CN210036384U - Curing chamber heat recovery unit - Google Patents

Abstract

The utility model relates to a battery processing equipment technical field, concretely relates to curing chamber heat recovery unit. The curing device comprises a curing chamber, a heating chamber is fixed at the upper end of the curing chamber, the two ends of the heating chamber are communicated with the curing chamber through a lower moisture discharge pipe and an exhaust pipe respectively, a heating sheet is fixed in the curing chamber, a circulating fan is installed in the heating chamber on one side of the heating sheet, the circulating fan is close to the lower moisture discharge pipe, an upper moisture discharge pipe communicated with the interior of the circulating fan is fixed at the upper end of the heating chamber above the circulating fan, an electric exhaust valve is arranged in the upper moisture discharge pipe, a cylinder communicated with the upper moisture discharge pipe is fixed at the upper end of the upper moisture discharge pipe, the upper end of the cylinder is opened, a plurality of air inlet pipes penetrate through the cylinder, the plurality of. The utility model discloses, can carry out recycle and then practice thrift the energy consumption with the heat of discharging the outside damp and hot gas in curing chamber in the hydrofuge process.

Description

Curing chamber heat recovery unit

Technical Field

The utility model relates to a battery processing equipment technical field, concretely relates to curing chamber heat recovery unit.

Background

The main production process of the lead-acid storage battery mainly comprises the steps of pole plate manufacturing, battery assembling, battery charging and the like. The curing of the plate is an important part of the plate during its fabrication process. In the pole plate curing stage of the curing chamber, an exhaust valve is opened according to the temperature and the humidity set in the curing chamber to introduce fresh air outside the curing chamber and exhaust damp and hot air inside the curing chamber, the exhausted damp and hot air is about 70 ℃, and the sucked fresh air is only room-temperature air (note that the sucked air is dry and the moisture cannot be too large).

The discharged heat source is about 70 degrees, the discharged heat source is wasted when being discharged to a workshop, and the damp and hot gas can corrode other equipment in the workshop. The sucked cold air needs to be heated to play a role in solidification, and therefore heating through steam is needed, and energy cost is increased. And the temperature of the curing chamber is slowly raised, so that the curing chamber is more serious in winter.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a can carry out recycle and then practice thrift the curing chamber heat recovery unit of energy consumption with the heat of discharging the outside damp and hot gas in curing chamber in the hydrofuge process.

In order to realize the purpose, the utility model provides a technical scheme is:

the utility model provides a curing chamber heat recovery unit, including the curing chamber, the curing chamber upper end is fixed with the heating chamber, the heating chamber both ends are respectively through damp pipe and exhaust pipe down and curing chamber intercommunication, fixed and the heating plate in the curing chamber, install circulating fan in the heating chamber of heating plate one side, circulating fan is close to damp pipe down, the heating chamber upper end of circulating fan top is fixed with the last damp pipe rather than inside intercommunication, it is provided with electronic exhaust valve to go up the damp pipe, go up the damp pipe upper end and be fixed with the barrel rather than the intercommunication, barrel upper end opening, a plurality of air-supply lines run through the barrel, a plurality of air-supply lines and the fixed connector intercommunication in barrel one side, the connector passes through communicating pipe and heating chamber intercommunication, be provided with electronic air inlet valve on the communicating pipe, electronic exhaust valve, electronic air inlet valve passes through controller and the humidity inductor electric connection in the curing.

Specifically, the connector is in a cone shape.

Specifically, the air outlet end of the communicating pipe and the circulating fan are located on two sides of the heating sheet.

Specifically, the lower end of the lower moisture discharge pipe extends to the lower end in the curing chamber.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model discloses, simple structure, convenient operation can carry out recycle and then practice thrift the energy consumption at the heat of the outside damp and hot gas of hydrofuge in-process of hydrofuge, has reduced manufacturing cost, and the air that is preheated enters into and can rapid heating up after the time of heating, has improved drying rate.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Detailed Description

As shown in figure 1, a curing chamber heat energy recovery device comprises a curing chamber 1, a heating chamber 2 is fixed at the upper end of the curing chamber 1, two ends of the heating chamber 2 are respectively communicated with the curing chamber 1 through a lower moisture discharge pipe 3 and an exhaust pipe 4, the lower end of the lower moisture discharge pipe 3 extends to the lower end in the curing chamber 1, a heating plate 6 is fixed in the curing chamber 1, a circulating fan 5 is installed in the heating chamber 2 at one side of the heating plate 6, the circulating fan 5 is close to the lower moisture discharge pipe 3, an upper moisture discharge pipe 8 communicated with the interior of the heating chamber 2 above the circulating fan 5 is fixed at the upper end of the heating chamber 2, an electric exhaust valve 12 is arranged in the upper moisture discharge pipe 8, a cylinder 7 communicated with the upper moisture discharge pipe 8 is fixed at the upper end of the upper moisture discharge pipe 8, the upper end of the cylinder 7 is open, a plurality of air inlet pipes 9 penetrate through the cylinder 7, a plurality of air inlet, the air-out end and the circulating fan 5 of communicating pipe 10 are located 6 both sides of heating plate, connector 11 is the awl tube-shape, is provided with electronic air inlet valve 14 on communicating pipe 10, and electronic exhaust valve 12, electronic air inlet valve 14 pass through controller and the humidity inductor 13 electric connection in the curing chamber 1.

When the utility model is used, the circulating fan 5 is started, the air in the curing chamber 1 enters the heating chamber 2 through the exhaust pipe 4 and is heated by the heating sheet 6 and then returns to the curing chamber 1 through the lower moisture-discharging pipe 3 to dry the polar plate in the curing chamber 1, when the humidity sensor 13 senses that the humidity in the curing chamber 1 reaches a set value, the controller opens the electric exhaust valve 12 and the electric air inlet valve 14, the damp and hot air circulating to the heating chamber 2 is discharged from the upper moisture-discharging pipe 8 and enters the barrel body 7, the damp and hot air can transfer heat to the air inlet pipe 9 after entering the barrel body 7, meanwhile, when the external air enters the connector 11 through the air inlet pipe 9, the external air flowing through the air inlet pipe 9 can be heated, after the external air enters the heating chamber 2, the air heated in advance can be heated to a set temperature in a short time through the heating sheet 6, the energy consumption is effectively saved. After the moist and hot air in the curing chamber 1 is partially exhausted, when the humidity sensor 13 senses that the humidity in the curing chamber 1 is less than a set value, the controller closes the electric exhaust valve 12 and the electric intake valve 14, and the air continuously circulates in the curing chamber 1 and the heating chamber 2 to heat and cure the polar plates.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (4)

1. A curing chamber heat energy recovery device comprises a curing chamber (1), a heating chamber (2) is fixed at the upper end of the curing chamber (1), two ends of the heating chamber (2) are respectively communicated with the curing chamber (1) through a lower moisture discharge pipe (3) and an exhaust pipe (4), a heating plate (6) is fixed in the curing chamber (1), a circulating fan (5) is installed in the heating chamber (2) on one side of the heating plate (6), the circulating fan (5) is close to the lower moisture discharge pipe (3), an upper moisture discharge pipe (8) communicated with the interior of the heating chamber (2) is fixed at the upper end of the heating chamber (2) above the circulating fan (5), an electric exhaust valve (12) is arranged in the upper moisture discharge pipe (8), the curing chamber heat energy recovery device is characterized in that a cylinder (7) communicated with the upper moisture discharge pipe (8) is fixed at the upper end of the upper moisture discharge pipe, an opening is formed at the upper end of the cylinder (7), a plurality of air inlet pipes (9) penetrates through the cylinder (, the connector (11) is communicated with the heating chamber (2) through a communicating pipe (10), an electric air inlet valve (14) is arranged on the communicating pipe (10), and an electric exhaust valve (12) and the electric air inlet valve (14) are electrically connected with a humidity sensor (13) in the curing chamber (1) through a controller.

2. A curing chamber heat energy recovery device according to claim 1, characterized in that the connector (11) is cone-shaped.

3. The heat energy recovery device for the curing chamber is characterized in that the air outlet end of the communicating pipe (10) and the circulating fan (5) are positioned on two sides of the heating sheet (6).

4. The curing chamber heat energy recovery device as claimed in claim 1, characterized in that the lower end of the lower moisture discharge pipe (3) extends to the lower end of the interior of the curing chamber (1).