KR101237836B1 - A air guide member and air guied device with the same - Google Patents

Abstract

Disclosed are a blow guide member and a blow guide device including the same, which are configured to facilitate the manufacture and installation of a blow guide device while allowing air to be evenly discharged through the air discharge port of the blow chamber.

Description

Blowing guide member and blowing guide device with same {A AIR GUIDE MEMBER AND AIR GUIED DEVICE WITH THE SAME}

The present invention relates to a blowing guide member and a blowing guide device having the same, and more particularly, disposed between the air inlet and the air outlet having a larger cross-sectional area than the air inlet so that the air discharged to the air outlet is evenly distributed throughout the air outlet. It relates to a blowing guide member for guiding the flow of the blowing air to be discharged and a blowing guide device having the same.

Some blowing guide devices for guiding the flow of air are required to allow the air discharged to the outside of the chamber to be evenly distributed throughout the air outlet formed in the chamber.

As an example, FIG. 1 shows a structure of a conventional airflow guide device 1 used when drying a film f coated with a positive electrode and a negative electrode material during a manufacturing process of a film that is a base material of a secondary battery.

As shown in FIG. 1, the conventional air blowing guide device 1 includes a pair installed to face each other, and a film f coated with an anode and a cathode material is automatically disposed in one direction between each air blowing guide device 1. It is installed to be transported.

Each blowing guide device 1 has a blowing chamber 1a. An air inlet 1b is formed at one side of the blower chamber 1a to allow dry air forcedly blown by the blower fan 2 into the blower chamber 1a, and a blower chamber (opposite to the air inlet 1b) is formed. On the other side of 1a, an air discharge port 1c for discharging the dry air introduced into the air inlet 1b to the surface of the film f being transferred is formed, and the air discharge port 1c has a plurality of air discharge holes 1e. The entire discharge plate 1d is evenly combined.

The air discharge port 1c is normally air so that dry air introduced into the blower chamber 1a through the air inlet 1b is diffused in the blower chamber 1a and then stably discharged through the air discharge port 1c. It is usually provided to have a larger cross-sectional area than the inlet 1b.

On the other hand, in the state in which the air outlet 1c is provided to have a larger cross-sectional area than the air inlet 1b, air guided from the air inlet 1b to the air outlet 1c is provided at the air inlet 1b at the air outlet 1c. Since it concentrates at the site | part which opposes (), the air discharge operation which was evenly distributed over the air discharge port 1c becomes difficult.

Therefore, in order to solve this problem, in the conventional blowing guide apparatus, the blowing guide means 3 is provided in the blowing chamber 1a between the air inlet 1b and the air discharge opening 1c.

Conventional blowing guide means (3) is composed of a plurality of blades (3a) is installed to enable the angle adjustment, each blade (3a) is rotated around the hinge axis (3b) formed in the center between the adjacent blades (3a) It is possible to adjust the air flow through.

Therefore, as shown in the figure, the spacing between the blades 3a corresponding to the center of the air inlet 1b is narrowly formed, and the spacing between the blades 3a far away from the center of the air inlet 1b is relatively small. When adjusting the blowing guide means (3) to be formed wide, the dry air introduced into the blowing chamber (1a) through the air inlet (1b) is evenly transmitted to the entire air discharge port (1c) through the blowing guide means (3) Accordingly, the dry air can be evenly discharged through the discharge blade 1d. Here, the blowing guide means (3) should be provided with a separate rotation limiting device (not shown) provided to limit the rotational operation of the blade (3a) with the angle adjusted.

However, as described above, in the case of the conventional blowing guide means 3 provided with a plurality of blades 3a and provided with a separate rotation limiter (not shown), the blowing guide device 1 is manufactured in a complicated structure. There was a limit to make this easy, and there was a lot of inconvenience even during installation because the angle of each blade (3a) had to be set one by one.

The present invention is to solve this problem, an object of the present invention is to blow the air evenly through the air discharge port of the blowing chamber, while the air blowing guide member and the blowing guide provided to facilitate the manufacture and installation of the air blowing guide device It is to provide a guide device.

In order to solve this problem, the air guiding member according to the present invention is provided to be positioned between the air inlet and the air outlet in a blowing chamber formed such that an air inlet and an air outlet having a larger cross-sectional area than the air inlet face each other. A vertical portion provided with one air through-hole to be perpendicular to a direction of air flowing into the blowing chamber through the air inlet, and a plurality of second air through-holes; It characterized in that it comprises a radial inclined portion extended to be inclined radially toward.

The first air through hole is characterized in that the size is provided relatively smaller than the second air through hole.

The space between the first air through hole is characterized in that it is provided relatively large compared to the space between the second air through hole.

The gap between the size of the second air through hole and the second air through hole may be partially differently provided along the circumference of the radial slope.

The blowing guide member is provided in the form of a hollow square pyramid open toward the air discharge port, the radial inclined portion is provided in the same shape and comprises a plurality of inclined plate portion interconnected along the vertical periphery of the second air through hole The space between the size and the second air through hole is characterized in that differently provided for each of the at least one slope plate.

In addition, the ventilation guide apparatus according to the present invention includes a blower chamber formed so that the air inlet and the air outlet having a larger cross-sectional area than the air inlet face each other, and a blower guide member provided inside the blower chamber between the air inlet and the air outlet. The air blowing guide member includes a plurality of first air through holes and a vertical portion provided to be perpendicular to a direction of air introduced into the air blowing chamber through the air inlet, and a plurality of second air through holes. It characterized in that it comprises a radial inclined portion extending to radially inclined toward the air discharge port from the periphery of the vertical portion.

The center of the air inlet, the air outlet and the vertical portion is provided to match, the first air through hole is provided relatively smaller in size than the second air through hole, the interval between the first air through hole is the first It is characterized in that the relatively larger than the spacing between the two air through holes.

The blowing guide member is provided in the form of a hollow square pyramid open toward the air outlet, the center of the air inlet and the vertical portion is provided to match, the center of the air outlet is one side with respect to the center of the air inlet and vertical portion It is provided to be eccentric, the radial inclined portion is provided in the same form and comprises a plurality of inclined plate interconnected along the periphery of the vertical portion, provided in the inclined plate portion corresponding to the eccentric direction of the center of the air discharge port of the plurality of the inclined plate portion The second air through hole has a size smaller than the size of the second air through hole formed in the other inclined plate portion, and a second provided in the inclined plate portion corresponding to the eccentric direction of the center of the air discharge port among the plurality of inclined plate portions. The second hole formed in the inclined plate portion between the air passing hole is different Than the distance between the through hole is characterized in that largely provided.

A discharge plate having a plurality of air discharge holes is coupled to the air discharge port, and a plurality of protrusions provided to protrude to the outside of the blowing chamber are provided to be spaced apart from each other along the longitudinal direction of the air discharge port. And a pair of side portions provided at both ends of the protruding portion so as to be parallel to a vertical portion, and a pair of side portions provided at both ends of the end portions so as to form both side surfaces of the protrusion, and the air discharge holes are provided at the respective side portions. It is done.

As described above, the blowing guide member according to the present invention is provided in the form of a simple structure, but through the size or spacing of the first and second air through holes provided to penetrate the surface more than the entire air outlet of the blowing chamber Allow air to be evenly discharged.

Therefore, the blowing guide member and the blowing guide device having the same according to the present invention facilitate the manufacture and installation of the blowing guide device while allowing the air to be evenly discharged through the air outlet of the blowing chamber.

1 is a cross-sectional view showing a state in which a pair of conventional blowing guide device is utilized for film drying.
2 is a cross-sectional view showing a state in which a pair of airflow guide apparatus according to the first embodiment of the present invention is utilized for film drying.
FIG. 3 is an enlarged cross-sectional view of the structure of one blow guide device of FIG. 2.
4 is a perspective view showing the structure of a blowing guide member according to a first embodiment of the present invention.
5 is a cross-sectional view showing the structure of a blowing guide member and a blowing guide device according to a second embodiment of the present invention.
6 is a cross-sectional view showing the structure of a blowing guide member and a blowing guide device according to a third embodiment of the present invention.
7 is a perspective view showing the structure of a blowing guide member according to a third embodiment of the present invention.
8 is a plan view showing the structure of a blowing guide member according to a third embodiment of the present invention.

Next will be described in detail the structure of the blowing guide member 10 and the blowing guide device (A) having the same according to the first embodiment of the present invention.

As shown in Figures 2 to 4, the ventilation guide device (A) according to the present embodiment is a film (f) coated with a positive electrode and a negative electrode material during the manufacturing process of the film (f) to be the base material of the secondary battery It is provided to be used when drying, and is composed of a pair arranged to face each other.

Between each blowing guide device (A) is installed so that the film (f) coated with the positive electrode and the negative electrode material is automatically transferred in one direction, the film (f) by winding on an unillustrated roller driven by a motor Passing between the pair of blowing guide device (A) can be transported in one direction.

Each blowing guide device (A) is provided with a blowing chamber (20). An air inlet 21 is formed at one side of the blower chamber 20 to allow the dry air forcedly blown by the blower fan 30 into the blower chamber 20, and a blower chamber opposite to the air inlet 21 ( On the other side of 20), an air discharge port 22 for discharging the dry air introduced into the air inlet 21 to the surface of the film f being transferred is formed. Therefore, the air inlet 21 and the air outlet 22 are disposed to face each other.

A discharge plate 40 having a plurality of air discharge holes () is coupled to the air discharge port 22 of the blower chamber 20, and the discharge plate 40 blows to cover the air discharge port 22 through bolting or welding. May be coupled to the chamber 20.

The air outlet 22 is an air inlet 22 so that the dry air introduced into the blower chamber 20 through the air inlet 21 is diffused in the blower chamber 20 and then stably discharged through the air outlet 22. It is provided so as to have a larger cross-sectional area than usual (21).

Therefore, when a pair of blow guide devices (A) is driven in the transfer process of the film (f), the discharge chamber is discharged through the air discharge hole 42 formed in the discharge plate 40 of each blow guide device (A) The dry air of 20 is discharged to both sides of the film f being transferred to simultaneously dry both sides of the film f.

For reference, in the present embodiment, the blowing guide device (A) is installed in a pair to be used for drying the film (f) to be the base material of the secondary battery, but in the present invention, the blowing guide device may be configured as one. In addition, the film may be used for various purposes, such as for drying the film provided to blow dry air, for example, for cooling air or for blowing air. That is, the blowing guide member and the blowing guide device according to the present invention are not limited to the film drying described in the drawings.

On the other hand, in the state where the air outlet 22 is provided to have a larger cross-sectional area than the air inlet 21, the air guided from the air inlet 21 to the air outlet 22 is provided at the air outlet 22 with the air inlet 21. Since it concentrates on the opposing site | part, it becomes difficult to distribute air evenly over the air discharge port 22 whole.

Therefore, in order to solve this problem, a blowing guide member 10 is provided inside the blowing chamber 20 between the air inlet 21 and the air outlet 22, and the blowing guide member 10 includes a plurality of first air passing holes ( 11a) and a vertical portion 11 provided to be perpendicular to the direction of air flowing into the blowing chamber 20 through the air inlet 21, and a plurality of second air through holes 12a. It comprises a radial inclined portion 12 extended to be inclined radially from the periphery of the vertical portion 11 toward the air discharge port 22.

In the structure of the blowing guide member 10 as described above, in the case of the vertical portion 11 which is perpendicular to the air blown from the air inlet 21, the air resistance increases, while the air blown from the air inlet 21 In the case of the inclined radially inclined portion 12, the air resistance becomes small, so that the air guided from the air inlet 21 to the air outlet 22 is opposed to the air inlet 21 at the air outlet 22. Concentration is prevented, and the air can be discharged more evenly over the air discharge port 22.

In addition, the discharge plate 40 is provided with a plurality of protrusions 41 provided to protrude to the outside of the blowing chamber 20 to be spaced apart from each other along the longitudinal direction of the air discharge port 22. Each of the protrusions 41 is provided at both ends of the end portion 41a provided at the protruding end of the protrusion 41 so as to be parallel to the vertical portion 11, and at both sides of the end portion 41a to form both side surfaces of the protrusion 41. It includes a pair of side portions (41b, 41c), the air discharge hole 42 is provided to be symmetrical to both side portions (41b, 41c) of each projection (41).

Therefore, in the structure of the blowing guide device (A), the film is formed in such a way that the dry air supplied through the discharge plate 40 toward the film (f) is sprayed in both directions in the conveying direction of the film (f) at each projection (41). It is supplied to the surface (f), and the drying efficiency of the film f can be further improved.

In the present embodiment, the blowing guide member 10 is blown through a connecting rod 23 provided in the form of a hollow square pyramid open toward the air outlet 22 to connect between the radial inclined portion 12 and the inner wall of the blowing chamber 20. It is fixed inside the chamber 20. In the case of the connecting table 23 is formed of a thin steel wire as possible so as not to interfere with the blowing operation of the dry air is formed in a plurality of spaced apart from each other along the circumferential direction of the blowing guide member (10).

In this embodiment, the radial inclined portion 12 is formed in the same trapezoidal shape and includes four inclined plate portions 13 connected to each other along the periphery of the vertical portion 11. The radial inclined portion 12 can be simply manufactured by a simple method of welding and connecting the inclined plate portions 13 having the same number of second air through holes 12a which are cut into shapes and punched to the same size. .

Unlike the present embodiment, the blowing guide member 10 may be provided in the shape of a square pyramid of another polygonal shape. In addition, since a plurality of curved plates may be connected to each other to form a radial inclined portion, the blowing guide member may be manufactured in a truncated cone shape.

In addition, in the present embodiment, the blowing guide member 10 has the center of the vertical portion 11 so that the center of the air inlet 21 and the air outlet 22 corresponds to the shape of the blowing chamber 20. And it is provided to match the center of the air discharge port 22, the size of the first and second air through holes (11a, 12a) are provided the same, the interval between the first air through hole (11a) is also the second air It is formed in the same manner as the diameter between the through holes 12a.

In addition, as shown in FIG. 5, in which the structures of the blowing guide member 50 and the blowing guide device B according to the second embodiment of the present invention are shown, the blowing guide member 50 in the present embodiment is a vertical portion ( The size of the first air through hole 51a provided in 51 is smaller than the size of the second air through hole 52a provided in the inclined plate portion 53 of the radial inclined portion 52, and the first air is provided. The spacing between the through holes 51a is relatively larger than the spacing between the second air through holes 52a.

Therefore, in the structure of the blowing guide member 50, the difference between the air resistance formed on the vertical portion 51 side and the air resistance formed on the radial inclined portion 52 becomes larger than that of the first embodiment, and the vertical portion 51 Since the dry air collided between the first air passing hole (51a) of the) guides toward the radial guide 52 is more active, the air can be more smoothly communicated to the outside of the air discharge port 22, the air discharge port ( 22) It is possible to discharge dry air more evenly throughout.

That is, the size of the first air through hole 51a provided in the vertical portion 51 is formed relatively smaller than the size of the second air through hole 52a provided in the inclined plate portion 53, and the first air through hole is formed. In the state where the spacing between 51a is relatively larger than the spacing between the second air through holes 52a, the air resistance toward the vertical portion 51 becomes relatively larger than in the first embodiment. On the other hand, since the air resistance toward the radial inclined portion 52 becomes relatively smaller, the flow of air concentrated at the center side of the air discharge port 22 through the air blowing guide member 50 more effectively. It will be distributed outward.

In the second embodiment, the rest of the configuration except for the size and spacing of the first and second air through holes (51a, 52a) is the same as the first embodiment, a detailed description thereof will be omitted.

In addition, in the case of the airflow guide device, the center of the air discharge port may be eccentric to one side with respect to the center of the air inlet according to the installation environment. Dry air can not be properly supplied toward the eccentric direction of the discharge port center, Figures 6 to 8 as the blowing guide member 60 and the blowing guide device (C) having the same according to the third embodiment of the present invention, such A case-by-case structure is shown.

At this time, the blowing guide member 60 is configured in the shape of a square pyramid like the blowing guide members 10 and 50 according to the first and second embodiments so that there is no significant change in structure, and the center of the vertical portion 61 is an air inlet ( It is located between the air inlet 21 and the air outlet 22 so as to match the center of the 21, even in this state through the air outlet 22 so that the dry air can be discharged more uniformly throughout the first air through hole (61a) ) Is relatively smaller than the size of the second air through hole (63a, 64a), the spacing between the first air through hole (61a) is relative to the spacing between the second air through hole (63a, 64a) It is greatly prepared.

Further, the second air of the inclined plate portion 63 corresponding to the eccentric direction of the center of the air discharge port 22 among the plurality of inclined plate portions 63 and 64 constituting the radial inclined portion 62 in the blowing guide member 60. The size of the through hole 63a is smaller than the size of the second air through hole 64a formed in the other inclined plate portion 64, and between the second air through holes 63a provided in the inclined plate portion 63. The spacing is larger than the spacing between the second air through holes 64a formed in the other inclined plate portions 64.

Therefore, in the case of the blowing guide device C according to the present embodiment, the air resistance in the vertical portion 61 is greater than the radial inclined portion 62, and the air for the air inlet 21 in the radial inclined portion 62 is increased. Since the air resistance at the inclined plate 63 side corresponding to the eccentric direction of the discharge port 22 is greater than the air resistance at the other inclined plate 64 side, the air inlet 21 is provided through the blow guide member 60. It is to be able to smoothly blow dry air farther to the outer side of the eccentric direction of the air discharge port 22 for.

A, B, C: Blowing guide device 10: Blowing guide
20: blowing chamber 21: air inlet
22: air discharge port 40: discharge plate
11: vertical portion 11a: first air through hole
12: radial inclined portion 12a: second air through hole
13: slope plate

Claims (9)

In the blowing guide member provided to be located between the air inlet and the air outlet in the blowing chamber formed so that the air inlet and the air outlet has a larger cross-sectional area than the air inlet,
The blowing guide member includes a vertical portion provided with a plurality of first air through holes to be perpendicular to a direction of air flowing into the blowing chamber through the air inlet, and a plurality of second air through holes. And a radial inclined portion extending from the periphery of the vertical portion to be radially inclined toward the air discharge port. The method of claim 1,
The first air through hole is a blowing guide member, characterized in that the size is provided relatively smaller than the second air through hole. The method of claim 2,
The air gap between the first air through the air guide member, characterized in that the relatively larger than the gap between the air through the hole provided. The method of claim 1,
The size of the second air through hole and the distance between the second air through hole blowing guide member, characterized in that differently provided along the circumference of the radial inclined portion. 5. The method of claim 4,
The blowing guide member is provided in the form of a hollow square pyramid open toward the air discharge port,
The radial inclined portion has a same shape and includes a plurality of inclined plate portions interconnected along the vertical portion,
The air gap guide member, characterized in that the gap between the size of the second air through hole and the second air through hole is provided differently for each of the at least one slope plate. An air inlet and an air inlet having a larger cross-sectional area than the air inlet, the blower chamber is formed so as to face each other, and the blower guide member provided in the blowing chamber between the air inlet and the air outlet,
The blowing guide member includes a vertical portion provided with a plurality of first air through holes to be perpendicular to a direction of air flowing into the blowing chamber through the air inlet, and a plurality of second air through holes. And a radial inclined portion extending from the periphery of the vertical portion to be radially inclined toward the air discharge port. The method according to claim 6,
The center of the air inlet and the air outlet and the vertical portion is provided to match,
The first air through hole is relatively small in size compared to the second air through hole,
The air gap guide device is characterized in that the spacing between the first air through the hole is relatively larger than the spacing between the second air through the hole. The method according to claim 6,
The blowing guide member is provided in the form of a hollow square pyramid open toward the air discharge port,
The center of the air inlet and the vertical portion is provided to match, the center of the air outlet is provided to be eccentric to one side with respect to the center of the air inlet and vertical portion,
The radial inclined portion has a same shape and includes a plurality of inclined plate portions interconnected along the vertical portion,
The size of the second air through hole provided in the inclined plate portion corresponding to the eccentric direction of the center of the air discharge port of the plurality of inclined plate portion is provided smaller than the size of the second air through hole formed in the other inclined plate portion,
The interval between the second air through hole provided in the inclined plate portion corresponding to the eccentric direction of the center of the air discharge port of the plurality of inclined plate portion is characterized in that it is provided larger than the interval between the second air through hole formed in the other inclined plate portion Blowing guide device. The method according to claim 6,
The air discharge port is coupled to the discharge plate formed with a plurality of air discharge holes,
The discharge plate is provided with a plurality of protrusions provided to protrude to the outside of the blower chamber to be spaced apart from each other along the longitudinal direction of the air discharge port, clearly described in the air discharge port longitudinal direction.
The protruding portion includes an end portion provided at the protruding end of the protruding portion so as to be parallel to the vertical portion, and a pair of side portions provided at both end portions of the protruding portion to form both side surfaces of the protruding portion.
The air discharge hole is the airflow guide device, characterized in that provided in each side portion.

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