KR20170017539A - Injection molded screen for laver drying - Google Patents

Abstract

The present invention relates to an injection molding molding process for a blow-drying process, the process comprising: a pair of supports forming both ends of the injection molding molding process; And a drying unit disposed between the pair of supports, wherein the drying unit includes a plurality of open firing fingers spaced apart from each other along a lateral direction, and a spacing member for connecting the two adjacent open fingers in a spaced state Wherein the drying unit includes a pair of supporting members which are adjacent to one another in a lateral direction from an imaginary dividing line bisecting the drying unit in the longitudinal direction so as to be adjacent to any one of the pair of supporting members, Which is a maximum distance between the first and second electrodes, is narrowed.
According to the present invention, in the case of using an injection molding drying furnace for drying-off for drying in a lateral direction by applying a lateral tensile force, even if the transverse tensile force transmitted to the drying fountain decreases in the vicinity of the imaginary dividing line, The size of the spacing space between the pair of drawer fingers is substantially uniform, so that the water dropping through the spacing space is uniform over the entire area of the drying section.

Description

INJECTION MOLDED SCREEN FOR LAVER DRYING [0002]

More particularly, the present invention relates to an injection molding and drying process for blow-drying, in which the spacing distance between the openings can be uniformly formed over the entire area.

Kim is harvested from the sea and then undergoes a process of washing, cutting and drying. Since the final product has a thin and wide shape, it is dried in a thin and wide spread state in the drying process even in the drying process.

It is necessary to have a configuration suitable for drying the sea water for drying. That is, the sea-bed in the state of being mixed with water is easily adhered to the opening and after the drying, the steaming should be easily peeled off from the open-air.

In addition, in order to evenly dry out the sea-bed mixed with water, it is necessary that water drop-out is uniformly performed in all areas of the drying oven for drying.

On the other hand, for the convenience of the production, the drying furnace for Haitai drying can be manufactured by injection molding with a plastic material.

In the case of the injection molding extrusion molding for dry laundering according to the prior art, the spacing distance between the open and the open ends is set to be the same in all the regions before being extended to both the left and right sides. However, The tensile force in the transverse direction is not sufficiently transmitted to the central region with respect to the transverse direction. This results in a problem that the opening distance in the central region is not sufficiently increased as compared with that in the right and left regions, and the spacing distance between the openings is not uniform over the whole area, do.

This is because when Haitai is laid on the above-mentioned injection-molding drying plant, it is not evenly distributed over the entire area of the injection-molding drying plant for drying, and thus it can not have a uniform height as a whole, There was a problem that it fell.

The present invention has been conceived to solve the above problems, and it is an object of the present invention to provide an injection molding and opener for dry laundering which is capable of uniformly forming a spacing distance between the open and closed fingers in both the left and right sides.

In order to accomplish the above object, the present invention provides an injection-molding drying furnace for drying a water-wetted seawater, comprising a pair of A support; And a drying unit disposed between the pair of supports, wherein the drying unit includes a plurality of open firing fingers spaced apart from each other along a lateral direction, and a spacing member for connecting the two adjacent open fingers in a spaced state And a drying unit,

Wherein the drying unit is arranged so that a distance from a virtual dividing line bisecting the drying unit in the longitudinal direction to a distance between adjacent pairs of the pair of supporting members, Is narrowed.

Here, a plurality of the spacing members are provided and are spaced apart from each other along the longitudinal direction. A pair of the spacing members adjacent to each other and a pair of the pair of adjacent fins adjacent to each other cooperate with each other to form a closed curve And the longest width of the spacing widths of the spacing spaces is longer than the width of the spacing members.

Here, it is preferable that the spacing distance lmax (n) between the pair of elongated fins is sequentially calculated from the imaginary dividing line to be closer to any one of the pair of supports.

&Quot; (1) "

lmax (n) = a (n-1) + lmax (1), (n = 1,2,3 ...)

(Where n is the number of pairs between the pair of shelf units, lmax (1) based on the direction adjacent to any one of the pair of supports from the imaginary dividing line, Lmax (n) is a spacing distance between a pair of the elongated fingers located at the n-th position, and a is a constant smaller than zero)

Wherein a spacing distance between a pair of the drawing fingers closest to the imaginary dividing line has a value of 0.65 mm to 1.25 mm and a spacing distance between a pair of the drawing fingers closest to the supporting portion is And has a value of one of 0.25 mm to 0.65 mm within a range smaller than the spacing interval of the adjacent pair of elongated fins.

Here, it is preferable to include a finishing member for connecting one end or the other end of the pair of adjacent fins.

According to the present invention, when the transverse tensile force is applied and the transverse tensile force transmitted to the spreader is decreased as the transverse stretching force is applied to both sides of the imaginary dividing line, The size of the spacing space between the pair of drawer fingers is substantially uniform, so that the water dropping through the spacing space is uniform over the entire area of the drying section.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view showing an injection molding and drying furnace for dry-type drying according to an embodiment of the present invention;
Fig. 2 is an enlarged view of a portion A of the drying unit shown in Fig. 1,
Fig. 3 is a view showing a pulled-up drying-ceremony molding machine for drying the sea-bed drying shown in Fig. 1,
Fig. 4 is a cross-sectional view of the openings shown in Fig. 1. Fig.

Hereinafter, the present invention will be described in detail with reference to the drawings. It is to be noted that the same elements among the drawings are denoted by the same reference numerals whenever possible. In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The singular expressions include plural expressions unless the context clearly dictates otherwise. In the present application, the terms "comprises" or "having" and the like are used to specify that there is a feature, a number, a step, an operation, an element, a component or a combination thereof described in the specification, But do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, or combinations thereof.

FIG. 1 is an enlarged view of a portion A of the drying unit shown in FIG. 1, and FIG. 3 is a cross- FIG. 4 is a view showing a cross section of the openings shown in FIG. 1. FIG.

1 to 4, an injection molding drying furnace 100 according to an embodiment of the present invention is for drying a water-soaked state, and includes a support portion 10, a drying portion 20 ).

In this embodiment, the above-described injection molding molding machine 100 for drying and pouring is described based on the fact that the support portion 10 and the drying portion 20 are integrally formed by plastic injection molding.

The supporting portion 10 is provided on both sides of the injection-molding drying and cooling furnace 100 for forming the both ends of the discharge-molding drying furnace 100. The injection-molding drying furnace 100 according to an embodiment of the present invention is formed in a quadrangular shape as a whole, and the supporting portion 10 has two sides opposite to each other on both sides of the drying- Respectively.

The support portion 10 is formed in a rectangular shape as a whole by joining together a plurality of bar-shaped members 11 extending along the longitudinal direction on the basis of FIG. Here, the support part 10 is provided with a hooking member (not shown) provided in a dryer (not shown) so as to be able to be conveyed on a dryer (not shown) while keeping the injection- And a penetrating groove portion 12 which can be inserted is formed long along the longitudinal direction. A plurality of through grooves 12 are formed on the support portion 10 in a transversely spaced relation to each other and a plurality of through grooves 12 are formed in the center of the support portion 10, As shown in FIG.

The drying unit 20 has a rectangular shape as a whole and is disposed between the pair of supporting members 10 so as to allow the user to stand wet with water. The drying unit 20 includes a plurality of openings 21, (23) and a plurality of closing members (25).

The elongated openings 21 are each formed in a slender bar shape and are spaced apart from each other along the transverse direction so as to obtain a square shaped area of the drying part 20. [ The opener 21 has a polygonal cross section and has a corner at an upper portion thereof. In this embodiment, as shown in FIG. 4, the outer shell is formed into a hexagonal section having six flat faces.

Since the open space 21 has a polygonal cross section, it can be brought into contact with the flat surface of the upper part of the opener 21 in a heavy state when the opener is wet with water, It is possible to maintain the adhesiveness of the drying unit 20 and to make contact with the edge of the upper part of the spreader 21 in a concentrated state so that the contact area with the sea area can be reduced, ). It is needless to say that the cross-section of the open-cut fence 21 is sufficient to form a polygon, and therefore, the cross-section is not necessarily limited to a mathematical polygon that is exactly linear.

The spacing member 23 is a member that has a predetermined longitudinal width and connects the two adjacent spacers 21 so that the adjacent two spacers 21 are spaced apart from each other and connected to each other . A plurality of such spacing members 23 are provided and are spaced apart from each other along the longitudinal direction on a pair of adjacent pair of the drawing fences 21 adjacent to each other. The longitudinal position of the spacing member 23 in the space 21b between the pair of elongating legs 21 on both sides of the pair of elongating legs 21 as a reference, The stretchability of the drying section 20 can be improved by being configured differently from the longitudinal position of the spacing member 23 in the space 21a between the pair of openings 21.

In the present embodiment, a pair of the spacing members 23 adjacent to each other and a pair of the above-described pair of the above-described pair of above-described fingers 21 cooperate with each other to form, as shown in Fig. 2, Thereby forming a spacing space S.

The closing member 25 has a pair of openings 21 adjacent to each other so that one end of the pair of openings 21 is connected at one end and the other end is connected at the other end, Which is connected to one end or the other end.

In the present embodiment, the closing member 25 is disposed between a pair of adjacent shoe fingers 21, and when the drying shoe 100 is stretched to both the left and right sides, the drying unit 20 The upper and lower ends are provided one by one along the lateral direction so as to be extended to both the right and left sides.

The closing member 25 is configured such that a part of the pair of the drawing pieces 21 adjacent to each other at the upper and lower ends of the drying unit 20 are connected to each other, Thereby preventing damage to one end or the other end of the cable.

Meanwhile, the drying unit 20 can be divided into a left side region L and a right side region R by being divided into two by a virtual vertical dividing line V extending along the longitudinal direction. Here, the drying unit 20 will be described with reference to the right region R. [

In the present embodiment, the maximum distance between a pair of open arms 21 adjacent to each other is defined as a spacing distance lmax.

The drying unit 20 is arranged such that the spacing lmax between the pair of the pair of adjacent fabrics 21 adjacent to each other along the transverse direction from the imaginary dividing line V toward the supporting unit 10 .

Mathematical relational expressions can be defined so that the spacing distance lmax (n) between the pair of shunting fences can be sequentially reduced from the imaginary dividing line V toward the support portion 10. [

When a transverse pulling force is applied to the discharge drying furnace 100, there is a spacing S between the pair of drawer fingers 21, The magnitude of the tensile force in the transverse direction is varied. That is, the tensile force in the transverse direction transmitted to the open / close gait 21 is reduced as the virtual dividing line V is adjacent to the virtual gaiter line V, and the strain of each elongated gauntlet 21 varies depending on the lateral position.

In this embodiment, for the sake of convenience in designing the mold for injection molding of the discharge drying furnace 100 for blow-off drying, the lateral tensile force transmitted to each elbow 21 adjacent to the imaginary dividing line V Is assumed to be reduced by an approximate linear relationship. In order to compensate for the change in the magnitude of the tensile force in the transverse direction with respect to the position in the transverse direction, the linear relationship of Equation (1) (Lmax (n)) was determined.

&Quot; (1) "

lmax (n) = a (n-1) + lmax (1), (n = 1,2,3 ...)

(Where n is the number of pairs between the pair of shelf units, lmax (1) based on the direction adjacent to any one of the pair of supports from the imaginary dividing line, Lmax (n) is a spacing distance between a pair of the elongated fingers located at the n-th position, and a is a constant smaller than zero)

In the meantime, in the case of extending the discharge drying furnace 100 to both left and right sides, even if the drying unit 20 is deformed, the spacing lmax of the pair of drawing fences 21 does not exceed 1.5 mm . If the drying unit 20 is deformed by the tensile force in the transverse direction so that the spacing distance between the pair of shavers 21 exceeds 1.5 mm, So that the water-wetted seawater can not be sufficiently stuck over the entire area of the drying unit 20. Here, in the case where the transverse tensile force is applied to the discharge drying furnace 100 for drying in the general working environment of the drying process, the distance between the pair of the drawing stands 21 A pair of the drawer fingers 21 closest to the imaginary dividing line V in a state before the use of the ejecting opener 100 for spreading and drying is extended to both left and right sides so that the interval lmax does not exceed 1.5 mm, Is spaced apart from the support portion (10) by a distance of 0.65 mm to 1.25 mm, and a spacing distance between a pair of the drawer fingers (21) closest to the support portion (10) Is preferably formed to have a value of one of 0.25 mm to 0.65 mm within a range smaller than the spacing distance of the pair of the drawing tools (21).

The number n of the pair of the openings 21 closest to the support portion 10 in this embodiment is set to be 25 from the imaginary dividing line V in the direction adjacent to the support portion 10 (1max (1)) of a pair of the drawer fingers (21) closest to the imaginary dividing line (V) is formed to be 0.95 mm, and a pair of the closest The spacing distance lmax (25) between the openings 21 was set to be 0.45 mm. Also, the constant a has a value of -1/48 so as to satisfy the expression (1), and the spacing distance lmax (n) of the pair of the drawer pieces 21 in the right area R Can have a value calculated by Equation (1). It is preferable that the elongating piece 21 is shaped so as to draw a substantially sinusoidal curve along the longitudinal direction in order to prevent excessive deformation when the tensile force in the transverse direction is applied. The length d of the spacing member 23 in the transverse direction is preferably smaller than the spacing distance lmax (25) of the pair of the drawer fingers 21 closest to the support portion 10, The shortest distance between the paired elongating pieces 21 may be a value close to 0 mm such that each pair of elongating pieces 21 is close to 0 mm to be interposed. In the present embodiment, the length d of the spacer 23 in the transverse direction has a value of 0.45 mm.

The left region L of the drying unit 20 is formed symmetrically with the right region R with respect to the virtual dividing line V. [

Hereinafter, an example of a method of using the injection-molding drying and cooling furnace 100 having the above-described configuration will be described.

First, the injection molding drying furnace 100 is stretched to both left and right sides to insert a hook member (not shown) provided in a dryer (not shown) into a through groove 12 of the supporting portion 10 to maintain a tight state And is mounted on a conveyor (not shown). Then, the drying unit 20 is immersed in water soaked in water and dried.

Since the opener 21 adjacent to the imaginary dividing line V is more warped than the opener 21 adjacent to the support 10 when the injection molding drying furnace 100 is extended to both the right and left sides , As shown in FIG. 3, a spacing lmax of a pair of the opener 21 is formed so as to be substantially equal across the entire area of the drying unit 20. Therefore, the size of the spacing space S of the pair of the drawer fingers 21 across the entire area of the drying unit 20 becomes substantially uniform, (20).

In the injection-molding drying and packaging furnace 100 having the above-described configuration, the spacing distance lmax, which is the maximum distance between a pair of the drawing tools 21 adjacent to each other in the state before the lateral tensile force is applied, The width of the drying part 20 becomes narrower along the lateral direction from a virtual dividing line V dividing the drying part 20 along the vertical direction and adjacent to any one of the pair of supporting parts 20. [ Therefore, even if the transverse tensile force transmitted to the elbow 21 is reduced as the transverse tensile force is applied to both sides of the imaginary dividing line V, The size of the spacing space S between the pair of drawer fingers 21 becomes substantially uniform so that water dripping through the spacing space S is evenly distributed over the entire area of the drying section 20 There are advantages.

The longest width of the widthwise spacing of the spacing space S over the entire area of the drying unit 20 is larger than the widthwise length d of the spacing member 23 The length d of the spacing member 23 in the entire area of the drying unit 20 is equal to the length of the spacing member 23 in the width direction of the drying unit 20, The distance S between the imaginary dividing line V and the supporting portion 20 can be narrowed by a simple design.

It is preferable that the interval lmax (n) between the pair of shrink fittings 21 is larger than the distance Lmax (n) between the imaginary dividing line V and the pair of supports 20, The number of the warp knitting yarns 21 is determined according to the lateral position, so that the design of the mold for injection molding can be more easily performed There are advantages.

The spacing distance (max (1)) of a pair of the drawfingers 21 closest to the imaginary dividing line V is 0.65 mm to 1.25 mm Wherein a spacing distance (max (25)) of a pair of the closest fingernail closest to the support part (20) is a value of a pair of the fencing fingers (21) closest to the imaginary dividing line Is configured to have one of 0.25 mm to 0.65 mm within a range smaller than the spacing distance (max (1)). In this case, when the transverse pulling force applied in the general working environment of the drying process is applied to the discharge drying furnace 100 for drying the laundry, the distance between the pair of the drawer fingers 21 across the entire area of the drying unit 20 The interval lmax does not exceed 1.5 mm so that the water-wetted seawater can not easily escape through the spacing space S between the pair of openings 21, It is advantageous to be able to be fully mounted over the entire area of the base 20.

The support member 10 is provided with a through groove 12 which is elongated along the vertical direction and the through groove 12 is formed in a hook member (Not shown) to be conveyed on a conveyor (not shown) while keeping the injection-molding drying envelope 100 in a taut state, thereby minimizing the occurrence of shaking when conveyed on the conveyor, There is an advantage that it can be maintained.

In addition, since the cross-section of the spreading fountain 21 is polygonal, the above-mentioned injection-molding drying-use open-air generating furnace 100 has a structure in which the attachment area between the fusing unit and the drying unit 20 can be reduced There is an advantage that the peelability of the bar and the sea ridge can be improved.

The injection molding drying furnace 100 for drying and drying has a closure member 25 for connecting one end or the other end of a pair of openings 21 adjacent to each other. It is possible to prevent damage to one end or the other end of the opener 21.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention.

100: Injection molding opening for blow-off drying 10:
12: penetrating groove portion 20: drying portion
21: open / close 23: separation member
25: Closure member V: Virtual divider
L: left area R: right area
S: Spacing space lmax: Spacing space
d: transverse length of the spacer member

Claims (5)

As an injection molding open-air drying apparatus for drying a sea water-wetted sea water,
A pair of supporting portions forming both side ends of the injection-molding drying envelope for the drying-away drying; And
A drying unit disposed between the pair of supports, the drying unit comprising: a plurality of drying fins separated from each other along a transverse direction; and a drying unit including spacing members for connecting the two adjacent drying fins in a spaced apart state Comprising:
The drying unit includes:
The distance between the pair of support members adjacent to each other along the transverse direction from the imaginary dividing line bisecting the drying unit in the longitudinal direction is narrowed as the maximum distance between the pair of adjacent drawing support members It is characterized by injection molding for drying. The method according to claim 1,
Wherein the plurality of spacing members are arranged so as to be spaced from each other along the longitudinal direction,
A pair of the spacing members adjacent to each other and a pair of the pair of spacers adjacent to each other cooperate to form a spaced space surrounded by the closed curve,
Wherein the longest width of the spacing widths in the transverse direction is longer than the transverse length of the spacing members. The method according to claim 1,
Wherein the spacing distance (lmax (n)) between the pair of drawing tools is sequentially calculated from the imaginary dividing line to one of the pair of supporting portions according to the following equation (1) Opening.
&Quot; (1) "
lmax (n) = a (n-1) + lmax (1), (n = 1,2,3 ...)
(Where n is the number of pairs between the pair of shelf units, lmax (1) based on the direction adjacent to any one of the pair of supports from the imaginary dividing line, Lmax (n) is a spacing distance between a pair of the elongated fingers located at the n-th position, and a is a constant smaller than zero) The method according to claim 1,
Wherein a spacing distance between a pair of said elongated fins closest to said imaginary dividing line has a value of one of 0.65 mm to 1.25 mm,
Characterized in that the spacing distance of a pair of the drawing fingers closest to the support portion has a value of 0.25 mm to 0.65 mm within a range smaller than a spacing distance of a pair of the drawing fingers closest to the imaginary dividing line Injection Molding Opening for. The method according to claim 1,
And a closure member for connecting one end or the other end of the pair of adjacent drawer fingers to each other.

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