KR101415609B1 - Improved Multi-Head and its Manufacturing Method, and Spray-Type Pattern Forming Apparatus and its Manufacturing Method Having the Same - Google Patents

Abstract

The present invention discloses an improved multi-head, a method of manufacturing the same, a spray pattern forming apparatus having the same, and a method of manufacturing the same.
A multi-head according to an embodiment of the present invention includes a nozzle plate having a plurality of nozzle receiving holes; A plurality of inlets provided in the nozzle plate and connected to the plurality of nozzle receiving holes to introduce ink; And a plurality of nozzles mounted on the plurality of nozzle receiving holes and connected to the plurality of inlet ports and having a discharge port through which the ink is discharged, wherein the plurality of nozzles are aligned in the plurality of nozzle receiving holes As shown in Fig.

Description

TECHNICAL FIELD The present invention relates to an improved multi-head, a method of manufacturing the same, a spray pattern forming apparatus and a method of manufacturing the same,

The present invention relates to an improved multi-head, a method of manufacturing the same, and a spray pattern forming apparatus and a method of manufacturing the same.

More specifically, according to the present invention, a plurality of nozzles are inserted into a nozzle plate on which a plurality of nozzle receiving grooves are formed by using a jig plate so as to align the discharge ports, thereby minimizing the length deviation of the discharge ports of the plurality of nozzles, The uniformity of the discharge position and the discharge cross-sectional area of the discharge port is ensured and the pitch between the plurality of nozzles is remarkably reduced to enable fine pattern formation and the use of the nozzle guide housing for orienting the plurality of nozzles in the vertical direction And more particularly, to an improved multi-head in which the number of all components and the manufacturing process time are reduced, a method of manufacturing the same, a pattern forming apparatus and a manufacturing method thereof.

Generally, in order to manufacture FPD or FPD parts such as PDP panel, LCD panel, or organic EL panel such as OLED (organic light emitting device), a substrate or a work piece such as a glass, A pattern such as R, G, or B pixels must be formed on the surface of the substrate 101. As one of such pattern forming apparatuses, a spraying apparatus of various shapes using a plurality of nozzles is disclosed in the prior art.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view showing a conventional multi-head using a plurality of nozzles and a spray-type pattern forming apparatus having the same. A conventional multi-head and spray type pattern forming apparatus using such a plurality of nozzles is described in, for example, Renn Michael et al., Entitled " Small Aerosol Spraying Apparatus and Arrangement of Aerosol Spraying Apparatus: Korean Patent Application No. 10-2007-7015799, filed on September 17, 2007, and Korean Patent Publication No. 10-2007-0093101.

Referring to FIG. 1 again, in the conventional multi-head 116 and the spray type pattern forming apparatus 100 having the same, the carrier gas flows into the first chamber 112b through the first port 112a And then enters the multi-head 116 having a plurality of nozzles 117 through a plurality of carrier gas injection ports 112. In this case, the first port 112a may be directly connected to the plurality of carrier gas injection ports 112, in which case the first chamber 112b is unnecessary. In addition, the ink flows into the second chamber 114b through the at least one second port 114a. The ink and the carrier gas are combined in the combination chamber 115, and are jetted through the plurality of nozzles 117 and the discharge port 118.

However, since the conventional pattern forming apparatus 100 having the multi-head 116 requires the use of two fluids (ink and carrier gas), the entire apparatus becomes large in size, and in particular, It is difficult to control the flow rate of the carrier gas, and it is difficult to inject the ink at a constant amount.

In order to solve the problems of the conventional art described above, a multi-head for electrospray deposition and a spray type pattern forming apparatus having the same are used. The use of such a multi-head for electro-spraying and a spray-type pattern forming apparatus having the electro-spraying ink enables the ink to be positively charged, and the charged ink particles are injected through the plurality of nozzles of the multi- no need.

More particularly, FIGS. 2A and 2B are views showing a prior art multi-head using an electro-spray gun and a spray pattern forming apparatus having the same, FIG. 2C is a cross- And is a photograph of actual ink application state obtained by jetting ink using a pattern forming apparatus.

2A-2C, prior art multi-head 216 includes a lower housing 204; A plurality of holder receiving portions 219b provided in the lower housing 204; A nozzle 217 mounted in the plurality of holder accommodating portions 219b and each having an inlet 212 into which the ink flows, a discharge port 218 through which the ink is discharged, and a nozzle 217 in which the nozzle 217 is mounted A plurality of discharge members 216a constituted by a holder portion 219a; And a nozzle guide housing 204a for guiding the nozzle 217 to be oriented in the vertical direction.

Further, the conventional apparatus for pattern-forming a spray pattern 200 includes a port 212a through which ink flows; An upper housing 202 provided with an ink passage 212b connected to the port 212b; A multi-head 216 connected to the ink passage 212b; And a power supply (V) connected to the multi-head (216) for charging the ink, the multi-head (216) comprising: a lower housing (204) coupled with the upper housing (202); A nozzle 217 mounted in a plurality of holder accommodating portions 219b provided in the lower housing 204 and each having an inlet 212 into which the ink flows and a discharge port 218 through which the ink is discharged, And a holder part (219a) on which the nozzle (217) is mounted; And a nozzle guide housing 204a for guiding the nozzle 217 to be oriented in the vertical direction.

The multiple heads 216 and the spray type pattern forming apparatus 200 of the above-described prior art are provided with a plurality of nozzles (not shown) connected to the ink flow path 212b in which the ink is provided in the port 212a and the upper housing 202 217 into the inlet 212 thereof. At this time, the ink is positively charged by the power supply unit V connected to the multi- The charged ink particles are ejected through the plurality of ejection members 216a (specifically, through the ejection openings 218 of the plurality of nozzles 217) by a repulsive force.

In the conventional multi-head 216 and spray type pattern forming apparatus 200 as described above, a plurality of discharge members 216a mounted in the plurality of holder accommodating portions 219b are arranged in a manner as shown in FIG. 2B And is manufactured as an off-the-shelf product having a holder portion 219a. A plurality of discharge members 216a embodied as these ready-made products are mounted in a plurality of holder accommodating portions 219b formed in the lower housing 204 in advance. The minimum value of the pitch (PC) between the plurality of nozzles 217 that can be realized up to now is approximately 7.4 mm due to the presence of the holder 219a on which the nozzles 217 are mounted. That is, in the prior art, the minimum width of the ink that can be jetted can not be realized to be 7.4 mm or less, and it is impossible to apply the ink of the fine line width.

As described above, since the plurality of discharge members 216a, which are implemented as a ready-made product, are mounted in the plurality of holder accommodating portions 219b previously formed in the lower housing 204, the plurality of discharge ports 218 are aligned It is difficult to maintain the state, and a height deviation of the plurality of discharge ports 218 occurs. As a result, the ejection height of the ink is different and the ejection amount of the ink ejected onto the substrate S is not constant, and the ejection area is not constant, so that it is difficult to form a constant ink pattern P Reference).

In order to uniformly orient all of the plurality of nozzles 217 mounted in the plurality of holder accommodating portions 219b in the vertical direction, it is necessary to use the nozzle guide housing 204a, The total number of components of the pattern forming apparatus 200 and the spray pattern forming apparatus 200 and the manufacturing process time are increased.

Therefore, there is a need for a new method for solving the problems of the above-described conventional techniques.

Korean Patent Publication No. 10-2007-0093101

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems of the conventional art, and it is an object of the present invention to provide a nozzle plate, in which a plurality of nozzles are inserted in a state in which a discharge port is aligned using a jig plate, The uniformity of the discharge position and the discharge cross-sectional area of the discharge port is ensured, the pitch between the plurality of nozzles is remarkably reduced to enable formation of a fine pattern, and a plurality of nozzles are aligned in the vertical direction And a method of manufacturing the same, a spray pattern forming apparatus and a method of manufacturing the same, which do not require the use of a nozzle guide housing for the nozzle guide housing, .

A multi-head according to a first aspect of the present invention includes: a nozzle plate having a plurality of nozzle receiving holes; A plurality of inlets provided in the nozzle plate and connected to the plurality of nozzle receiving holes to introduce ink; And a plurality of nozzles mounted on the plurality of nozzle receiving holes and connected to the plurality of inlet ports and having a discharge port through which the ink is discharged, wherein the plurality of nozzles are aligned in the plurality of nozzle receiving holes As shown in Fig.

According to a second aspect of the present invention, there is provided a spray pattern forming apparatus comprising: a port through which ink is introduced; An upper housing provided with an ink channel connected to the port; A multi-head connected to the ink channel; And a power supply connected to the multi-head, the multi-head including a nozzle plate coupled to the upper housing and having a plurality of nozzle receiving holes; A plurality of inlets in the nozzle plate, the inlets being connected to the plurality of nozzle receiving holes to introduce the ink; And a plurality of nozzles mounted on the plurality of nozzle accommodating holes and connected to the plurality of nozzles and having a discharge port through which the ink is discharged, wherein the plurality of nozzles are aligned in the plurality of nozzle accommodating holes As shown in Fig.

According to a third aspect of the present invention, there is provided a method of manufacturing a multi-head, comprising the steps of: a) positioning a nozzle plate having a plurality of nozzle housing holes at a lower portion thereof, Placing a jig plate on top; b) combining the nozzle plate and the jig plate; c) inserting a plurality of nozzles through the plurality of guide holes into the plurality of nozzle receiving holes; And d) separating the jig plate from the nozzle plate.

According to a fourth aspect of the present invention, there is provided a method of manufacturing a spray pattern forming apparatus, comprising the steps of: a) positioning a nozzle plate having a plurality of nozzle receiving holes at a lower position, Placing a jig plate with holes thereon; b) combining the nozzle plate and the jig plate; c) inserting a plurality of nozzles through the plurality of guide holes into the plurality of nozzle receiving holes; d) separating the jig plate from the nozzle plate; And e) fastening the nozzle plate on which the plurality of nozzles are mounted to a previously prepared upper housing provided with a port through which ink flows and an ink channel connected with the port.

INDUSTRIAL APPLICABILITY The improved multi-head according to the present invention and its manufacturing method, and a spray pattern forming apparatus and a manufacturing method thereof having the same provide the following advantages.

1. Since the plurality of nozzles are formed by being directly inserted on the nozzle plate in a state where the discharge ports are aligned using the jig plate, the deviation in the length of the discharge port of the plurality of nozzles is minimized.

2. Since the discharge ports of the plurality of nozzles are kept aligned by the jig plate, it is easy to ensure the uniformity of the discharge position and the discharge cross-sectional area of the discharge port.

3. The distance between the plurality of nozzles is remarkably reduced, and fine pattern formation is possible.

4. The use of a nozzle guide housing for orienting a plurality of nozzles in a vertical direction is unnecessary.

5. The number of all the components of the multi-head and spray-type pattern forming apparatus having the same and the manufacturing process time are reduced.

Further advantages of the present invention can be clearly understood from the following description with reference to the accompanying drawings, in which like or similar reference numerals denote like elements.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view showing a conventional multi-head using a plurality of nozzles and a spray-type pattern forming apparatus having the same.
FIGS. 2A and 2B are views showing a prior art multi-head using electro-spraying apparatus and a spray pattern forming apparatus having the same.
2C is a photograph of actual ink application state obtained by jetting ink using the apparatus of the prior art spray type pattern forming apparatus shown in FIG. 2A.
FIG. 3A is a view showing an apparatus for spraying electrophoresis multi-head and a spray pattern according to an embodiment of the present invention.
3B is a view showing a jig plate used for manufacturing a multi-head according to an embodiment of the present invention.
3C is a view showing a nozzle plate used for manufacturing a multi-head according to an embodiment of the present invention.
FIG. 3D is a view showing a state where a jig plate and a nozzle plate are combined to manufacture a multi-head according to an embodiment of the present invention.
3E and 3F are views showing the operation of inserting a nozzle on a jig plate to manufacture a multi-head according to an embodiment of the present invention, respectively.
3G is a view showing a state in which a plurality of nozzles are inserted on a nozzle plate using a jig plate to manufacture a multi-head according to an embodiment of the present invention.
FIG. 3H is an enlarged view of a state in which a plurality of nozzles shown in FIG. 3G are inserted on the nozzle plate. FIG.
FIG. 3I is a photograph of actual ink application state obtained by spraying ink using a spray patterning apparatus according to an embodiment of the present invention shown in FIG. 3A.
4A is a flowchart showing a method of manufacturing a multi-head according to an embodiment of the present invention.
FIG. 4B is a flowchart showing a manufacturing method of a spray pattern forming apparatus according to an embodiment of the present invention.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, the present invention will be described with reference to embodiments and drawings of the present invention.

FIG. 3A is a view showing an apparatus for spraying multi-head using electro-jet spray according to an embodiment of the present invention, FIG. 3B is a cross- FIG. 3C is a view showing a nozzle plate used for manufacturing a multi-head according to an embodiment of the present invention. FIG.

Referring to FIGS. 3A to 3C, a multi-head 316 according to an embodiment of the present invention includes a nozzle plate 304 having a plurality of nozzle receiving holes 306; A plurality of inlets (312) provided in the nozzle plate (304) and connected to the plurality of nozzle receiving holes (306) to introduce ink; And a plurality of nozzles (317) mounted on the plurality of nozzle receiving holes (306) and connected to the plurality of inlets (312) and having a discharge port (318) through which the ink is discharged, wherein the plurality of nozzles (317) are mounted in an aligned state in the plurality of nozzle receiving holes (306).

In addition, the spray pattern forming apparatus 300 according to an embodiment of the present invention includes a port 312a through which ink flows; An upper housing 302 provided with an ink passage 312b connected to the port 312a; A multi-head 316 connected to the ink channel 312b; And a power supply (V) connected to the multi-head (316) for charging the ink, wherein the multi-head (316) is coupled to the upper housing (302) A nozzle plate (304) having a nozzle (304); A plurality of inlets (312) provided in the nozzle plate (304) and connected to the plurality of nozzle receiving holes (306) to introduce the ink; And a plurality of nozzles (317) mounted to the plurality of nozzle accommodating holes (306) and connected to the plurality of inlets (312) and having ejection openings (318) through which the inks are ejected, wherein the plurality of nozzles (317) are mounted in an aligned state in the plurality of nozzle receiving holes (306).

In the multi-head 316 according to the embodiment of the present invention described above and the apparatus 300 for pattern-forming a spray pattern having the same, the term "aligned" means that a plurality of nozzles 317 are arranged on the nozzle plate 304 are provided along the vertical direction with respect to the nozzle plate 304 without a height deviation in a substantially vertical direction.

The plurality of nozzles 317 are aligned using a jig plate 320 having a plurality of guide holes 322 provided at positions corresponding to the plurality of nozzle receiving holes 306.

Hereinafter, a method for manufacturing the multi-head 316 used in the spray pattern forming apparatus 300 according to an embodiment of the present invention will be described in detail.

FIG. 3D is a view illustrating a state in which a jig plate and a nozzle plate are combined to produce a multi-head according to an embodiment of the present invention. FIGS. 3E and 3F are views showing a multi- FIG. 3G is a view showing the operation of inserting a nozzle onto a jig plate for manufacturing, and FIG. 3G is a view showing a state in which a plurality of nozzles are inserted on a nozzle plate using a jig plate to manufacture a multi- And FIG. 3H is an enlarged view of a state in which a plurality of nozzles shown in FIG. 3G are inserted on the nozzle plate.

Referring to FIGS. 3D to 3H, with reference to FIGS. 3B and 3C, in order to manufacture the multi-head 316 according to the embodiment of the present invention, a nozzle plate (not shown) having a plurality of first fastening grooves 308 304 are positioned on the lower side and a jig plate 320 having a plurality of second fastening grooves 324 at positions corresponding to the plurality of first fastening grooves 308 is positioned on the upper side. Thereafter, a plurality of second fastening grooves 324 are aligned on the plurality of first fastening grooves 308, and then a plurality of fastening members 326, for example, screws are fastened to the plurality of first fastening grooves 326 308 and a plurality of second fastening grooves 324 to fasten the jig plate 320 to the top of the nozzle plate 304 (see FIG. 3D).

The nozzle plate 304 has a plurality of nozzle receiving holes 306 formed along the longitudinal direction at the center thereof (see FIG. 3C), and the jig plate 320 is disposed at a position corresponding to the plurality of nozzle receiving holes 306 A plurality of guide holes 322 are provided (see Fig. 3B). When the jig plate 320 is coupled to the upper portion of the nozzle plate 304, the nozzle receiving hole 306 on the nozzle plate 304 and the plurality of guide holes 322 on the jig plate 320 are also aligned .

Thereafter, a plurality of nozzles 317 are inserted into the plurality of nozzle receiving holes 306 through the plurality of guide holes 322. In this case, the insertion of the nozzle 317 is performed by using a resilient tool such as a rubber hammer or the like. This is to prevent the discharge port 318 of the nozzle 317 from being damaged by the insertion operation. It should be noted that Figs. 3E and 3F illustratively illustrate that one nozzle 317 is inserted into one guide hole 322. Fig.

In one embodiment of the present invention, each of the plurality of nozzles 317 is formed to have an outer diameter of 320 mu m and an inner diameter of 160 mu m, for example. The plurality of nozzle receiving holes 306 each have a diameter of, for example, 310 mu m, and the plurality of guide holes 322 are each formed to have a diameter of, for example, 330 to 340 mu m. That is, the outer diameters of the plurality of nozzles 317 are preferably slightly larger than the diameters of the plurality of nozzle receiving holes 306 and slightly smaller than the diameters of the plurality of guide holes 322. In addition, it is preferable that the entrance portion of the plurality of nozzle receiving holes 306 has a guide inclined surface 305a for facilitating the insertion of the plurality of nozzles 317 (see FIG. 3H). The plurality of nozzles 317 are easily inserted through the plurality of guide holes 322 and inserted in the plurality of nozzle receiving holes 306 in an interference fit manner. At this time, the plurality of nozzles 317 are inserted until the discharge port 318 coincides with the surface of the jig plate 320.

When the jig plate 320 is separated from the nozzle plate 304 by releasing the plurality of fastening members 326, the height H of the ejection openings 318 of the plurality of nozzles 317 and the height H of the plurality of nozzles 317 317 are mounted in a plurality of nozzle receiving holes 306 of the nozzle plate 304 in an aligned state (see Figs. 3G and 3H).

Thereafter, the nozzle plate 304 on which the plurality of nozzles 317 are mounted is fastened to the upper housing 302 prepared in advance by using a plurality of second fastening members 328 (see Fig. 3A). At this time, the upper housing 302 is provided with a port 312a through which ink flows and an ink channel 312b connected with the port 312a.

As described above, the plurality of nozzles 317 are inserted in the plurality of nozzle receiving holes 306 in an interference fit manner by using the jig plate 320 having the plurality of guide holes 322, The height deviation of the discharge port 318 of the discharge port 317 can be minimized to 10 mu m or less.

Unlike the prior art in which a plurality of discharge members 216a having a holder portion 219a to which a nozzle 217 is mounted are mounted in a plurality of holder accommodating portions 219b, a plurality of nozzles 317 Is directly mounted on the plurality of nozzle receiving holes 306 of the nozzle plate 304 so that the minimum width of the pitch PC between the plurality of nozzles 317 can be reduced to 2.0 mm or less, preferably 0.5 mm . Therefore, in the present invention, the minimum width of the ink that can be sprayed can be realized up to 0.5 mm, so that ink application of a fine line width is possible.

Since the plurality of nozzles 317 are vertically aligned by the plurality of guide holes 322 of the jig plate 320, there is no need to use the nozzle guide housing 204a of the prior art, Accordingly, the number of the entire components of the multi-head 316 and the spray pattern forming apparatus 300 and the manufacturing process time are reduced.

FIG. 3I is a photograph of actual ink application state obtained by spraying ink using a spray patterning apparatus according to an embodiment of the present invention shown in FIG. 3A.

3A to 3H, in the present invention, the discharge ports 318 of the plurality of nozzles 317 are maintained at a predetermined height H and vertical alignment, so that a plurality of discharge ports 318 are formed, The ejection amount of the ink ejected onto the substrate S is not only constant but also the ejection area is constant and the constant ink pattern P can be formed.

4A is a flowchart showing a method of manufacturing a multi-head according to an embodiment of the present invention.

Referring to FIG. 4A, a method 400 of manufacturing a multi-head according to an embodiment of the present invention includes the steps of: a) forming a nozzle plate 304 having a plurality of nozzle receiving holes 306, (410) a jig plate (320) having a plurality of guide holes (322) at positions corresponding to the plurality of nozzle receiving holes (306); b) coupling (420) the nozzle plate (304) and the jig plate (320); c) inserting (430) a plurality of nozzles (317) through the plurality of guide holes (322) into the plurality of nozzle receiving holes (306); And d) separating the jig plate 320 from the nozzle plate 304 (step 440).

In the method 400 for manufacturing a multi-head according to an embodiment of the present invention, the step b) includes: b1) a plurality of first fastening grooves 308 formed on the nozzle plate 304, Aligning a plurality of second fastening recesses (324) formed on the first and second fastening recesses (320); And b2) fastening the plurality of first fastening grooves 308 and the plurality of second fastening grooves 324 using a plurality of fastening members 326. [

The plurality of nozzles 317 may be formed in the plurality of nozzle receiving holes 306 in an interference fit (not shown) in the step c) of the method 400 of manufacturing a multi-head according to an embodiment of the present invention. The discharge ports 318 of the plurality of nozzles 317 coincide with the surface of the jig plate 320.

FIG. 4B is a flowchart showing a manufacturing method of a spray pattern forming apparatus according to an embodiment of the present invention.

3A through 3I, a method 401 of manufacturing a spray pattern forming apparatus according to an embodiment of the present invention includes the steps of: a) forming a nozzle plate (not shown) having a plurality of nozzle receiving holes 306 (410) a jig plate (320) having a plurality of guide holes (322) at positions corresponding to the plurality of nozzle receiving holes (306); b) coupling (420) the nozzle plate (304) and the jig plate (320); c) inserting (430) a plurality of nozzles (317) through the plurality of guide holes (322) into the plurality of nozzle receiving holes (306); d) separating (440) the jig plate (320) from the nozzle plate (304); And e) a nozzle plate 304 on which the plurality of nozzles 317 are mounted is provided with a port 312a through which ink is introduced and a prepared upper housing 302 provided with an ink channel 312b connected to the port 312a (Step 450).

In the manufacturing method (401) of an apparatus for pattern-forming a spray pattern according to an embodiment of the present invention, the step b) includes: b1) a plurality of first fastening grooves 308 formed on the nozzle plate 304 Aligning a plurality of second fastening recesses (324) formed on the jig plate (320); And b2) fastening the plurality of first fastening grooves 308 and the plurality of second fastening grooves 324 using a plurality of fastening members 326. [

In the step c) of the manufacturing method 401 of the apparatus for pattern-forming a spray pattern according to the embodiment of the present invention, the plurality of nozzles 317 are forced into the plurality of nozzle receiving holes 306 The ejection ports 318 of the plurality of nozzles 317 are inserted into the jig plate 320 in an interference fit manner until they coincide with the surface of the jig plate 320.

Various modifications may be made by those skilled in the art without departing from the spirit and scope of the invention as defined by the following claims. It is not. Accordingly, the scope of the present invention should not be limited by the above-described exemplary embodiments, but should be determined only in accordance with the following claims and their equivalents.

100, 200, 300: Spray pattern forming device 116, 216, 316:
112a, 114a, 212a, 312a: port 112b, 114b: chamber 112: carrier gas nozzle
115: coupling chamber 117, 217, 317: nozzle 118, 218, 318:
202, 302: upper housing 204: lower housing 204a: nozzle guide housing
212, 312: inlet port 212b, 312b: ink flow path 216a; The discharge member
219a: holder portion 219b: holder receiving portion 304: nozzle plate
305a: guide inclined surface 306: nozzle receiving hole 308,324: fastening groove
320: jig plate 322: guide hole 326, 328: fastening member

Claims (16)

In the multi-head,
A nozzle plate having a plurality of nozzle receiving holes;
A plurality of inlets provided in the nozzle plate and connected to the plurality of nozzle receiving holes to introduce ink; And
A plurality of nozzles mounted on the plurality of nozzle receiving holes and connected to the plurality of inlets, and having a discharge port through which the ink is discharged,
≪ / RTI >
Wherein the plurality of nozzles are mounted in an aligned state in the plurality of nozzle receiving holes,
Wherein the inlet portion of the plurality of nozzle receiving holes has a guide inclined surface for facilitating insertion of the plurality of nozzles
Multihead. delete The method according to claim 1,
Wherein the aligned state is provided by a jig plate having a plurality of guide holes provided at positions corresponding to the plurality of nozzle receiving holes. The method of claim 3,
Wherein an outer diameter of the plurality of nozzles is larger than a diameter of the plurality of nozzle receiving holes and smaller than a diameter of the plurality of guide holes. 5. The method of claim 4,
Wherein the plurality of nozzles are inserted into the plurality of nozzle receiving holes in an interference fit manner until the ejection orifices of the plurality of nozzles coincide with the surface of the jig plate. In a spray pattern forming apparatus,
A port through which ink is introduced;
An upper housing provided with an ink channel connected to the port;
A multi-head connected to the ink channel; And
And a power supply unit connected to the multi-head for charging the ink,
, ≪ / RTI &
The multi-
A nozzle plate coupled to the upper housing and having a plurality of nozzle receiving holes;
A plurality of inlets in the nozzle plate, the inlets being connected to the plurality of nozzle receiving holes to introduce the ink; And
A plurality of nozzles mounted on the plurality of nozzle receiving holes and connected to the plurality of inlets, and having a discharge port through which the ink is discharged,
/ RTI >
Wherein the plurality of nozzles are mounted in an aligned state in the plurality of nozzle receiving holes,
Wherein the inlet portion of the plurality of nozzle receiving holes has a guide inclined surface for facilitating insertion of the plurality of nozzles
Spray pattern forming apparatus. delete The method according to claim 6,
Wherein the aligned state is provided by a jig plate having a plurality of guide holes provided at positions corresponding to the plurality of nozzle receiving holes. 9. The method of claim 8,
Wherein an outer diameter of the plurality of nozzles is larger than a diameter of the plurality of nozzle receiving holes and smaller than a diameter of the plurality of guide holes. 10. The method of claim 9,
Wherein the plurality of nozzles are inserted into the plurality of nozzle receiving holes in an interference fit manner until the discharge ports of the plurality of nozzles coincide with the surface of the jig plate. In a method of manufacturing a multi-head,
a) positioning a nozzle plate having a plurality of nozzle receiving holes at a lower portion thereof and a jig plate having a plurality of guide holes at positions corresponding to the plurality of nozzle receiving holes;
b) combining the nozzle plate and the jig plate;
c) inserting a plurality of nozzles through the plurality of guide holes into the plurality of nozzle receiving holes; And
d) separating the jig plate from the nozzle plate
, ≪ / RTI &
B) b1) aligning a plurality of first fastening grooves formed on the nozzle plate and a plurality of second fastening grooves formed on the jig plate; And b2) fastening the plurality of first fastening grooves and the plurality of second fastening grooves using a plurality of fastening members
A method of manufacturing a multihead. delete 12. The method of claim 11,
In the step c), the plurality of nozzles are inserted into the plurality of nozzle receiving holes in an interference fit manner until the ejection orifices of the plurality of nozzles coincide with the surface of the jig plate. Way. In a method of manufacturing a spray pattern type forming apparatus,
a) positioning a nozzle plate having a plurality of nozzle receiving holes at a lower portion thereof and a jig plate having a plurality of guide holes at positions corresponding to the plurality of nozzle receiving holes;
b) combining the nozzle plate and the jig plate;
c) inserting a plurality of nozzles through the plurality of guide holes into the plurality of nozzle receiving holes;
d) separating the jig plate from the nozzle plate; And
and e) fastening the nozzle plate on which the plurality of nozzles are mounted to a previously prepared upper housing provided with a port through which ink flows and an ink channel connected with the port,
, ≪ / RTI &
B) b1) aligning a plurality of first fastening grooves formed on the nozzle plate and a plurality of second fastening grooves formed on the jig plate; And b2) fastening the plurality of first fastening grooves and the plurality of second fastening grooves using a plurality of fastening members
A method of manufacturing a pattern forming apparatus of a spray type. delete 15. The method of claim 14,
In the step c), the plurality of nozzles are inserted into the plurality of nozzle-accommodating holes in an interference fit manner until a discharge port of the plurality of nozzles coincides with a surface of the jig plate. / RTI >

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