JP6908429B2 - Web cooling roll - Google Patents

Description

The present invention relates to a web cooling roll.

Conventionally, a coating liquid is applied to a web such as a metal foil used for an electrode of a rechargeable battery to form a coating portion, and then the coating portion is dried by a heat treatment device, and the coating portion is cooled by a cooling roll. It is cooling.

For this cooling, a cooling liquid such as water or oil having a temperature lower than that of the web is allowed to flow into the cooling roll to cool the surface of the cooling roll and cool the web.

Japanese Unexamined Patent Publication No. 4-343753

However, the above-mentioned cooling roll requires a cooling liquid such as water or oil, and the structure of the roll is complicated in order to prevent the water or oil from leaking from the roll body, and further cooling is performed. There is a problem that a rotary joint for connecting the supply pipe for flowing the medium into the cooling roll and the shaft of the rotating cooling roll and the non-rotating supply pipe is required.

Therefore, in view of the above problems, an object of the present invention is to provide a cooling roll having a simple structure.

The present invention includes a tubular roll body, a cooling space provided inside the roll body, and a pair of left and right tubular shaft portions protruding from both sides of the roll body and continuously provided with the cooling space. An air suction port provided on one of the shaft portions, an air exhaust port provided on the other shaft portion, and an air suction means provided inside the one shaft portion. The suction means is a cooling roll of the web, which is a spiral ridge provided on the inner circumference of one of the shaft portions.

Further, in the present invention, a tubular roll body, a cooling space provided inside the roll body, and a pair of left and right tubular shafts protruding from both sides of the roll body and continuously provided with the cooling space. An air suction port provided on one of the shaft portions, an air exhaust port provided on the other shaft portion, and an air suction means provided inside the one shaft portion. have a, the suction means is a fan blade provided on the inner periphery of one of the shaft portion, a web of the cooling roll.

Further, in the present invention, a tubular roll body, a cooling space provided inside the roll body, and a pair of left and right tubular shafts protruding from both sides of the roll body and continuously provided with the cooling space. An air suction port provided on one of the shaft portions, an air exhaust port provided on the other shaft portion, and an air exhaust means provided inside the other shaft portion. have a, the exhaust means is a spiral ridge provided on the inner periphery of the other of the shaft portion, a web of the cooling roll.

Further, in the present invention, a tubular roll body, a cooling space provided inside the roll body, and a pair of left and right tubular shafts protruding from both sides of the roll body and continuously provided with the cooling space. An air suction port provided on one of the shaft portions, an air exhaust port provided on the other shaft portion, and an air exhaust means provided inside the other shaft portion. have a, the exhaust means is a fan blade provided on the inner periphery of the other of the shaft portion, a web of the cooling roll.

Further, in the present invention, a tubular roll body , a cooling space that is a cavity inside the roll body, and a pair of left and right tubular shafts that protrude from both sides of the roll body and are continuously provided with the cooling space. A portion, an air venting means provided in the cooling space of the roll body, an air suction port provided on one of the shaft portions, and an air exhaust port provided on the other shaft portion. Yes, and the vent means, said a spiral ridge provided on the inner periphery of the cooling space, a web of the cooling roll.
Further, in the present invention, a tubular roll body, a cooling space provided inside the roll body, and a pair of left and right tubular shafts protruding from both sides of the roll body and continuously provided with the cooling space. A portion, an air venting means provided in the cooling space of the roll body, an air suction port provided on one of the shaft portions, and an air exhaust port provided on the other shaft portion. Yes, and the vent means, said a fan blade provided on the inner periphery of the cooling space, a web of the cooling roll.

According to the present invention, the structure of the cooling roll is simplified.

It is an overall view of the web manufacturing apparatus of Embodiment 1. It is a vertical sectional view of the cooling roll of Embodiment 1. FIG. It is a vertical sectional view of the cooling roll of Embodiment 2. It is a vertical sectional view of the cooling roll of Embodiment 3. It is a vertical sectional view of the cooling roll of Embodiment 4. It is a vertical sectional view of the cooling roll of Embodiment 5. It is a vertical sectional view of the cooling roll of Embodiment 6. It is a vertical sectional view of the cooling roll of Embodiment 7.

Hereinafter, the cooling roll 24 of the web 1 according to the embodiment of the present invention will be described with reference to the drawings. The long web 1 in the present embodiment is a metal foil used for an electrode of a rechargeable battery, and a coating liquid is applied to the metal foil to form a coating portion 2. The web 1 may be a film or the like.

Embodiment 1

The manufacturing apparatus 5 using the cooling roll 24 of the web 1 of the first embodiment will be described with reference to FIGS. 1 and 2.

(1) Overall Configuration of Manufacturing Equipment 5 for Web 1 The overall configuration of manufacturing equipment 5 for manufacturing Web 1 will be described with reference to FIG. The manufacturing apparatus 5 includes a coating apparatus 6, a heat treatment apparatus 7, and a cooling apparatus 10. The web 1 travels at a constant traveling speed V from upstream to downstream.

The coating device 6 includes a backup roll 8, a die 9, and a guide roll 11. The backup roll 8 causes the web 1 to travel at a traveling speed V. The die 9 is provided on the side of the backup roll 8 and coats the web 1 traveling by the backup roll 8 with the coating liquid to form the coating portion 2. The guide roll 11 guides the web 1 from the backup roll 8 to the heat treatment apparatus 7.

The heat treatment apparatus 7 is provided downstream of the coating apparatus 6, and the transport path of the web 1 is horizontally provided inside the heat treatment chamber 12 having a heat insulating property. A plurality of upper nozzles 14 are provided at predetermined intervals above the transport path, and a plurality of lower nozzles 16 are provided at predetermined intervals below the transport path. The web 1 carried in from the carry-in inlet 18 of the heat treatment chamber 12 is blown with hot air from the upper nozzle 14 and the lower nozzle 16 to dry the coating unit 2, and when the treatment is completed, the web 1 is carried out from the carry-out port 20. , Guided to the cooling device 10 located downstream of the heat treatment device 7.

The cooling device 10 has a guide roll 22 and a cooling roll 24 in this order from the upstream, and the web 1 carried out from the carry-out port 20 of the heat treatment chamber 12 is cooled by the cooling roll 24 via the guide roll 22. Will be done. The cooling roll 24 is a passive motion that is rotated by the running of the web 1.

(2) Cooling roll 24
Next, the structure of the cooling roll 24 will be described with reference to FIG. The cooling roll 24 is provided with columnar closing portions 30 at both ends of a tubular metal roll body 28. A through hole 32 is provided in the axial direction in the central portion of the columnar closed portion 30, and a mortar-shaped slope portion 34 is provided on the roll body 28 side of the through hole 32. A cooling space 36 is formed by the roll body 28 and a pair of left and right columnar closed portions 30.

A pair of left and right tubular shaft portions 38 and a shaft portion 40 project from the periphery of the through holes 32 of the pair of left and right closed portions 30. The left end of the left shaft 38 in FIG. 2 is open and a suction port 42 is provided. The right end of the right shaft 40 is open and an exhaust port 44 is provided. The suction port 42, the inner peripheral portion of the shaft portion 38, the through hole 32, the cooling space 36, the through hole 32, the inner peripheral portion of the shaft portion 40, and the exhaust port 44 are continuous spaces.

The pair of left and right shaft portions 38 and 40 of the cooling roll 24 are rotatably and horizontally supported by the pair of left and right support portions 52 and 54 by bearings 48 and 50, respectively.

Inner circumference of the left shaft 38, inner circumference of the left through hole 32, inner circumference of the left slope 34, inner circumference of the roll body 28, right slope 34, right through hole 32, Spiral ridges 56 continuously project from the right shaft portion 40. That is, the ridge 56 protrudes from the inner peripheral surfaces of the shaft portions 38, 40, the through holes 32, 32, the slope portions 34, 34, and the roll body 28, is formed in a female screw shape, and has a spiral shape of the shaft portion 38. The ridge 56 has a function of sucking air, the spiral ridge 56 of the shaft portion 40 has a function of a ventilation means of air, and the spiral ridge 56 of the shaft portion 40 has a function of exhausting air. Has the function of.

(3) Operating State of Cooling Roll 24 Next, the operating state of the cooling roll 24 will be described with reference to FIG.

The web 1 is conveyed, held by the cooling roll 24, and the cooling roll 24 also rotates at a predetermined rotation speed. As shown in FIG. 2, when the cooling roll 24 rotates, the spiral ridge 56 on the inner peripheral side thereof also rotates, so that an air flow occurs, and air flows between the adjacent ridges 56 on the left side. Air is sucked from the suction port 42 in the shaft portion 38, and reaches the cooling space 36 through the inside of the shaft portion 38, the through hole 32, and the slope portion 34. That is, the air flowing in from the suction port 42 moves between the rotating spiral ridges 56 and 56 and reaches the cooling space 36.

The air flowing into the cooling space 36 cools the surface of the metal roll body 28, thereby cooling the web 1 traveling on the cooling roll 24. The air that has reached the cooling space 36 is exhausted from the exhaust port 44 through the slope portion 34, the through hole 32, and the shaft portion 40 on the right side because the cooling roll 24 further rotates and the spiral ridge 56 also rotates. Will be done. That is, the air in the cooling space 36 passes between the rotating spiral ridges 56 and 56 and is exhausted from the exhaust port 44.

As a result, the air inside the cooling roll 24 flows from the suction port 42 to the exhaust port 44, and the web 1 can be continuously cooled.

(4) Effect According to the present embodiment, a spiral ridge 56 is provided on the inner peripheral portion of the cooling roll 24, and the cooling roll 24 rotates in accordance with the running of the web 1, whereby the spiral ridge 56 is provided. Air is sucked from the suction port 42 by 56, and the air flows while rotating in a spiral shape, reaches the cooling space 36, cools the surface of the roll main body 28, and is exhausted from the exhaust port 44. Therefore, the cooling roll 24 can always cool the web 1.

Further, since the cooling roll 24 is passively rotated, a special device such as a pump for circulating air is not required.

Further, since the inside of the roll body 28 is also naturally cooled by air, it is possible to prevent the temperature from rising due to the specific heat of the web 1. Further, even if the web 1 is a metal foil and its temperature change is drastic, since the cooling medium is air, a rapid temperature change occurs, and the web 1 can always be appropriately cooled.

Further, since the columnar closed portion 30 is provided with the slope portion 34, the air flowing from the through hole 32 to the cooling space 36 can be smoothly flowed, and the air flowing from the cooling space 36 to the through hole 32 can be made smooth. The flow can be smooth.

Further, since air is sucked from the suction port 42 and air is exhausted from the exhaust port 44, the pair of left and right shaft portions 38 and 40 need only be supported by bearings 48 and 50, and an expensive rotary joint as in the conventional case is used. Not needed.

Embodiment 2

Next, the cooling roll 24 of the second embodiment will be described with reference to FIG.

The difference between the cooling roll 24 of the present embodiment and the cooling roll 24 of the first embodiment is that the cooling roll 24 of the first embodiment is provided with a spiral ridge 56 on the inner peripheral portion of the roll main body 28, but in the present embodiment, the roll The spiral ridge 56 is not provided on the inner peripheral portion of the main body 28, and the spiral ridge 56 is provided only on the inner peripheral portion of the pair of left and right shaft portions 38 and 40.

Even in the cooling roll 24 of the present embodiment, when the cooling roll 24 is passively rotated by the web 1, the spiral ridges 56 of the pair of left and right shaft portions 38 and 40 rotate, so that air is introduced from the suction port 42. Is sucked in, and air is exhausted from the exhaust port 44. As a result, the air in the cooling space 36 inside the roll body 28 circulates, the surface of the cooling roll 24 is cooled, and the web 1 can be cooled.

Embodiment 3

Next, the cooling roll 24 of the third embodiment will be described with reference to FIG.

The difference between the present embodiment and the first embodiment is that in the present embodiment, the spiral ridges 56 are provided only on the inner peripheral portion of the roll main body 28, and the spiral ridges 56 are provided on the pair of left and right shaft portions 38 and 40. Is not provided.

Also in the present embodiment, when the cooling roll 24 rotates, the spiral ridge 56 inside the roll body 28 rotates, air is sucked from the suction port 42, and air is exhausted from the exhaust port 44. As a result, the cooling roll 24 can be cooled.

Embodiment 4

Next, the cooling roll 24 of the fourth embodiment will be described with reference to FIG.

The differences between the present embodiment and the first embodiment will be described. In the first embodiment, the spiral ridges 56 are provided inside the shaft portions 38, 40 and the roll body 28, but in the present embodiment, instead, the propeller type fan blades 58 that move the air along the rotation axis direction are provided. , 60, 62 are provided. That is, a fan blade 58 for suction is provided on the inner peripheral portion of the shaft portion 38 on the left side, a fan blade 60 for ventilation is provided on the inner peripheral portion of the roll body 28, and an exhaust fan blade is provided on the inner peripheral portion of the shaft portion 40 on the right side. The fan blade 62 is provided.

According to the present embodiment, when the cooling roll 24 rotates, the fan blades 58, 60, 62 also rotate, air can be sucked from the suction port 42, and air can be exhausted from the exhaust port 44. As a result, the cooling roll 24 can be cooled.

As a modification of the present embodiment, two or more fan blades 58 are provided axially on the inner peripheral portion of the left shaft portion 38, and two or more fan blades 58 are provided axially on the inner peripheral portion of the roll body 28. The fan blades 60 may be provided, and two or more fan blades 62 may be provided along the inner peripheral portion of the shaft portion 40 on the right side in the axial direction.

Further, fan blades 58 for suction are provided on the inner peripheral portion of the shaft portion 38 on the left side in an axial direction, fan blades 60 for ventilation are provided on the inner peripheral portion of the roll body 28 in an axial direction, and fan blades 60 for ventilation are provided on the inner peripheral portion of the roll body 28. The fan blade 62 for exhaust may not be provided on the inner peripheral portion of the shaft portion 40. Further, the fan blade 58 for suction is not provided on the inner peripheral portion of the shaft portion 38 on the left side, the fan blade 60 for ventilation is provided on the inner peripheral portion of the roll body 28, and the exhaust is provided on the inner peripheral portion of the shaft portion 40 on the right side. A fan blade 62 for use may be provided.

Embodiment 5

Next, the cooling roll 24 of the fifth embodiment will be described with reference to FIG.

The difference between the present embodiment and the fourth embodiment is that in the present embodiment, the fan blades 58 for suction and the fan blades 62 for exhaust are provided only on the shaft portions 38 and 40, and the fan blades are provided inside the roll body 28. There is no point.

Also in this embodiment, when the cooling roll 24 rotates, air can be sucked from the suction port 42 and air can be exhausted from the exhaust port 44. As a result, the cooling roll 24 can be cooled.

As a modification of the present embodiment, two or more fan blades 58 are provided axially on the inner peripheral portion of the left shaft portion 38, and two or more fan blades 58 are provided axially on the inner peripheral portion of the right shaft portion 40. More than one fan blade 62 may be provided.

Further, the fan blades 58 for suction may be provided on the inner peripheral portion of the shaft portion 38 on the left side, and the fan blades 62 for exhaust may not be provided on the inner peripheral portion of the shaft portion 40 on the right side. Further, the fan blades 58 for suction may not be provided on the inner peripheral portion of the shaft portion 38 on the left side, and the fan blades 62 for exhaust may be provided only on the inner peripheral portion of the shaft portion 40 on the right side.

Embodiment 6

Next, the cooling roll 24 of the sixth embodiment will be described with reference to FIG.

The difference between the present embodiment and the fourth embodiment is that in the present embodiment, the fan blades 60 for ventilation are provided only on the inner peripheral portion of the roll main body 28, and the fan blades are provided on the inner peripheral portions of the pair of left and right shaft portions 38 and 40. It is in the point that it is not provided.

Also in this embodiment, when the cooling roll 24 rotates, the fan blade 60 rotates, air is sucked from the suction port 42, and air is exhausted from the exhaust port 44. As a result, the cooling roll 24 can be cooled.

As a modification of the present embodiment, depending on the width of the roll main body 28, two or more fan blades 60 may be provided on the inner peripheral portion of the roll main body 28 so as to be arranged in the axial direction.

Embodiment 7

Next, the cooling roll 24 of the seventh embodiment will be described with reference to FIG.

The differences between the present embodiment and the first embodiment will be described.

In this embodiment, the spiral ridge 56 is not provided, and the air supply pipe 64 is connected to the suction port 42 on the left shaft portion 38. In this case, one end of the air supply pipe 64 is formed slightly larger than the outer circumference of the shaft 38 so that the shaft 38 can rotate, and is in close contact with the support 52 on the left side. A pump 68 for supplying air is connected to the other end of the air supply pipe 64.

On the other hand, the exhaust pipe 66 is also connected to the exhaust port 44 of the shaft portion 40 on the right side. In this case, one end of the exhaust pipe 66 is formed to be slightly larger than the outer circumference of the shaft 40 so that the shaft 40 can rotate, and is in close contact with the support legs 54. One end of the exhaust pipe 66 is open so that air can be exhausted.

In order to cool the cooling roll 24, air is supplied from the air supply pipe 64 to the inside of the roll main body 28 by the pump 68. As a result, the surface of the cooling roll 24 is cooled, and the web 1 can be cooled. Further, a rotary joint or the like for rotating the cooling roll 24 is not required.

In the present embodiment, the exhaust pipe 66 is connected, but instead of this, the opened exhaust port 44 may be exposed.

In the present embodiment, the pump 68 is connected to one end of the air supply pipe 64 to supply air, but instead of this, a suction device such as a pump that forcibly sucks air to one end of the exhaust pipe 66. May be provided to suck the air inside the cooling roll 24. In this embodiment, the air supply pipe 64 is connected, but instead of this, the open air supply port 42 may be exposed.

Change example

The coating device 6 and the heat treatment device 7 in the above embodiment are examples, and may have other structures.

Although one embodiment of the present invention has been described above, this embodiment is presented as an example and is not intended to limit the scope of the invention. These novel embodiments can be implemented in various other embodiments, and various omissions, replacements, and changes can be made without departing from the gist of the invention. These embodiments and modifications thereof are included in the scope and gist of the invention, and are also included in the scope of the invention described in the claims and the equivalent scope thereof.

1 ... Web, 2 ... Coating part, 10 ... Cooling device, 24 ... Cooling roll, 28 ... Roll body, 30 ... Closure part, 32 ... Through hole, 38・ ・ ・ Shaft part, 40 ・ ・ ・ Shaft part, 42 ・ ・ ・ Suction port, 44 ・ ・ ・ Exhaust port, 54 ・ ・ ・ Protrusion

Claims (6)

Cylindrical roll body and
The cooling space provided inside the roll body and
A pair of left and right tubular shafts protruding from both sides of the roll body and continuously provided with the cooling space,
An air suction port provided on one of the shafts and
An air exhaust port provided on the other shaft and
One of the air suction means provided inside the shaft portion and
Have a,
The suction means is a spiral ridge provided on the inner circumference of one of the shaft portions.
Web cooling roll. Cylindrical roll body and
The cooling space provided inside the roll body and
A pair of left and right tubular shafts protruding from both sides of the roll body and continuously provided with the cooling space,
An air suction port provided on one of the shafts and
An air exhaust port provided on the other shaft and
One of the air suction means provided inside the shaft portion and
Have a,
The suction means is a fan blade provided on the inner circumference of one of the shaft portions.
Web cooling roll. Cylindrical roll body and
The cooling space provided inside the roll body and
A pair of left and right tubular shafts protruding from both sides of the roll body and continuously provided with the cooling space,
An air suction port provided on one of the shafts and
An air exhaust port provided on the other shaft and
An air exhaust means provided inside the other shaft portion and
Have a,
The exhaust means is a spiral ridge provided on the inner circumference of the other shaft portion.
Web cooling roll. Cylindrical roll body and
The cooling space provided inside the roll body and
A pair of left and right tubular shafts protruding from both sides of the roll body and continuously provided with the cooling space,
An air suction port provided on one of the shafts and
An air exhaust port provided on the other shaft and
An air exhaust means provided inside the other shaft portion and
Have a,
The exhaust means is a fan blade provided on the inner circumference of the other shaft portion.
Web cooling roll. Cylindrical roll body and
The cooling space, which is a cavity inside the roll body,
A pair of left and right tubular shafts protruding from both sides of the roll body and continuously provided with the cooling space,
Air ventilation means provided in the cooling space of the roll body and
An air suction port provided on one of the shafts and
An air exhaust port provided on the other shaft and
Have a,
The ventilation means is a spiral ridge provided on the inner circumference of the cooling space.
Web cooling roll. Cylindrical roll body and
The cooling space provided inside the roll body and
A pair of left and right tubular shafts protruding from both sides of the roll body and continuously provided with the cooling space,
Air ventilation means provided in the cooling space of the roll body and
An air suction port provided on one of the shafts and
An air exhaust port provided on the other shaft and
Have a,
The ventilation means is a fan blade provided on the inner circumference of the cooling space.
Web cooling roll.

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