KR101796594B1 - Apparatus for supporting cables - Google Patents

Abstract

The present invention relates to a head unit, Fixed brackets fixedly coupled to the case so as to be arranged in a plurality of rows in the case; A plurality of cable bearers coupled to the fixing brackets on a one-to-one basis and arranged to be overlapped with each other in the rows of fixing brackets; And a plurality of head units provided on the head unit support and a plurality of connection ducts connecting the cable bails on a one-to-one basis. In the present invention, the cables corresponding one-to-one to the plurality of head units and the cable bails for supporting the cables are densely arranged in one case. As a result, the height of the liquid crystal dispenser is lowered and the weight is reduced because the number of cases mounted on the upper surface of the head unit support is reduced from one to two. Also, the cables connected to the plurality of head units are shortened.

Description

[0001] APPARATUS FOR SUPPORTING CABLES [0002]

The present invention relates to a cable support apparatus for a liquid crystal dispenser.

1 is a perspective view showing an example of a liquid crystal dispenser. The liquid crystal dispenser includes a frame 100, a stage 200, a first guide unit G1, a head unit support 400, a first drive unit D1, a second guide unit G2 ), A plurality of head units (H), and a second drive unit (D2).

The stage 200 is provided on the upper surface of the frame 100.

The first guide unit G1 is provided on the upper surface of the frame 100 so as to be positioned on both sides of the stage 200, respectively.

The head unit support 400 includes two vertical portions 410 spaced apart from each other and a horizontal portion 420 connecting upper portions of the two vertical portions 410. The ends of the vertical portions 410 of the head unit support 400 are connected to the first guide units G1, respectively.

The first driving unit (D1) moves the head unit support (400). The head unit support 400 moves in a straight line along the first guide units G1.

The second guide unit G2 is provided on one side of the horizontal part 420 of the head unit support 400.

The head units H are connected to the second guide unit G2 so as to be arranged in a line. The number of the head units H is sixteen (only ten head units are shown in FIG. 1). The number of the head units H is not limited to sixteen. Each of the head units H includes a nozzle (not shown).

And the second driving unit G2 moves the head units H. The head unit H moves linearly along the second guide unit G2.

The operation of the liquid crystal dispenser as described above is as follows.

First, a transfer robot (not shown) lifts the substrate by the arm of the transfer robot and moves to lower the substrate on the stage 200. The substrate is adsorbed on the upper surface of the stage 200. The first driving unit D1 and the second driving unit D2 move the head units H according to the set data. Drops droplets of liquid crystal through the nozzles of the head unit (H) while the head units (H) move.

Each head unit of the liquid crystal dispenser includes sensors (not shown). The sensors include a sensor for sensing liquid crystal droplets, a sensor (not shown) for sensing the position of the head unit H, and the like. Each of the head units H includes a motor (not shown) for sucking and discharging the liquid crystal.

The sensors of the head unit and the motor are respectively connected to a control unit constituting the liquid crystal dispenser by a cable.

Since a plurality of cables are connected to the plurality of head units on a one-to-one basis, the cables located on the head unit support are struck and irregularly arranged, which is very complicated. A support device is required to allow simple alignment of the cables.

2 is a front view showing a conventional liquid crystal dispenser cable supporting apparatus. 3 is a side view showing a conventional liquid crystal dispenser cable supporting apparatus.

As shown in FIGS. 2 and 3, in the conventional cable supporting apparatus, a first case 430 is installed above the head unit support 400. The second case 440 is coupled to the upper surface of the first case 430. And a cable duct 450 through which cables are inserted into the lower surface of the first case 430.

The first case 430 and the second case 440 are each a hexahedron having an inner space.

When viewing the head unit support 400 from the front, the horizontal direction of the head unit support 400 is referred to as the X-axis direction. The longitudinal direction of the head unit support 400 is referred to as a Z-axis direction. The forward and backward directions of the head unit supporter 400 are referred to as a Y-axis direction. The length of the first case 430 in the X-axis direction is equal to the length of the horizontal part of the head unit support 400. The length of the second case 440 in the X-axis direction is the same as the length of the first case 430 in the X-axis direction.

A through hole 432 having a rectangular shape is formed on the front plate 431 of the first case 430. Through holes are formed in the upper plate 433 and the lower plate 434 of the first case 430, respectively. The through-hole for wiring of the first case 430 is formed to communicate with the inside of the cable duct 450.

A through hole 442 having a rectangular shape is formed on the front plate 441 of the second case 440. A wiring through hole is formed in the lower plate 443 of the second case 440. The wiring hole of the second case 440 is formed to communicate with the wiring through hole provided in the upper plate 433 of the first case 430.

The connecting ducts C are connected to the head units. The connecting duct (C) comprises a vertical duct part (11) and a horizontal duct part (12) bent in the vertical duct part (11). The end of the vertical duct part 11 is connected to the head unit H so that the vertical duct part 11 is positioned in the Z axis direction and the horizontal duct part 12 is positioned in the Y axis direction. The cross-sectional shape of the connecting duct (C) is rectangular.

6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16 head units H1 (H2 ) (H4) (H5) (H6) (H7) (H8) (H9) (H10) (H11) (H12) (H13) (H14) (H15)

The number of the connecting ducts (C) is sixteen. The sixteen connecting ducts (C) are connected to the first, second, third, fourth, fifth, sixth, seventh, eighth, ninth, tenth, (C2) (C3) (C4) (C5) (C6) (C7) (C8) (C9) (C10) (C11) (C12) (C13) (C14) (C15) (C16).

The first, second, third, and fourth connecting ducts C1, C2, C3, and C4 are referred to as a first group connecting duct. (C7), (C8), (C9), (C10), (C11) and (C12) are connected to the second group connecting duct do. The connecting ducts C13, C14, C15 and C16 are referred to as third group connecting ducts.

The lengths of the vertical duct portions 11 of the connecting ducts constituting the first group connecting duct are equal to each other. The lengths of the vertical duct portions 11 of the connecting ducts constituting the second group connecting duct are equal to each other. The lengths of the vertical duct portions 11 of the connecting ducts constituting the third group connecting duct are equal to each other.

The length of each vertical duct part 11 of the connecting ducts constituting the first group connecting duct is equal to the length of each vertical duct part 11 of the connecting ducts constituting the third group connecting duct, Is shorter than the length of each vertical duct part (11) constituting it.

The first group connection duct communicates with the inside of the first case 430. That is, each of the horizontal duct portions 12 of the connecting ducts constituting the first group connecting duct passes through the through hole 431 of the first case 430 and the end of the horizontal duct portion 12 passes through the through- (430). The vertical duct portions 11 of the connecting ducts constituting the first group connecting duct are positioned at a predetermined distance from the front surface of the head unit support 400 and the front plate 431 of the first case 430.

The second group connection duct communicates with the interior of the second case 440. That is, each of the horizontal duct portions 12 constituting the second group connection duct passes through the through hole 442 of the second case 440 and the end of the horizontal duct portion 12 is connected to the second case 440, As shown in FIG. The vertical duct portions 11 of the connecting ducts constituting the second group connecting duct are connected to the front surface of the head unit support 400 and the front plate 431 of the first case 430 and the front plate 431 of the second case 440, (441) at regular intervals.

The third group connection duct communicates with the interior of the first case 430. That is, each of the horizontal duct portions 12 of the connecting ducts constituting the third group connecting duct passes through the through hole 431 of the first case 430 so that the end of the horizontal duct portion 12 passes through the through- (430). The vertical duct portions 11 of the connecting ducts constituting the third group connecting duct are spaced apart from the front surface of the head unit support 400 and the front panel 431 of the first case 430 at regular intervals.

As shown in FIG. 4, the length of each horizontal duct portion 12 of the connecting ducts constituting the first group connecting duct is gradually increased from the first connecting duct C1 to the fourth connecting duct C4. The length of each of the horizontal duct portions 12 of the connecting ducts constituting the third group connecting duct is gradually shortened from the 13th connecting duct C13 to the 16th connecting duct C16.

5, the length of each horizontal duct portion 12 of the fifth, sixth, seventh, and eighth connecting ducts C5, C6, C7, and C8 constituting the second group connecting duct is And gradually increases from the fifth connecting duct C5 to the eighth connecting duct C8. The length of each of the horizontal duct portions 12 of the connecting ducts C9, C10, C11 and C12 of the ninth, tenth, eleventh and twelfth connecting ducts C9 to C12, It gets shorter and shorter.

As viewed from the front of the head unit support 400, four fixing brackets are provided on the upper surface of the lower plate of the first case 430, respectively.

The four fixing brackets positioned on the left side of the upper surface of the lower plate of the first case 430 are fixedly coupled to the upper surface of the lower plate of the first case 430 at regular intervals in the Y axis direction. The four fixing brackets located on the left side of the upper surface of the lower plate of the first case 430 are sequentially referred to as first, second, third, and fourth fixing brackets B1, B2, B3, and B4 in the Y axis direction.

The four fixing brackets positioned on the right side of the upper surface of the lower plate of the first case 430 are fixedly coupled to the upper surface of the lower plate of the first case 430 at regular intervals in the Y axis direction. The four fixing brackets positioned on the right side of the upper surface of the lower plate of the first case 430 are sequentially referred to as the 16th, 15th, 14th, and 13th fixing brackets B16, B15, B14 and B13 in the Y axis direction.

The fixing brackets coupled to the upper surface of the lower plate of the first case 430 have the same height.

As viewed from the front of the head unit support 400, four fixing brackets are provided on the upper surface of the lower plate of the second case 440, respectively. The four fixing brackets located on the left side of the upper surface of the lower plate of the second case 440 are fixedly coupled to the upper surface of the lower plate of the second case 440 at a predetermined interval in the Y axis direction. The four fixing brackets located on the left side of the upper surface of the lower plate of the second case 440 are sequentially referred to as fifth, sixth, seventh and eighth fixing brackets B5, B6, B7 and B8 in the Y axis direction. The four fixing brackets positioned on the right side of the upper surface of the lower plate of the second case 440 are fixedly coupled to the upper surface of the lower plate of the second case 440 at regular intervals in the Y axis direction. The four fixing brackets located on the right side of the upper surface of the lower plate of the second case 440 are referred to as a 12th, 11th, 10th, and 9th fixed brackets B12, B11, B10 and B9 in the Y axis direction.

The fixing brackets coupled to the upper surface of the lower plate of the second case 440 have the same height.

The 16 fixed brackets and the 16 connecting ducts are connected one-to-one with a cable vieer. 16 cablebars connecting the 16 fixing brackets and 16 connecting ducts in a one-to-one manner, and the 16 cablebars are respectively referred to as first to 16th cablebars.

The cable connected to the first head unit passes through the first connecting duct and the first cable bearing and the cable passing through the first cable bearing passes through the wiring through hole of the first case 430 and the cable duct 450, And is connected to a control unit (not shown).

The cables connected to the sixteen head units each penetrate the sixteen connecting ducts and the sixteen cable bails, respectively, and are connected to the control unit through the wiring through holes and the cable duct 450.

However, in the conventional structure as described above, the first case 430 and the second case 440 are provided on the upper surface of the head unit support 400, and the cable L and the cable bails, The first case 430 and the second case 440 are divided and fixed to each other, so that the height of the liquid crystal dispenser is increased. The first case 430 and the second case 440 may be shaken even if a small vibration is generated in the head unit and the head unit support 400 when the head unit H and the head unit support 400 move The possibility of occurrence of foreign matter is increased.

In addition, since the height of the liquid crystal dispenser is increased, driving of the liquid crystal dispenser becomes unstable.

The object of the present invention is to lower the height of the dispenser.

In order to achieve the object of the present invention as described above, Fixed brackets fixedly coupled to the case so as to be arranged in rows in the case; A plurality of cable bearers coupled one to one with the fixing brackets and arranged to overlap with each other; There is provided a cable support apparatus including a plurality of head units provided on the head unit support and a plurality of connection ducts connecting the cable bails in a one-to-one manner.

Further, a case provided in the head unit support; Fixed brackets fixedly coupled to the case so as to be arranged in a plurality of rows in the case; A plurality of cable bearers coupled to the fixing brackets on a one-to-one basis and arranged to be overlapped with each other in the rows of fixing brackets; There is provided a cable support apparatus including a plurality of head units provided on the head unit support and a plurality of connection ducts connecting the cable bails in a one-to-one manner.

The cable bear is composed of a lower straight portion, a curved portion extending to be bent at a lower straight portion thereof, and an upper straight portion extending at the curved portion, wherein curvature radii of the curved portions of the cable bear are equal to each other.

Wherein the cable bear comprises a lower straight portion and a curved portion extending to be bent at a lower straight portion thereof and an upper straight portion extending to the curved portion, wherein a radius of curvature of each curved portion of the cable bear coupled to the fixed bracket row, They are different.

The fixing brackets constituting the rows of fixing brackets preferably have different heights from each other.

The connecting duct includes a vertical duct portion positioned in a vertical direction and a horizontal duct portion extending in a horizontal direction and extending in the vertical duct portion.

The connecting duct includes a front vertical duct portion positioned in a vertical direction, a horizontal duct portion extending in a horizontal direction extending from the front vertical duct portion, and a rear connecting plate portion extending and extending in the horizontal duct portion.

Further, a case provided in the head unit support; Cable bearings coupled to the case so as to be arranged in a plurality of rows and overlapping each other in each row; There is provided a cable support apparatus including a plurality of head units provided on the head unit support and a plurality of connection ducts connecting the cable bails in a one-to-one manner.

Since the cable connected to the plurality of head units H and the cable bare supported in a state in which the cable is inserted and inserted are arranged in one case provided in the head unit support, the height of the liquid crystal dispenser is lowered , The length of the cable is shortened and the weight is reduced. Thus, when vibrations are generated during operation of the liquid crystal dispenser, shaking due to the vibration is minimized. Therefore, the occurrence of foreign matter due to shaking is minimized.

1 is a perspective view showing an example of a general liquid crystal dispenser,
2 is a front view showing a cable supporting device of a conventional liquid crystal dispenser,
3 is a side view showing a cable supporting device of a conventional liquid crystal dispenser,
4 is a sectional view showing a first case constituting a cable supporting device of the liquid crystal dispenser,
Fig. 5 is a sectional view showing a second case constituting a cable supporting device of the liquid crystal dispenser, Fig.
6, 7 and 8 are a front view, a plan view, a side view, and a side view, respectively, of a cable supporting apparatus according to a first embodiment of the present invention,
9 is a plan view showing fixing brackets constituting a first embodiment of a cable supporting apparatus according to the present invention,
10 is a side view showing cables constituting a first embodiment of a cable supporting apparatus according to the present invention, Fig.
11 is a perspective view showing cables constituting a first embodiment of a cable supporting apparatus according to the present invention,
12 is a plan view showing fixing brackets constituting a first embodiment of a cable supporting apparatus according to the present invention,
13 is a side view showing cables constituting a first embodiment of a cable supporting apparatus according to the present invention, Fig.
14 and 15 are a front view and a plan view showing a second embodiment of the cable supporting apparatus according to the present invention,
16 is a side view showing a connecting duct constituting a second embodiment of the cable supporting apparatus according to the present invention,
17 is a side view showing cables constituting a second embodiment of the cable supporting apparatus according to the present invention,
18 is a perspective view showing a part of a second embodiment of the cable supporting apparatus according to the present invention,
19 is a side view showing a coupled state of a cable duct and a cable duct constituting a cable supporting apparatus according to a second embodiment of the present invention;

Embodiments of a cable supporting apparatus according to the present invention will be described with reference to the accompanying drawings.

6 is a front view showing an example of a liquid crystal dispenser equipped with a first embodiment of a cable supporting apparatus according to the present invention. 7 is a plan view showing an example of a liquid crystal dispenser equipped with a cable supporting apparatus according to a first embodiment of the present invention. 8 is a side view showing an example of a liquid crystal dispenser equipped with a first embodiment of a cable supporting apparatus according to the present invention.

Referring to Figs. 6, 7 and 8, a first embodiment of a cable supporting apparatus according to the present invention will be described.

First, the liquid crystal dispenser includes a head unit support 400, a guide unit G provided on the head unit support 400, a plurality of head units H provided on the guide unit G, And a drive unit (D) for moving the head units (H). The head units H are arranged in a line.

When viewing the head unit support 400 from the front, the horizontal direction (horizontal direction) of the head unit support 400 is referred to as the X-axis direction. The longitudinal direction (vertical direction) of the head unit support 400 is referred to as a Z-axis direction. The front and rear directions of the head unit support 400 are referred to as a Y-axis direction.

The number of the head units may be sixteen, twelve or six, or the like. Hereinafter, the case where there are 16 head units will be described.

6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16 head units H1 (H2 ) (H4) (H5) (H6) (H7) (H8) (H9) (H10) (H11) (H12) (H13) (H14) (H15)

A case 610 is provided on the upper surface of the head unit support 400. The case 610 is preferably a cube having an internal space. The case 610 includes a front plate 611, a back plate 612, both side plates 613, an upper plate 614 and a lower plate 615.

The length of the case 610 in the X-axis direction is preferably equal to or greater than the length of the head unit support 400 in the X-axis direction.

A through hole 616 having a rectangular shape is formed on the front plate 611 of the case 610. The length of the through-hole in the X-axis direction of the case front plate is preferably equal to the length in the X-axis direction of the head unit support base 400. [ A wiring hole 617 is formed in the lower plate 615 of the case 610.

A cable duct 620 is provided on the lower surface of the lower plate 615 of the case 610. A wiring hole 617 of the case 610 is formed to communicate with the cable duct 620.

A connecting duct is connected to each of the head units (H). The connecting duct is also referred to as a cable guide member.

The connecting duct CC includes a vertical duct part 21 and a horizontal duct part 22 bent and extended to the vertical duct part 21. [ The end of the vertical duct part 21 is connected to the head unit H so that the vertical duct part 21 is positioned in the Z axis direction and the horizontal duct part 22 is connected to the through hole of the case front plate 611 (616). The sectional shape of the connecting duct CC is rectangular. The sectional shape of the connecting duct CC may be circular or triangular.

The number of the connecting ducts CC varies depending on the number of the head units H, such as sixteen or twelve or six. Hereinafter, the case where there are sixteen connecting ducts (CC) will be described. When viewed from the front of the head unit support 400, the sixteen connecting ducts (CC) are connected to the first, second, third, fourth, fifth, sixth, seventh, eighth, 12, 13, 14, 15, 16 Connection duct (CC1) (CC12) (CC13) (CC13) (CC13) (CC14) (CC15) (CC16).

Fixing brackets BB are fixedly coupled to one side of the upper surface of the lower plate 615 of the case 610 so as to form a plurality of rows when the head unit support 400 is viewed from the front. The fixing brackets BB coupled to the upper left side of the lower plate 615 of the case 610 are referred to as first group fixing brackets.

Fixing brackets (BB) are fixedly coupled to the upper surface of the lower plate (615) of the case (610) so as to form a plurality of rows on the other side, that is, on the right side. The fixing brackets BB coupled to the upper right side of the lower plate 615 of the case 610 are referred to as second group fixing brackets.

As shown in FIG. 9, the number of the first group fixing brackets and the number of the second group fixing brackets are equal to each other. 8 fixing brackets constituting the first group fixing brackets, and 8 fixing brackets constituting the second group fixing brackets. The fixing brackets constituting the first group fixing brackets include first, second, third, fourth, fifth, sixth, seventh and eighth connecting ducts CC1, CC2, CC3, CC4, CC5, ) ≪ / RTI > CC8, respectively. (CC10) (CC11) (CC12) (CC13) (CC14) (CC15) (CC15) and the second group fixing brackets are connected to the connecting ducts ) CC16, respectively. BB1, BB2, BB3, BB4, BB5, BB6, BB7, BB2, BB3, BB3, ) (BB8). BB12, BB11, BB12, BB13, BB14, BB15, BB15, BB16, BB15, BB16, ) (BB16).

The plurality of fixing brackets constituting the first group fixing brackets are spaced apart from each other in the horizontal direction of the head unit support 400, that is, the X axis direction. The fixed bracket rows are arranged in a plurality of rows with fixed bracket rows spaced from each other in the front-back direction of the head unit support 400, that is, the Y-axis direction. It is preferable that the number of the fixed bracket rows is three. The three rows of fixed brackets are sequentially referred to as first, second and third rows from the front plate 611 to the back plate 612.

The first row consists of three fixed brackets. The second row comprises three fixed brackets. The third row comprises two fixed brackets.

The fixing brackets constituting the first row are sequentially arranged in the order from the left end of the lower plate 615 of the case 610 toward the center, and the first, the fourth, and the seventh fixing brackets BB1, BB4, BB7. The heights of the first, fourth, and seventh fixing brackets BB1, BB4, BB7 constituting the first row are different from each other. As shown in FIG. 10, the first, fourth, and seventh fixing brackets BB1, BB4, and BB7 constituting the first row are height-increasing toward the center from the left end of the lower plate 615 of the case 610 It is preferable to increase gradually. The height difference of each of the first, fourth, and seventh fixing brackets BB1, BB4, BB7 is preferably the thickness of the cable bear described below. The first, fourth, and seventh fixing brackets BB1, BB4, BB7 are preferably spaced from one another.

The securing brackets constituting the second row are sequentially positioned in the middle from the left end of the lower plate 615 of the case 610 to the second, fifth and eighth fixing brackets BB2, BB5 and BB8. The heights of the second, fifth, and eighth fixing brackets BB2, BB5, and BB8 forming the second row are different from each other. The second, fifth, and eighth fixing brackets BB2, BB5, and BB8 forming the second row are preferably raised in height from the left end of the lower plate 615 of the case 610 toward the center. The height difference of each of the second, fifth, and sixth fixing brackets BB2, BB5, and BB8 is preferably the thickness of the cable bearer described later. The second, fifth, and sixth fixing brackets BB2, BB5, and BB8 may preferably have the same interval.

The third and sixth fixing brackets BB3 and BB6 are disposed in order from the left end of the lower plate 615 of the case 610 to the middle. The height of the third fixing bracket BB3 is lower than the height of the sixth fixing bracket BB6. The height difference of the third and sixth fixing brackets BB3 and BB6 is preferably the thickness of the cable bear.

The fixing brackets closest to the case lower plate center line among the respective rows are the sixth, seventh and eighth fixing brackets BB6, BB7 and BB8, and the sixth, seventh and eighth fixing brackets BB6 and BB7 ) Is closest to the lower plate center line is the eighth fixing bracket BB8 in the second row, the second closest is the seventh fixing bracket BB7 in the first row and the third closest is the sixth fixing bracket BB7 in the third row, (BB6). Therefore, the fifth fixing bracket BB5, which is the second one in the second row, is closer to the centerline of the lower plate 615 than the fourth fixing bracket BB4 which is the second one in the first row. And the second fixing bracket BB2 in the second row is closer to the center line of the lower plate 615 than the first fixing bracket BB1 in the first row. And the sixth fixing bracket BB6 in the third row is closer to the center line of the lower plate 615. [ The third fixing bracket BB3 of the third row is closer to the center line of the lower plate 615 than the second fixing bracket BB2 of the second row and the third fixing bracket BB3 of the third row is closer to the center line of the first row Is farther from the center line of the lower plate 615 than the fourth fixing bracket BB4.

The lower case center line is a line indicating the center between the left end and the right end of the lower case plate 615 when viewed from the front of the head unit support 400.

When the fixing bracket having the lowest height among the first group fixing brackets is referred to as a first-stage bracket and the higher-level fixing bracket is higher than the first-stage fixing bracket by the thickness of the cable, The first, fourth, and seventh fixing brackets BB1, BB4, BB7 of the row are the first, second, and third brackets, respectively. And the second, fourth, and eighth fixing brackets BB2, BB4, and BB8 of the second row are the second, third, and fourth stage brackets, respectively. And the third and sixth fixing brackets BB3 and BB6 in the third row are the third and fourth brackets, respectively.

When the first group fixing brackets are viewed from the front of the head unit support 400, first, second, third, fourth, fifth, sixth, seventh and eighth fixing brackets BB1 and BB2 ) BB3, BB4, BB5, BB6, BB7, BB8 are arranged in a line without overlapping each other.

The plurality of fixing brackets constituting the second group fixing brackets are spaced apart from each other in the horizontal direction of the head unit support 400, that is, the X axis direction. The fixed bracket rows are arranged in a plurality of rows with fixed bracket rows spaced from each other in the front-back direction of the head unit support 400, that is, the Y-axis direction. It is preferable that the number of the fixed bracket rows is three. The three rows of fixed brackets are sequentially referred to as first, second and third rows from the front plate 611 to the back plate 612.

The first row consists of three fixed brackets. The second row comprises three fixed brackets. The third row comprises two fixed brackets.

The fixing brackets constituting the first row are arranged in order from the right end of the lower plate 615 of the case 610 to the middle, and the fixing brackets BB16, BB13 and BB10 are sequentially arranged. The height of the 16th, 13th, and 10th fixing brackets BB16, BB13, and BB10 forming the first row are different from each other. It is preferable that the height of the fixing brackets BB16, BB13, BB10 forming the first row increases gradually from the right end of the lower plate 615 of the case 610 toward the center.

The height difference of each of the 16th, 13th, and 10th fixing brackets BB16, BB13, and BB10 is preferably the thickness of the cable bear. It is preferable that the 16th, 13th, and 10th fixing brackets BB16, BB13, and BB10 have the same interval.

The fixing brackets constituting the second row are sequentially arranged from the right end of the lower plate 615 of the case 610 to the middle in the order of the fifteenth, twelfth and ninth fixing brackets BB15, BB12 and BB9. The heights of the fifteenth, twelfth and ninth fixed brackets BB15, BB12 and BB9 constituting the second row are different from each other. It is preferable that the height of the 15th, 12th, and 9th fixed brackets BB15, BB12, and BB9 forming the second row gradually increase toward the center from the right end of the lower plate 615 of the case 610. The height difference of each of the fifteenth, twelfth and ninth fixing brackets BB15, BB12 and BB9 is preferably the thickness of the cable bear. The fifteenth, twelfth and ninth fixing brackets BB15, BB12 and BB9 preferably have the same interval.

The fixing brackets constituting the third row are sequentially arranged from the right end of the lower plate 615 of the case 610 toward the middle in the order of the fixing brackets BB14 and BB11. The height of the eleventh fixing bracket BB11 is higher than the height of the fourteenth fixing bracket BB14. The height difference of the 14th and 11th fixing brackets BB14 and BB11 is preferably the thickness of the cable bear.

The fixing brackets closest to the case lower plate center line of the respective rows are ninth, tenth and eleventh fixing brackets BB9, BB10 and BB11, and the ninth, tenth and eleventh fixing brackets BB9 and BB10 ) Is the ninth fixing bracket (BB9) of the second row closest to the lower plate center line, the second closest is the tenth fixing bracket (BB10) of the first row, and the third closest is the eleventh fixing bracket (BB11). Therefore, the twelfth fixing bracket BB12, which is the second one in the second row, is closer to the centerline of the lower plate 615 than the thirteenth fixing bracket BB13 which is the second one in the first row. And the fifteenth fixing bracket BB15 of the second row is closer to the center line of the lower plate 615 than the sixteenth fixing bracket BB16 of the first row. And the eleventh fixing bracket BB11 in the third row is close to the center line of the lower plate 615. [ And the 14th fixing bracket BB14 of the third row is closer to the center line of the lower plate 615 than the 15th fixing bracket BB15 of the second row and the 14th fixing bracket BB14 of the third row Is farther from the center line of the lower plate 615 than the thirteenth fixing bracket BB13.

When a fixing bracket having the lowest height among the second group fixing brackets is referred to as a first stage bracket and a higher level of the cable is thicker than the first stage bracket as a second, 13, and 10 fixing brackets BB16, BB13, and BB10 are the first, second, and third brackets, respectively. And the 15th, 12th, and 9th fixed brackets BB15, BB12, and BB9 of the second row are the second, third, and fourth stage brackets, respectively. And the 14th and 11th fixing brackets BB14 and BB11 in the third row are the third and fourth stage brackets.

When the second group fixing brackets are viewed from the front of the head unit support 400, the first group fixing brackets BB9 (BB10), BB10 ) BB11, BB12, BB13, BB14, BB15, BB16 are arranged in a line without overlapping each other.

The first group fixing brackets and the second group fixing brackets are symmetrical with respect to a center line of the lower case plate 615.

The cable bear is connected to each of the 16 fixed brackets. 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16 cable bails (L1) L12 L3 L4 L5 L7 L8 L9 L10 L12 L13 L14 L15 L16. As shown in Fig. 10, one end of the cable bearing L is fixed to the fixing bracket. The cable bear L includes a lower straight portion 31 and a curved portion 32 bent to extend from the lower straight portion 31 in a state where the cable bear L is fixed to the fixing bracket, And an upper rectilinear section (33) extending from the upper rectilinear section (32). An end portion of the lower straight portion 31 of the cable bearing L is fixedly coupled to the fixing bracket. It is preferable that all of the 16 cable bearings have the same length, and all the cable bearers have the same shape. The radius of curvature of each curved portion 32 of the 16 cable bearings are equal to each other.

As shown in FIG. 11, the first to eighth cable bows are respectively fixed to the first to eighth fixing brackets constituting the first group fixing brackets, respectively.

First, fourth and seventh cable bearings L1 and L4 fixed to the first, fourth and seventh fixing brackets BB1, BB4 and BB7 constituting the first row of the first group fixing brackets, (L7) overlap each other in the vertical direction. Second, fifth and eighth cable bearings L2 (BB2, BB3, BB3) respectively fixed to the second, fifth and eighth fixing brackets BB2, BB5, BB8 constituting the second row of the first group fixing brackets L5 and L8 are also overlapped with each other in the vertical direction. The third and sixth cable bearings L3 and L6, which are respectively fixed to the third and sixth fixing brackets BB3 and BB6 constituting the third row of the first group fixing brackets, Overlap. Are overlapped with each other at the lower straight portion (31) of the cable bear.

The cable bails respectively coupled to the first group fixing brackets are arranged at a height of the upper straight portion 33 of the cable bear according to the height of the fixing bracket to which the cable bear is coupled, The vertical distance to the upper rectilinear portion 33 is determined.

The ninth through sixteenth cable bows are respectively fixed to the ninth through sixteenth fixed brackets constituting the second group fixing brackets, respectively.

13,16 cables L13 (L13) and BB16 (BB16) fixed to the tenth, thirteenth and sixteenth fixing brackets BB10, BB13 and BB16 constituting the first row of the second group fixing brackets L16 overlap each other in the vertical direction. In addition, the ninth, twelfth, and fifteenth cables L9 (L12) and L12 (third pair) fixed to the ninth, twelfth and fifteenth fixing brackets BB9, BB12 and BB15 constituting the second row of the second group fixing brackets, ) L15 also overlap each other in the vertical direction. The eleventh and fourteenth cables L11 and L14 respectively fixed to the eleventh and fourteenth fixing brackets BB11 and BB14 constituting the third row of the second group fixing brackets are overlapped with each other in the vertical direction do. And are superimposed on each other at the straight portion 31 of the cable bear.

The cable bails respectively coupled to the second group fixing brackets are connected to the cable bracket so that the height of the upper straight portion 33 of the cable bear according to the height of the fixing bracket to which the cable bear is coupled, The vertical distance to the upper rectilinear portion 33 is determined.

In the sixteen connecting ducts, the first, second, third, fourth, fifth, sixth, seventh and eighth connecting ducts CC1, CC2, CC3, CC4, CC5, CC6, BB1, BB2, BB3, BB4, BB5, BB6, and BB7 of the first group of fixing brackets BB8). The length of each vertical duct portion of the first to eighth connecting ducts is proportional to the height of each of the first to eighth fixing brackets. For example, since the height of the first fixing bracket BB1 is lower than the height of the second fixing bracket BB2, the length of the vertical duct portion 21 of the first connection duct CC1 is longer than the height of the second connection duct CC2 Is shorter than the length of the vertical duct part (21).

(CC12), (CC12), (CC13), (CC14), (CC15), and (CC16) are connected to the first group fixing brackets BB12, BB13, BB12, BB13, BB14, BB15, and BB16 of the first, second, third, and fourth fixed brackets BB9, BB10, BB11, BB12, BB13, BB16. The length of each vertical duct portion 21 of the connecting ducts of Ninth to Sixteenth is proportional to the height of each of the ninth to sixteenth fixed brackets. For example, since the height of the ninth fixing bracket BB9 is higher than the height of the tenth fixing bracket BB10, the length of the vertical duct portion 21 of the ninth connecting duct CC9 is greater than the height of the tenth connecting duct CC10 The length of the vertical duct portion 21 is longer than the length of the vertical duct portion 21 of FIG.

The respective horizontal duct portions (CC1, CC2, CC3, CC4, CC5, CC6, CC7, CC8) of the first, second, third, 22 are fixed from the front plate 611 of the case to the first, second, third, fourth, fifth, sixth, seventh and eighth fixing brackets BB1, BB2, BB3, BB4, ) To (BB7) (BB8).

That is, the length of the horizontal duct part 22 of the first connection duct CC1 is equal to or slightly larger than the straight line distance from the front plate 611 of the case 610 to the end of the first fixing bracket BB1.

The length of the horizontal duct portion 22 of the second connection duct CC2 is equal to the straight line distance from the front plate 611 of the case 610 to the end of the second fixing bracket BB2.

The length of the horizontal duct portion 22 of the third connection duct CC3 is equal to or slightly larger than the straight line distance from the front plate 611 of the case 610 to the end of the third fixing bracket BB3.

The length of the horizontal duct portion 22 of the fourth connection duct CC4 is equal to or slightly larger than the straight line distance from the front plate 611 of the case 610 to the end of the fourth fixing bracket BB4.

The length of the horizontal duct portion 22 of the fifth connection duct CC5 is equal to or slightly larger than the straight line distance from the front plate 611 of the case 610 to the end of the fifth fixing bracket BB5.

The length of the horizontal duct portion 22 of the sixth connection duct CC6 is equal to or slightly larger than the straight line distance from the front plate 611 of the case 610 to the end of the sixth fixing bracket BB6.

The length of the horizontal duct portion 22 of the seventh connecting duct CC7 is equal to or slightly larger than the straight line distance from the front plate 611 of the case 610 to the end of the seventh fixing bracket BB7.

The length of the horizontal duct portion 22 of the eighth connecting duct CC8 is equal to or slightly larger than the straight line distance from the front plate 611 of the case 610 to the end of the eighth fixing bracket BB8.

Therefore, the lengths of the respective horizontal duct portions 22 of the first, fourth, and seventh connecting ducts CC1, CC4, and CC7 are equal to each other. The lengths of the horizontal duct portions 22 of the second, fifth, and sixth connection ducts CC2, CC5, and CC8 are equal to each other. The lengths of the horizontal duct portions 22 of the third and sixth connection ducts CC3 and CC6 are equal to each other.

Each of the horizontal duct portions (CC11, CC11, CC12, CC13, CC13, CC14, CC15) of the connecting ducts (CC10, 22 are fixed to the front plate 611 of the case 610 through the respective brackets BB9, BB10, BB11, BB12, BB13, BB13, ) To (BB14) and (BB15) (BB16).

Therefore, the lengths of the horizontal duct portions 22 of the tenth, thirteenth, and sixteenth connection ducts CC10, CC13, and CC16 are equal to each other. The lengths of the horizontal duct portions 22 of the ninth, twelfth and fifteenth connecting ducts CC9, CC12 and CC15 are equal to each other. The lengths of the horizontal duct portions 22 of the eleventh and fourteenth connecting ducts CC11 and CC14 are equal to each other.

A through hole is provided in a side surface of an end portion of each horizontal duct portion 22 of the sixteen connecting ducts.

The first, second, third, fourth, fifth, sixth, seventh and eighth cable bearings L1, L2, L3, L4, L5, L6, L7, 2, 3, 4, 5, 6, 7, and 8 connecting ducts CC1, CC2, CC3, CC4, CC5, CC6, Lt; / RTI > An end of the upper linear portion 33 of the cable bearing L is connected to the horizontal duct portion 22 so that the inside of the cable bearing L communicates with the through hole of the horizontal duct portion 22. [ ).

The cable bearings L9, L10, L11, L12, L13, L14, L15, and L16 of the ninth, tenth, eleventh, 10, 11, 12, 13, 14, 15, and 16 connected ducts (CC9) Lt; / RTI > An end of the upper linear portion 33 of the cable bearing L is connected to the horizontal duct portion 22 so that the inside of the cable bearing L communicates with the through hole of the horizontal duct portion 22. [ ).

12 and 13, the first fixing bracket BB1 having the lowest height among the first group fixing brackets and the 16th fixing bracket having the lowest height among the second group fixing brackets The first cable bear L1 and the 16th cable bear L16 coupled to the first fixing bracket BB1 and the 16th fixing bracket BB16 are disposed on the upper surface of the lower case plate 615 And can be fixedly coupled. When the first cable bear L1 and the sixteenth cable bear L16 are excluded, the remaining fixing brackets are lowered in height by the thickness of the cable bear, respectively. In addition, the vertical length of the cable bearings is lowered from the lower plate 615, and the length (height) of each of the connecting ducts is also shortened.

A cable (not shown) is passed through each of the 16 cable bearings. The cables each penetrating the cable bearers are respectively connected to 16 head units H through 16 connecting ducts. That is, the cable is connected to one head unit H by inserting one cable bear L through one connecting duct CC. The cable is inserted and fixed in the cable bear L.

Meanwhile, the cable bear L and the cables inserted through the cable bear L may be integrally formed. That is, the cable bear L and the cable may be formed as a single part.

The cables from the first cable to the sixteenth cable are connected to the control unit through the cable duct.

Hereinafter, a second embodiment of the cable supporting apparatus according to the present invention will be described.

14 is a front view showing a second embodiment of the cable supporting apparatus according to the present invention. 15 is a plan view showing a second embodiment of the cable supporting apparatus according to the present invention.

As shown in Figs. 14 and 15, The second embodiment of the cable supporting apparatus will be described in the case where there are 16 head units mounted on the head unit support 400 as in the first embodiment.

6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16 head units H1 (H2 ) (H4) (H5) (H6) (H7) (H8) (H9) (H10) (H11) (H12) (H13) (H14) (H15)

A case 610 is provided on the upper surface of the head unit support 400 and a cable duct 620 is mounted on a lower surface of the lower plate 615 of the case 610.

The case 610 and the cable duct are the same as the case and the cable duct of the first embodiment, respectively.

A connecting duct (CD) is connected to each of the head units (H). The connection tube is also referred to as a cable guide member. And the cable (s) connected to the head unit H are positioned inside the connection duct.

As shown in FIG. 16, the connecting duct (CD) includes a front vertical duct part 25, a horizontal duct part 26 bent and extended to the front vertical duct part 25, And a rear connecting plate portion 27 which is bent and extended at the portion 25.

The cross-sectional shapes of the front vertical duct part 25 and the horizontal duct part 26 are preferably rectangular. The cross-sectional shape may be circular or triangular. A connection hole is provided in the rear connection plate portion 27.

The front vertical duct part 25 may have a bent plate shape. The horizontal duct part 26 may also have a bent plate shape. In addition, the horizontal duct portion 26 may be a duct in which only a part is ducted, and the remaining portion may be in the form of a bent plate. The rear connection plate portion 27 may be formed in a duct shape.

The front vertical duct part 25 is located in the Z axis direction and the end of the front vertical duct part 25 is connected to the head unit H and the horizontal duct part 26 is positioned in the Y axis direction, And penetrates through hole 616 of case front plate 611. The rear connection plate portion 27 is located in the Z-axis direction inside the case. The end of the front vertical duct part 25 and the end of the rear connecting plate part 27 face downward.

The number of the connecting ducts (CD) varies depending on the number of the head units (H), such as sixteen or twelve or six. Hereinafter, the case where there are sixteen connection ducts (CD) will be described. When viewed from the front of the head unit support 400, the sixteen connecting ducts are arranged in the order of the first, second, third, fourth, fifth, sixth, seventh, eighth, ninth, , 14,15,16 connective ducts (CD1) (CD2) (CD3) (CD4) (CD5) (CD6) (CD7) (CD8) (CD15) (CD16).

Fixing brackets BB are arranged on one side of the upper surface of the lower plate 615 of the case 610 so as to form a plurality of rows when the head unit support 400 is viewed from the front, Are fixedly coupled to the upper surface of the lower plate, respectively. The fixing brackets BB coupled to the upper left side of the lower plate 615 of the case 610 are referred to as first group fixing brackets.

Fixing brackets BB are arranged on the other side of the upper surface of the lower plate 615 of the case 610 so as to form a plurality of rows and the fixing brackets BB are fixedly coupled to the upper surface of the lower plate. The fixing brackets BB coupled to the upper right side of the lower plate 615 of the case 610 are referred to as second group fixing brackets.

The number, arrangement and size of the first group fixing brackets are equal to the number, arrangement and size of the first group fixing brackets of the first embodiment. Therefore, detailed description of the first group fixing brackets will be omitted.

The number, arrangement and size of the second group fixing brackets are equal to the number, arrangement and size of the second group fixing brackets of the first embodiment. Therefore, detailed description of the second group fixing brackets will be omitted.

The numbers of the first and second group fixing brackets are the same as the numbers of the first and second group fixing brackets of the first embodiment.

The fixing brackets constituting the first group fixing brackets include first, second, third, fourth, fifth, sixth, seventh and eighth connecting ducts CD1, CD2, CD4, ) ≪ / RTI > (CD8), respectively. And fixing brackets constituting the second group of fixing brackets include the connecting ducts (CD9) (CD10) (CD11) (CD12) (CD13) (CD14) (CD15 ) ≪ / RTI > (CD16), respectively.

The cable bracket (LD) is connected to each of the 16 fixing brackets. 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16 cable bails LD1, (LD10), (LD10), (LD12), (LD13), (LD14), (LD14),

As shown in FIG. 17, one end of the cable bearing LD is fixed to the fixing bracket BB. The cable bear LD has a lower rectilinear section 31 and a curved section 32 which is bent to extend from the lower rectilinear section 31 and a lower section And an upper rectilinear section 33 extending in a straight line in the curved section 32. An end portion of the lower straight portion 31 of the cable bare LD is fixedly coupled to the fixing bracket BB.

The first to eighth cable bails are respectively coupled to the first to eighth fixing brackets, which are the first group fixing brackets, respectively.

The first, fourth, and seventh cable bearings LD1 and LD4 fixed to the first, fourth, and seventh fixing brackets BB1, BB4, and BB7 constituting the first row of the first group fixing brackets, The lower straight line portions 31 are overlapped with each other in the vertical direction. The radius of curvature of each curved portion 32 of the first, fourth, and seventh cable bearings LD1, LD4, LD7 is different from each other. The radius of curvature of the curved portion 32 gradually increases from the middle to the side end of the lower case plate 615 among the first, fourth, and seventh cable bearings LD1, LD4, LD7. That is, the radius of curvature of the curved portion 32 of the fourth cable bearing LD4 is larger than the radius of curvature of the curved portion 32 of the seventh cable bearing LD7, The radius of curvature of the curved portion 32 of the first cable bearing LD1 is larger than the radius. The height from the upper surface of the lower case plate 615 to the end of the upper straight line portion 33 of the seventh cable bearing LD7 The height from the upper surface of the lower case plate 615 to the end of the upper straight line portion 33 of the fourth cable bearing LD4 is lower than the height of the upper straight line portion 33 of the fourth cable bearing LD4, Is lower than the height to the end of the upper straight line portion (33) of the first cable bearing (LD1).

Second, fifth and eighth cable bearings LD2 (BB2), BB3 (BB2), BB3 (BB3), BB3) fixed to the second, fifth and eighth fixed brackets BB2, BB5 and BB8 constituting the second row of the first group of fixing brackets LD5 and LD8 are also superimposed on each other in the vertical direction. The radius of curvature of the curved portion 32 gradually increases from the middle of the lower case plate to the side end of the second, fifth, and eighth cable bows LD2, LD5, LD8. The curvature radius of the curved portion 32 of the fifth cable bearing LD5 is larger than the curvature radius of the curved portion 32 of the eighth cable bearing LD8 and the curvature radius of the curved portion 32 of the fifth cable bearing LD5 is larger than the curvature radius of the curved portion 32 of the eighth cable bearing LD8, The radius of curvature of the curved portion 32 of the second cable bearing LD2 is larger than the radius. The height from the upper surface of the lower case plate 615 to the end of the upper straight line portion 33 of the eighth cable bearing LD8 The height from the upper surface of the lower case plate 615 to the end of the upper straight line portion 33 of the fifth cable bearing LD5 is lower than the height of the upper straight line portion 33 of the fifth cable bearing LD5, Is lower than the height to the end of the upper straight line portion (33) of the second cable bearing (LD2).

The third and sixth cable bearings LD3 and LD6, which are respectively fixed to the third and sixth fixing brackets BB3 and BB6 constituting the third row of the first group fixing brackets, The straight line portions 31 overlap each other. The radius of curvature of the curved portion 32 gradually increases from the middle of the lower case plate to the side end of the third and sixth cable bearings LD3 and LD6. That is, the radius of curvature of the curved portion 32 of the third cable bearing LD3 is larger than the curvature radius of the curved portion 32 of the sixth cable bearing LD6. The height from the upper surface of the lower case plate 615 of the third and sixth cable bearings LD3 to the end of the upper straight line portion 33 of the sixth cable bearing LD6 is greater than the height of the third cable bearing LD3. Is lower than the height of the upper straight line portion (33).

The ninth through sixteenth cable bails are respectively coupled one to one to the ninth through sixteenth fixed brackets constituting the second group fixing brackets.

13 and 16 cables LD10 and LD13 fixed to the tenth, thirteenth and sixteenth fixing brackets BB10, BB13 and BB16 constituting the first row of the second group fixing brackets LD16 overlap the lower linear portions 31 in the vertical direction. The radius of curvature of the curved portion 32 gradually increases from the middle to the side end of the lower case plate 615 among the tenth, thirteenth, and sixteenth cable bows LD10, LD13, LD16. That is, the radius of curvature of the curved portion 32 of the thirteenth cable bearing LD13 is larger than the radius of curvature of the curved portion 32 of the tenth cable bearing LD10, The radius of curvature of the curved portion 32 of the 16th cable bearer LD 16 is larger than the radius. The height from the upper surface of the lower case plate 615 of the tenth, thirteenth, and sixteenth cable bows LD10, LD13, LD16 to the end of the upper straight line portion 33 of the tenth cable bear LD10 The height from the upper surface of the lower case plate 615 to the end of the upper straight portion 33 of the thirteenth cable bearing LD13 is lower than the height of the upper straight portion 33 of the thirteenth cable bearing LD13, Is lower than the height of the upper straight portion (33) of the 16th cable bearer (LD16).

Further, the ninth, twelfth, and fifteenth cables LD9 (LD12) fixed to the ninth, twelfth and fifteenth fixing brackets BB9, BB12 and BB15 constituting the second row of the second group fixing brackets, ) LD15 also overlap the lower straight line portions 31 in the vertical direction. The radius of curvature of the curved portion 32 gradually increases from the middle to the side end of the lower case plate 615 among the ninth, twelfth, and fifteenth cable bearings LD9, LD12 (LD15). That is, the radius of curvature of the curved portion 32 of the twelfth cable bearing LD12 is larger than the radius of curvature of the curved portion 32 of the ninth cable bearing LD9, The radius of curvature of the curved portion 32 of the fifteenth cable bearing LD 15 is larger than the radius. The height from the upper surface of the lower case plate 615 of the ninth, twelfth, fifteenth and fifteenth cable bearings LD9, LD12 to the end of the upper straight line portion 33 of the ninth cable bearing LD9 The height from the upper surface of the lower case plate 615 to the end of the upper straight line portion 33 of the twelfth cable bearer LD12 is lower than the height of the upper straight line portion 33 of the twelve cable bearings LD12, Is lower than the height of the upper straight line portion (33) of the fifteenth cable bearer (LD15).

In addition, the eleventh and fourteenth cables LD11 and LD14, which are respectively fixed to the eleventh and fourteenth fixing brackets BB11 and BB14 constituting the third row of the second group fixing brackets, (31) overlap each other. The radius of curvature of the curved portion 32 gradually increases from the middle to the side end of the lower case plate 615 among the eleventh and fourteenth cable bearings LD11 and LD14. That is, the radius of curvature of the curved portion 32 of the fourteenth cable bearing LD14 is larger than the curvature radius of the curved portion 32 of the eleventh cable bearing LD11. The height from the upper surface of the lower case plate 615 of the eleventh and fourteenth cable bearings LD11 to the end of the upper straight line portion 33 of the eleventh cable bear LD11 is smaller than the height of the fourteenth cable bear LD14, Is lower than the height of the upper straight line portion (33).

In the sixteen connecting ducts connected in one-to-one relation to the head units H, the first, second, third, fourth, fifth, sixth, seventh and eighth connecting ducts CD1, CD2, (CD5), (CD6), (CD7), and (CD8) are connected to the first group fixing brackets 1, 2, 3, 4, 5, 6, 7, and 8 fixed brackets BB1, BB2, ), (BB5), (BB6), (BB7) and (BB8), and the ninth, tenth, eleventh, twelfth and thirteenth connection ducts CD9, CD10, CD13) (CD14) (CD15) (CD16) are fixed to the second group fixing brackets 9,10,11,12,13,14,15,16 fixed brackets BB9, BB10, BB11, One-to-one correspondence with (BB13), (BB14), (BB15) and (BB16).

The lengths of the front vertical duct portions 25 of the sixteen connecting ducts coupled one-to-one with the head units are equal to each other.

The respective horizontal duct portions of the first, second, third, fourth, fifth, sixth, seventh and eighth connecting ducts CD1, CD2, CD3, 26) 22 are extended from the front plate 611 of the case to the first, second, third, fourth, fifth, sixth, seventh and eighth fixing brackets BB1, BB2, BB3, ) To (BB6), (BB7) and (BB8).

Therefore, the lengths of the horizontal duct portions 26 and 22 of the first, fourth, and seventh connecting ducts CD1, CD4, and CD7 are equal to each other. The lengths of the horizontal duct portions 26 and 22 of the second, fifth, and sixth connecting ducts CD2 and CD5 are equal to each other. The lengths of the horizontal duct portions 26 and 22 of the third and sixth connection ducts CD3 and CD6 are equal to each other.

Each of the horizontal duct sections (CD10), (CD11), (CD12), (CD13), (CD14), 26) 22 are extended from the front plate 611 of the case 610 to each of the ninth, tenth, eleventh, twelfth, thirteenth, fourteenth, fifteenth and sixteenth fixed brackets BB9, BB10, BB11 ) To (BB13), (BB14) and (BB15) (BB16).

 Therefore, the lengths of the horizontal duct portions 26 and 22 of the tenth, tenth, and sixteenth connection ducts CD10 and CD13 are equal to each other. The lengths of the horizontal duct portions 26 and 22 of the ninth, twelfth and fifteenth connecting ducts CD9 and CD12 are equal to each other. Also, the lengths of the horizontal duct portions 26 and 22 of the eleventh and fourteenth connecting ducts CD11 and CD14 are equal to each other.

A through hole is provided on a bottom surface of each of the horizontal duct portions 26 and 22 of the sixteen connecting ducts.

The through holes may not be provided on the lower surfaces of the first and second connecting ducts CD1 and CD2 and the fifteenth and sixteenth connecting ducts CD15 and CD16 located at both ends of the sixteen connecting ducts have.

The horizontal duct portions 26 of the sixteen connecting ducts are located on the same horizontal line. Each upper straight line portion 33 of the sixteen cable bays is located below the horizontal duct portion 26 of the sixteen connecting ducts. The rear connecting plate portions 27 of the sixteen connecting ducts extend downward from the respective horizontal duct portions 26.

The first, fourth, and seventh connecting ducts CD1, CD4 corresponding to the first, fourth, and seventh fixing brackets BB1, BB4, BB7 constituting the first row of the first group fixing brackets, The lengths of the rear connection plate portions 27 of the CD7 are different from each other. 18, the ends of the rear connecting plate portions 27 of the first, fourth, and seventh connecting ducts CD1, CD4, and CD7 are connected to the first, The length of the rear connecting plate portion 27 of the seventh connecting duct CD7 reaches the end portion of each upper straight line portion 33 of the fourth connecting duct CD4, And the length of the rear connecting plate portion 27 of the fourth connecting duct CD4 is longer than the length of the rear connecting plate portion 27 of the first connecting duct CD1.

The end portions of the upper linear portions 33 of the first, fourth, and seventh cable bearings LD1, LD4 and LD7 are connected to the first, second and third connecting ducts CD1, CD4, One-to-one connection to the rear connection plate portion 27.

When the height of the upper linear portion 33 of the first cable bearing LD1 is equal to or more than the height of the horizontal duct portion 26 of the first connection duct CD1, The first connecting tube CD1 does not have the rear connecting plate portion 27 and the end portion of the upper linear portion 33 of the first cable bearing LD1 is connected to the horizontal duct portion of the first connecting duct CD1 26).

Second, and sixth connection ducts CD2 and CD5 (corresponding to the second, fifth, and eighth fixing brackets BB2, BB5, and BB8) forming the second row of the first group fixing brackets CD8 are different in length from each other. That is, the end portions of the rear connecting plate portions 27 of the second, fifth and eighth connection ducts CD2, CD5 and CD8 are connected to the second, fifth and eighth cable bows LD2, LD5, The length of the rear connecting plate portion 27 of the eighth connecting duct CD8 is longer than the length of the rear connecting plate portion 27 of the fifth connecting duct CD5 so as to reach the end portion of each upper straight line portion 33, The length of the rear connecting plate portion 27 of the fifth connecting duct CD5 is longer than the length of the rear connecting plate portion 27 of the second connecting duct CD2.

The end portions of the upper straight line portions 33 of the second, fifth and eighth cable bows LD2, LD5 and LD8 are connected to the ends of the second, fifth and eighth connection ducts CD2, CD5, One-to-one connection to the rear connection plate portion 27. When the height of the upper straight line portion 33 of the second cable bearing LD2 is equal to or more than the height of the horizontal duct portion 26 of the second connection duct CD2, It is preferable that an end portion of the upper straight line portion 33 of the second cable bearing LD2 is connected to the horizontal duct portion 26 of the second connection duct CD2 without the connection plate portion 27. [

The rear connecting plate portion 27 of the third and sixth connecting ducts CD3 and CD6 corresponding to the third and sixth fixing brackets BB3 and BB6 constituting the third row of the first group fixing bracket, Are different. The ends of the rear connecting plate portions 27 of the third and sixth connecting ducts CD3 and CD6 are connected to the ends of the upper straight line portions 33 of the third and sixth cable bows LD3 and LD6, The length of the rear connection plate portion 27 of the sixth connection duct CD6 is longer than the length of the rear connection plate portion 27 of the third connection duct CD3.

The end portions of the upper linear portions 33 of the third and sixth cable bearings LD3 and LD6 are connected to the rear connecting plate portions 27 of the third and sixth connecting ducts CD3 and CD6 one- do. When the height of the upper straight line portion 33 of the third cable bearing LD3 is equal to or more than the height of the horizontal duct portion 26 of the third connecting duct CD3, It is preferable that an end portion of the upper straight line portion 33 of the third cable bearing LD3 is connected to the horizontal duct portion 26 of the third connecting duct CD3 without the connecting plate portion 27. [

Also, the tenth, tenth, and sixteenth connection ducts CD10 (CD13) corresponding to the tenth, thirteenth, and sixteenth fixing brackets BB10, BB13, BB16 constituting the first row of the second group fixing brackets, (CD16) are different from each other. That is, the end portions of the rear connecting plate portions 27 of the tenth, thirteenth and sixteenth connection ducts CD10, CD13 and CD16 are connected to the end portions of the tenth, thirteenth and sixteenth cable bows LD10, LD13, The length of the rear connecting plate portion 27 of the tenth connecting duct CD10 is longer than the length of the rear connecting plate portion 27 of the thirteenth connecting duct CD13 so as to reach the end portion of each upper straight line portion 33, The length of the rear connecting plate portion 27 of the thirteenth connecting duct CD13 is longer than the length of the rear connecting plate portion 27 of the sixteenth connecting duct CD16.

The end portions of the upper straight line portions 33 of the tenth, thirteenth, and sixteenth cable bails CD10, CD13, and CD16 are connected to the ends of the tenth, thirteenth, and sixteenth connection ducts CD10, One-to-one connection to the rear connection plate portion 27. When the height of the upper linear portion 33 of the 16th cable bay LD16 is equal to or more than the height of the horizontal duct portion 26 of the 16th connection duct CD16, It is preferable that an end of the upper linear portion 33 of the 16th cable bay LD16 is connected to the horizontal duct portion 26 of the 16th connection duct CD16 without the connection plate portion 27. [

12, 15 connected ducts CD9, CD12 (corresponding to the first, second, third, fourth, fifth and sixth fixing brackets BB9, BB12, BB15) CD15 are different from each other in length. That is, the ends of the rear connecting plate portions 27 of the ninth, twelfth, fifteenth and fifteenth connecting ducts CD9, CD12 and CD15 are connected to the ends of the ninth, twelfth and fifteenth cable bows LD9, LD12, The length of the rear connecting plate portion 27 of the ninth connecting duct CD9 is longer than the length of the rear connecting plate portion 27 of the twelfth connecting duct CD12 so as to reach the end portion of each upper straight line portion 33, The length of the rear connecting plate portion 27 of the twelfth connecting duct CD12 is longer than the length of the rear connecting plate portion 27 of the fifteenth connecting duct CD15.

The end portions of the upper linear portions 33 of the ninth, twelfth, fifteenth and fifteenth cable bearings LD9, LD12 and LD15 are connected to the respective ends of the ninth, twelfth and fifteenth connecting ducts CD9, CD12, One-to-one connection to the rear connection plate portion 27. When the height of the upper linear portion 33 of the fifteenth cable bearing LD 15 is equal to or about the same as the height of the horizontal duct portion 26 of the fifteenth connection duct CD 15, It is preferable that an end portion of the upper linear portion 33 of the fifteenth cable bearing LD 15 is connected to the horizontal duct portion 26 of the fifteenth connecting duct CD 15 without the connecting plate portion 27.

The rear connecting plate portion 27 of the eleventh and fourteenth connecting ducts CD11 and CD14 corresponding to the eleventh and fourteenth fixing brackets BB11 and BB14 constituting the third row of the second group fixing brackets, Are different. That is, the end portions of the rear connecting plate portions 27 of the 11th and 14th coupling ducts CD11 and CD14 are connected to the ends of the upper straight line portions 33 of the 11th and 14th cable bails LD11 and LD14, The length of the rear connecting plate portion 27 of the eleventh connecting duct CD11 is longer than the length of the rear connecting plate portion 27 of the fourteenth connecting duct CD14.

The end portions of the upper straight line portions 33 of the eleventh and fourteenth cable bearings LD11 and LD14 are connected to the rear connecting plate portions 27 of the eleventh and fourteenth connecting ducts CD11 and CD14 one- do. When the height of the upper linear portion 33 of the 14th cable bay LD14 is equal to or about the same as the height of the horizontal duct portion 26 of the 14th connection duct CD14, It is preferable that an end portion of the upper linear portion 33 of the 14 th cable bay LD 14 is connected to the horizontal duct portion 26 of the 14th connection duct CD 14 without the connection plate portion 27.

The rear connecting plate portion 27 of the connecting duct CD has a bent shape. It is preferable that an end of the upper straight portion 33 of the cable bearing LD is fixedly coupled to the lower surface of the rear connecting plate portion 27 of the connecting duct CD. The cable (s) passing through the cable bearer (LD) is inserted into the through-hole of the connecting duct horizontal duct part (26).

When the end of the upper straight portion 33 of the cable bare LD is connected to the horizontal duct portion 26 of the connecting duct CD, the end of the upper straight portion 33 of the cable bare LD is connected to the horizontal duct The end of the upper linear portion 33 is connected to the side surface of the horizontal duct portion 26 so as to communicate with the through hole provided in the side surface of the duct portion 26. The cable (s) passing through the cable bearer (LD) is inserted into the through-hole of the connecting duct horizontal duct part (26).

12, the first fixing bracket BB1 having the lowest height among the first group fixing brackets and the 16th fixing bracket BB16 having the lowest height among the second group fixing brackets, The first cable bear L1 and the sixteenth cable bear L16 can be fixedly coupled to the upper surface of the lower case plate 615 at positions of the first and second fixing brackets have.

When the first fixing bracket BB1 and the sixteenth fixing bracket BB16 are excluded, the remaining fixing brackets are lowered in height by the thickness of the cable bare respectively. In addition, the vertical length of the cable bearings from the lower plate 615 is lowered.

Cables or cables (not shown) are respectively passed through the 16 cable bearings. And cable (s) each penetrating the cable bearings are respectively connected to 16 head units (H) through 16 connecting ducts, respectively. That is, the cable (s) are connected to one head unit H by inserting one cable bear L and one connecting duct CC through. The cable (s) are inserted and fixed in the cable bear (L).

Meanwhile, the cable bear L and the cables inserted through the cable bear L may be integrally formed. That is, the cable bear L and the cable may be formed as a single part.

The cables from the first cable to the sixteenth cable are connected to the control unit through the cable duct.

According to another embodiment of the present invention, the cable brackets may be directly mounted on the lower plate 615 of the case without excluding the fixing brackets. The position where the cable bearings are installed is a position where the fixing brackets are mounted.

Further, in another embodiment of the present invention, when the number of the head units H is 12, 10, 6, or the like, the fixing brackets are combined in one row or two rows on both sides of the lower plate 615 of the case And the cable bearers are coupled one to one to the fixed brackets constituting the one or two rows, and the cable bearers are overlapped with each other. The cable bows are connected one-to-one to the head units.

Further, in another embodiment of the present invention, when the number of the head units H is 12, 10, or 6, etc., the cable bearings are arranged in one row or two rows on both sides of the lower plate 615 of the case And the cable bows are connected to the head units on a one-to-one basis.

The case where the present invention is applied to the liquid crystal dispenser has been described above. The present invention is also applicable to a thread dispenser having a plurality of head units on a head unit support. The present invention is also applicable to semiconductor manufacturing equipment having a plurality of head units on a head unit support.

Hereinafter, the operation and effects of the cable supporting apparatus according to the present invention will be described.

And the driving unit D moves the head units H, respectively. The head units (H) move along the guide unit (G). The cable (s) connected to the head units H move together with the movement of the head units H.

Since the cable bails are divided into both sides of the lower plate 615 of the case and cable bails divided into two are vertically stacked and fixed to the fixing brackets provided on the lower plate 615 of the case 610, The cable bearings are arranged densely and regularly inside the case 610. [ The cable bails are arranged in a tight and regular arrangement in the case 610, so that all the cable bails corresponding to the number of the head units H are installed in one case 610. In addition, the height of the fixing brackets arranged in a row is different from each other, so that the cable bails fixed to the fixing brackets are aligned.

Since the cable connected to each of the plurality of head units H and the cable bear supported in a state where the cable is inserted and inserted are arranged in one case 610 provided in the head unit support 400, The height of the dispenser is lowered, the length of the cable is shortened, and the weight is also reduced. Thus, when vibrations are generated during operation of the liquid crystal dispenser, shaking due to the vibration is minimized. Therefore, the occurrence of foreign matter due to shaking is minimized.

CC; Connecting duct BB; fixed bracket
H; Head unit L; cable Bear
610; case

Claims (16)

A case provided on the head unit support;
Fixed brackets fixedly coupled to the case so as to be arranged in rows in the case;
A plurality of cable bearers coupled to the fixing brackets on a one-to-one basis;
A plurality of head units provided on the head unit support and a plurality of connection ducts connecting the cable bails in a one-to-one manner,
Wherein the fixing brackets adjacent to each other have different heights of the fixing brackets. A case provided on the head unit support;
Fixed brackets fixedly coupled to the case so as to be arranged in a plurality of rows in the case;
A plurality of cable bearers coupled to the fixing brackets on a one-to-one basis;
A plurality of head units provided on the head unit support and a plurality of connection ducts connecting the cable bails in a one-to-one manner,
Wherein the fixing brackets adjacent to each other have different heights of the fixing brackets. 3. The apparatus of claim 2, wherein the fixing brackets comprise first group fixing brackets arranged on one side of the case in a plurality of rows and second group fixing brackets arranged on the other side of the case in a plurality of rows, Supporting device. The cable supporting apparatus according to claim 1 or 2, wherein the cable bails coupled one-to-one with the fixing brackets constituting the row of fixed brackets overlap each other in the vertical direction of the head unit support. The cable cable according to claim 1 or 2, wherein the cable bear comprises a lower straight portion, a curved portion extending to be bent at a lower straight portion thereof, and an upper straight portion extending to the curved portion, And the radius of curvature are equal to each other. The cable bender according to claim 1 or 2, wherein the cable bear comprises a lower straight portion, a curved portion extending to be bent at a lower straight portion thereof, and an upper straight portion extending to the curved portion, Characterized in that the curvature radii of the respective curved portions of the cable bearings are different. [5] The apparatus according to claim 3, wherein a plurality of fixing brackets constituting the first group fixing brackets are arranged in the lateral direction of the head unit support, and the fixing bracket rows constituting the first group fixing brackets are fixed Wherein a plurality of bracket rows are arranged in the front-back direction of the head unit support. [5] The apparatus according to claim 3, wherein a plurality of fixing brackets constituting the second group fixing brackets are formed by arranging a plurality of the fixing brackets in the lateral direction of the head unit support, and the fixing bracket rows constituting the second group fixing brackets are fixed Wherein a plurality of bracket rows are arranged in the front-back direction of the head unit support. The cable supporting apparatus according to claim 7 or 8, wherein the height of the fixing brackets forming the row of fixing brackets sequentially changes. The cable supporting apparatus as claimed in claim 9, wherein the fixing brackets constituting the rows of fixing brackets are gradually elevated from one end to the middle of the case. 10. The cable support apparatus of claim 9, wherein a height difference of each of the fixing brackets is one thickness of the cable bear. The cable support apparatus of claim 3, wherein the first group fixing brackets and the second group fixing brackets are symmetrical with respect to a center line of the case. The cable supporting apparatus according to claim 1 or 2, wherein the connecting duct includes a vertical duct portion positioned in a vertical direction and a horizontal duct portion bent and extended in the vertical duct portion. The duct according to claim 1 or 2, wherein the connecting duct comprises: a front vertical duct part positioned in a vertical direction; a horizontal duct part bent and extended in the front vertical duct part; A cable support device comprising an extended rear connection plate portion. delete delete

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