KR20230076995A - Drying apparatus for separation film of simultaneous biaxial stretching equipment - Google Patents

Abstract

The present invention relates to a separator drying apparatus of a simultaneous biaxial stretching facility, which is designed to prevent wrinkles on the surface of a separator that occur during manufacture of a separator by controlling the amount of hot air supplied to the separator to uniformly dry the separator.
To this end, the separator dryer of the co-biaxial stretching facility is installed inside a chamber in which hot air for drying the separator is supplied, and a first nozzle unit for supplying hot air in a vertical downward direction through a plurality of nozzles, and a lower part of the first nozzle unit A second nozzle unit disposed facing the first nozzle unit at a predetermined interval and supplying hot air in a vertical upward direction through a plurality of nozzles and installed at one end of the first nozzle unit and the second nozzle unit to open and close and a hot air discharge unit configured to adjust the temperature and amount of the hot air supplied to the separation membrane by controlling the amount of hot air inside the first nozzle unit and the second nozzle unit through operation.

Description

Separator drying equipment of simultaneous biaxial stretching equipment {DRYING APPARATUS FOR SEPARATION FILM OF SIMULTANEOUS BIAXIAL STRETCHING EQUIPMENT}

The present invention relates to a separator drying apparatus of a simultaneous biaxial stretching facility.

In general, in the process of manufacturing a secondary battery separator, a dry separator method of forming pores by stretching an extruded PP film or a wet separator method of forming pores with an extruded PE film solvent is applied.

In the case of the dry separation membrane method, since pores are formed by mechanical force, it is difficult to form uniform pores. In the case of the wet separator method, it is advantageous for electric devices that need to maintain quantitative output and battery performance for a long time, and has advantages of excellent mechanical strength, uniform hole formation, and process stability, but has disadvantages of high process cost and low thermal stability.

Among them, the wet separation membrane production process includes extrusion of raw materials mixed with oil (wax) for pore formation, a longitudinal stretching (MDO) process after casting, a primary transverse stretching (TDO, 1st) process, and an oil (wax) process. ) extraction process, secondary transverse direction stretching (TDO, 2st) process.

At this time, when the pores have a uniform circular shape and a uniform size, the passage of ions becomes smooth, making it possible to produce a battery with high reliability. However, in general, after casting, which is a separator production process, longitudinal stretching, transverse stretching, and heat setting after extraction are performed, but the separator film shrinks in the oil extraction process, and in this process, the pore shape of the film is formed into an elliptical shape. Accordingly, it is difficult to pass ions and there is a problem in that the efficiency of ion electricity is lowered.

Therefore, in order to secure the reliability of the separator, uniform stretching in the stretching process, process design for optimizing the stretching ratio, formation of pores through heat shrinkage minimization and heat setting, and securing mechanical strength are required.

In addition, since the separator is made of a thin film of about 10 μm, there is a problem that wrinkles are generated on the separator and it is difficult to use if the drying is not uniform. In order to solve this problem, the supply amount of hot air supplied to the separator is adjusted to make the separator uniform. It should be dried thoroughly, but there was a problem in that productivity was lowered during the production of the separator because such a means was not provided.

Republic of Korea Patent Registration No. 10-2283101 (Title of Invention: Drying Device for Separator for Lithium Secondary Battery, published on June 4, 2021) Republic of Korea Patent Registration No. 10-2240483 (Title of Invention: Lithium Secondary Battery Separator Film Drying Device, published on October 6, 2020)

The present invention was devised in view of the above points, and the separation membrane of the simultaneous biaxial stretching facility is designed to prevent wrinkles on the surface of the separation membrane that occur during manufacture of the separation membrane by controlling the amount of hot air supplied to the separation membrane to uniformly dry the separation membrane. Its purpose is to provide a drying device.

According to a preferred embodiment for achieving the above object of the present invention, the separator drying apparatus of the simultaneous biaxial stretching equipment according to the present invention is installed inside a chamber to which hot air for drying the separator is supplied, through a plurality of nozzles to the vertical lower part. A first nozzle unit for supplying hot air in a direction, and a second nozzle unit disposed under the first nozzle unit facing the first nozzle unit at regular intervals and supplying hot air in a vertical upward direction through a plurality of nozzles. And it is installed at one end of the first nozzle part and the second nozzle part and adjusts the amount of hot air inside the first nozzle part and the second nozzle part through an opening and closing operation to control the temperature and amount of hot air supplied to the separation membrane. It may include a hot air outlet to.

Air outlets are formed at one end portions of the first nozzle unit and the second nozzle unit, respectively, so that hot air passing through the first nozzle unit and the second nozzle unit can be discharged to the outside through the outlets.

The hot air discharge unit may include a door that opens and closes the air outlet.

The door may open and close the air outlet while moving in a vertical direction.

The door may control an open area of the air outlet to adjust the amount of hot air discharged.

Supply amounts of hot air from the nozzles respectively installed in the first nozzle unit and the second nozzle unit may be controlled according to the amount of hot air discharged from the door.

According to the separation membrane drying apparatus (not limited to simultaneous biaxial) of the simultaneous biaxial stretching equipment according to the present invention, the separation membrane is dried at a constant temperature and air volume by controlling the amount of hot air applied to the separation membrane in the process of stretching the separation membrane. can prevent wrinkles from forming.

In addition, by preventing wrinkles on the surface of the separator by uniform drying, the yield of the separator product can be improved to manufacture a separator of higher quality, and productivity can be improved during manufacture of the separator.

1 is a diagram showing a separator drying apparatus of a simultaneous biaxial stretching facility according to an embodiment of the present invention.
2 is a view showing a hot air discharge unit of a separator drying apparatus according to an embodiment of the present invention.
3 is a diagram showing the flow of hot air supplied from a nozzle unit of a separator drying apparatus according to an embodiment of the present invention.
4 is a view showing the structure of a nozzle part of a separator drying apparatus according to an embodiment of the present invention.
5 is a view showing a state in which hot air is supplied from a nozzle unit according to an embodiment of the present invention.
6 is a view showing an operating state of a door of a hot air discharge unit according to an embodiment of the present invention.

Hereinafter, an embodiment of a separator drying apparatus of a simultaneous biaxial stretching facility according to the present invention will be described with reference to the accompanying drawings. At this time, the present invention is not limited or limited by the examples. In addition, in describing the present invention, detailed descriptions of well-known functions or configurations may be omitted to clarify the gist of the present invention.

1 is a diagram showing a separator drying apparatus of a simultaneous biaxial stretching facility according to an embodiment of the present invention. 2 is a view showing a hot air discharge unit of a separator drying apparatus according to an embodiment of the present invention.

Referring to FIGS. 1 and 2, a separator dryer (not limited to simultaneous biaxial) of a co-biaxial stretching facility according to the present invention (1) includes a first nozzle unit 10, a second nozzle unit 20, and It includes a hot air discharge unit 30 and adjusts the amount of hot air applied to the separator F through the separator drying device 1 to prevent wrinkles on the surface of the separator F from being dried.

In this embodiment, the nozzle unit of the separator drying apparatus 1 includes a first nozzle unit 10 and a second nozzle unit 20, and the first nozzle unit 10 dries the separator F. It is installed inside the chamber 1a to which hot air is supplied for supplying hot air in a vertical downward direction through a plurality of nozzles 11, and the second nozzle part 20 is constant at the lower part of the first nozzle part 10. It is disposed while facing the first nozzle unit 10 at intervals, and supplies hot air in a vertical upward direction through a plurality of nozzles 21 .

The first nozzle unit 10 and the second nozzle unit 20 are disposed above and below the separator F to which they are stretched, so that hot air can be supplied to the upper and rear surfaces of the separator F.

In addition, the hot air discharge unit 30 is installed at one end of the first nozzle unit 10 and the second nozzle unit 20, and opens and closes the first nozzle unit 10 and the second nozzle unit 20. The temperature and amount of the hot air supplied to the separation membrane (F) are controlled by adjusting the amount of hot air inside, and the amount of hot air discharged to the outside through the opening of the hot air outlet 30 is controlled to control the nozzle 11, 21), the amount of hot air supplied to the separation membrane (F) can be adjusted.

That is, in the separator drying apparatus 1, a plurality of first nozzle units 10 and a plurality of second nozzle units 20 are installed inside the chamber 1a, and the first nozzle unit 10 and the second nozzle unit are installed. (20) are respectively disposed on the upper and lower parts of the separation membrane (F), and spray hot air through a plurality of nozzles (11, 21) provided in the first nozzle part (10) and the second nozzle part (20). The separation membrane (F) is dried.

Therefore, the amount of hot air sprayed from the nozzles 11 and 21 can be controlled through the hot air discharge unit 30 to be uniform. As the amount of hot air discharged through the hot air discharge unit 30 increases, the The amount of hot air sprayed through the nozzles 11 and 21 is reduced.

In order to make the air volume of the nozzles 11 and 21 uniform, the air volume emitted from the nozzles 11 and 21 may be constantly adjusted by discharging hot air from the nozzles 11 and 21 having a high air volume to the outside.

3 is a diagram showing the flow of hot air supplied from a nozzle unit of a separator drying apparatus according to an embodiment of the present invention. 4 is a view showing the structure of a nozzle part of a separator drying apparatus according to an embodiment of the present invention.

3 and 4, the first nozzle part 10 and the second nozzle part 20 form a tapered shape in which the volume increases toward one side, and the first nozzle part 10 and the second nozzle part 20 2, air outlets 40 are formed at one end of the nozzle unit 20, and hot air passing through the inside of the first nozzle unit 10 and the second nozzle unit 20 is discharged to the outside through the outlets 40. can

That is, the first nozzle unit 10 and the second nozzle unit 20 of the separation membrane drying apparatus 1 have a tuyere 40 formed at one end having the largest volume, and a hot air discharge unit at the tuyere 40. 30 is installed and the amount of hot air discharged to the outside through the outlet 40 can be adjusted by opening and closing the hot air discharge unit 30 .

5 is a view showing a state in which hot air is supplied from a nozzle unit according to an embodiment of the present invention. 6 is a view showing an operating state of a door of a hot air discharge unit according to an embodiment of the present invention.

5 and 6, the hot air discharge unit 30 of the separator drying apparatus 1 is provided with a door 31 for opening and closing the air outlet 40, and the door 31 moves up and down while The air outlet 40 is opened and closed, and the open area of the air outlet 40 is controlled through the door 31 to adjust the amount of hot air discharged.

Rails 32 are installed on both sides of the door 31 so that it can slide along the outlet 40, and when the position of the door 31 is determined, the door 31 is fixed with a fixing member 33. An open state of the air outlet 40 may be maintained.

That is, the door 31 of the hot air discharge unit 30 maintains the state of closing the air outlet 40 in normal times, and opens the air outlet 40 by moving the door 31 when adjusting the amount of hot air. will do The amount of hot air supplied to the separator F and the temperature of the hot air may be adjusted by adjusting the amount of hot air discharged to the outside according to the open area of the air outlet 40 .

Therefore, it is possible to control the supply amount of hot air from the nozzles 11 and 21 respectively installed in the first nozzle unit 10 and the second nozzle unit 20 according to the amount of hot air discharged from the door 31 .

Therefore, the separation membrane drying apparatus 1 adjusts the amount of hot air applied to the separation membrane (F) during the stretching process of the separation membrane (F) and dries the separation membrane (F) at a constant temperature and air volume to prevent wrinkles from forming on the surface of the separation membrane It can be prevented.

In addition, by preventing wrinkles on the surface of the separator by uniform drying of the separator dryer 1, the yield of the separator product can be improved to manufacture a separator (F) of higher quality, and productivity in manufacturing the separator (F) can improve

In the above, the present invention has been shown and described in relation to preferred embodiments for illustrating the principles of the present invention, but the present invention is not limited to the configuration and operation as shown and described. Rather, it will be appreciated by those skilled in the art that many changes and modifications may be made to the present invention without departing from the spirit and scope of the appended claims.

1: Separator dryer
1a: chamber
10: first nozzle part
11: Nozzle
20: second nozzle part
21: nozzle
30: hot air outlet
31: door
32: rail
33: fixing member
40: tuyere
F: Separator

Claims (6)

A first nozzle unit installed inside a chamber to which hot air for drying the separation membrane is supplied and supplying hot air vertically downward through a plurality of nozzles;
a second nozzle unit disposed under the first nozzle unit facing the first nozzle unit at regular intervals and supplying hot air in a vertical upward direction through a plurality of nozzles; and
It is installed at one end of the first nozzle unit and the second nozzle unit and adjusts the amount of hot air inside the first nozzle unit and the second nozzle unit through an opening and closing operation to control the temperature and amount of hot air supplied to the separator Hot air discharge unit; Separator drying apparatus of simultaneous biaxial stretching equipment comprising a. According to claim 1,
Air outlets are formed at one end of the first nozzle unit and the second nozzle unit, respectively, and hot air passing through the inside of the first nozzle unit and the second nozzle unit is discharged to the outside through the outlets. Separation membrane drying device of the facility. According to claim 2,
The hot air discharge unit includes a door for opening and closing the air outlet. According to claim 3,
The door is a separator drying device of a simultaneous biaxial stretching equipment, characterized in that for opening and closing the outlet while moving in the vertical direction. According to claim 4,
The door is a separator drying apparatus of a simultaneous biaxial stretching equipment, characterized in that for adjusting the discharge amount of hot air by controlling the open area of the air outlet. According to claim 3,
Separator drying apparatus of a simultaneous biaxial stretching equipment, characterized in that for controlling the hot air supply amount of the nozzles respectively installed in the first nozzle unit and the second nozzle unit according to the hot air discharge rate of the door.

Images