fan 21, an air supply chamber 2, a heater 22, an air supply channel 11, a drying chamber 1, an air inlet 23, a circulating inlet 24, an air inlet plate 25, an air return plate 26, a moisture exhaust hole 12, a heating chamber 221, a heating pipe 222, an air inlet adjusting plate 251, an air inlet hole 252, a plate hole 253, a heat insulation layer 13, a drying support 14 and a pole plate 3.

Detailed Description

The technical solution of the present invention is further explained by the following embodiments with reference to the accompanying drawings.

A battery plate drying room of the present embodiment, as shown in fig. 1, includes a blower 21, an air supply chamber 2, a heater 22, an air supply passage 11, and a drying chamber 1; the air supply chamber 2 is arranged outside the drying chamber 1, the fan 21 and the heater 22 are both arranged in the air supply chamber 2, the air supply channel 11 is arranged in the drying chamber 1, the exhaust end of the fan 21 is connected with the input end of the air supply channel 11, and the suction end of the fan 21 is arranged above the heater 22;

the air supply chamber 2 is provided with an air inlet 23 and a circulating inlet 24, the air inlet 23 and the circulating inlet 24 are both arranged below the heater 22, the drying chamber 1 is communicated with the air supply chamber 2 through the circulating inlet 24, and the opening and closing of the air inlet 23 can be controlled;

the drying room is characterized in that an air inlet plate 25 and an air return plate 26 are respectively arranged on two sides of the drying room 1, the air supply channel 11 extends from the top of the drying room to the bottom, the air inlet plate 25 is arranged on the vertical surface of the air supply channel 11, the air return plate 26 is opposite to the air inlet plate 25, and the air return plate 26 is communicated with the air supply room 2 through the circulating inlet 24.

This embodiment has reduced the energy consumption through making heated air at air-supplying chamber 2 and drying chamber 1 inner loop flow, has the air secondary heating of waste heat after the circulation to establish air inlet plate 25 on the vertical face of air supply channel 11 and return air board 26 and air inlet plate 25's relative setting, realized that the air after the heating blows off with the level in drying chamber 1, makes polar plate 3 be heated evenly, avoids polar plate 3 to split.

Still include the hydrofuge structure, the hydrofuge structure includes hydrofuge hole 12, the hydrofuge hole 12 is established the top of return air board 26.

Since the density of the water vapor is low, the moisture exhaust holes 12 are provided above the return air plate 26, so that the water vapor can be exhausted during moisture exhaust.

The dehumidifying structure further comprises a dehumidifying fan (not shown in the figure), the dehumidifying fan can be added to accelerate the dehumidifying efficiency, the air suction end of the dehumidifying fan is arranged above the air inlet plate 25 and communicated with the drying chamber 1, and the air exhaust end of the dehumidifying fan corresponds to the dehumidifying hole 12.

The dehumidifying fan is arranged to accelerate the discharge of the water vapor in the drying chamber 1 through the dehumidifying hole 12.

As shown in fig. 3, the heater 22 includes a heating chamber 221 and a plurality of heating pipes 222, and the plurality of heating pipes 222 are disposed in the heating chamber 221.

The air is heated by the plurality of heating pipes 222, and the heating efficiency is high.

As shown in fig. 4, the air inlet adjusting plate 251 is further included, a plurality of plate holes 253 with the same aperture size and position are formed in the air inlet adjusting plate 251 and the air inlet plate 25, and the air inlet adjusting plate 251 is attached to one side of the air inlet plate 25 and slides up and down relative to the air inlet plate 25 to form an adjustable air inlet hole 252.

The air inlet adjusting plate 251 and the air inlet plate 25 slide up and down, so that the plate holes 253 on the air inlet adjusting plate 251 and the plate holes 253 on the air inlet plate 25 are intersected to form the air inlet holes 252, and the pore size of the air inlet holes 252 can be adjusted by adjusting the up-down position of the air inlet adjusting plate 251, so that the control of the exhaust flow is realized.

As shown in fig. 3, a heat insulation layer 13 is uniformly distributed on the outer side of the drying chamber 1 and the outer side of the air supply chamber 2.

The heat insulation layer 13 is arranged on the outer side of the drying room and the outer side of the air supply chamber 2 and used for heat insulation of the drying room 1 and the air supply chamber 2, and heat loss is avoided.

Still include drying support 14, drying support 14 establishes in drying chamber 1, drying support 14 is used for placing polar plate 3, drying support 14's bottom is equipped with the universal wheel, and drying support 14 is equipped with the universal wheel, and the operating personnel of being convenient for removes drying support 14.

The utility model discloses a working process: firstly, opening an air inlet 23, allowing air to enter from the air inlet 23, closing the air inlet 23 after the air enters, heating the air by a heater 22, sucking the air to the air supply channel 11 by a fan 21, blowing the heated air to the pole plate 3 in the drying chamber 1 from an air inlet plate 25, drying the air dried by the pole plate 3 by an air return plate 26, returning the air dried by the pole plate 3 to the air supply chamber 2 by a next drying cycle after the air is heated by the heater 22 for the second time, so as to realize cyclic drying, accumulating water vapor at the top of the drying chamber after the cyclic drying is carried out for a certain time, opening the humidity discharge holes 12 and the air inlet 23 at the moment, and discharging the water vapor to the outside through the humidity discharge holes 12, wherein the circulation direction of hot air is shown in fig. 2.

The technical principle of the present invention is described above with reference to specific embodiments. The description is made for the purpose of illustrating the principles of the invention and should not be construed in any way as limiting the scope of the invention. Based on the explanations herein, those skilled in the art will be able to conceive of other embodiments of the present invention without any inventive effort, which would fall within the scope of the present invention.

Claims (8)

1. A battery polar plate drying room is characterized by comprising a fan, an air supply chamber, a heater, an air supply channel and a drying chamber; the air supply chamber is arranged outside the drying chamber, the fan and the heater are arranged in the air supply chamber, the air supply channel is arranged in the drying chamber, the exhaust end of the fan is connected with the input end of the air supply channel, and the air suction end of the fan is arranged above the heater;

the air supply chamber is provided with an air inlet and a circulating inlet, the air inlet and the circulating inlet are both arranged below the heater, the drying chamber is communicated with the air supply chamber through the circulating inlet, and the opening and closing of the air inlet can be controlled;

the drying room is characterized in that an air inlet plate and an air return plate are respectively arranged on two sides of the drying room, the air supply channel extends from the top of the drying room to the bottom of the drying room, the air inlet plate is arranged on the vertical surface of the air supply channel, the air return plate is opposite to the air inlet plate, and the air return plate is communicated with the air supply room through the circulating inlet.

2. The battery plate drying room of claim 1, further comprising a moisture exhaust structure, wherein the moisture exhaust structure comprises moisture exhaust holes, and the moisture exhaust holes are arranged above the air return plate.

3. The battery plate drying room of claim 2, wherein the moisture removing structure further comprises a moisture removing fan, an air suction end of the moisture removing fan is arranged above the air inlet plate and communicated with the drying chamber, and an air exhaust end of the moisture removing fan corresponds to the moisture removing hole.

4. The battery plate drying room of claim 1, wherein the heater comprises a heating chamber and a plurality of heating pipes, and the plurality of heating pipes are disposed in the heating chamber.

5. The battery plate drying room of claim 1, further comprising an air inlet adjusting plate, wherein the air inlet adjusting plate and the air inlet plate are provided with a plurality of plate holes with the same aperture size and position, and the air inlet adjusting plate is attached to one side of the air inlet plate and slides up and down relative to the air inlet plate to form an adjustable air inlet hole.

6. The battery plate drying room of claim 1, wherein the outside of the drying chamber and the outside of the air supply chamber are uniformly provided with heat insulation layers.

7. The battery plate drying room of claim 1, further comprising a drying rack, wherein the drying rack is disposed in the drying room.

8. The battery plate drying room of claim 7, wherein the bottom of the drying support is provided with universal wheels.

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