KR101672784B1 - Nozzle unit and coating apparatus using thereof - Google Patents

Abstract

The present invention relates to a nozzle unit comprising: a nozzle body; and a nozzle cover. The nozzle body includes a predetermined inverted space unit in which one side is opened; and a coating solution discharging unit which is positioned on a bottom of the space unit. The nozzle cover seals the space unit by covering one opened side of the nozzle body. The space unit of the nozzle body is filled by air received from the outside. The coating solution discharging unit comprises: a discharging space unit which is opened toward the space unit of the nozzle body and includes a predetermined inverted space; and a filling member which fills the discharging space unit. The discharging space unit includes: a coating solution staying unit which temporarily stays a coating solution injected to the bottom; and discharging units which are separated from both sides based on the coating solution staying unit at equal intervals, and discharge the air and the coating solution. A guide groove unit moving the coating solution is formed between the coating solution staying unit and the discharging units on the both sides. A coating solution injecting pipe, which injects the coating solution, is penetrated and inserted into the filling member at a point corresponding to the coating solution staying unit of the discharging space unit. An air injecting hole is formed at a point corresponding to the discharging units of the discharging space unit.

Description

[0001] The present invention relates to a nozzle unit and a coating liquid application apparatus using the nozzle unit,

The present invention relates to a nozzle unit capable of realizing an excellent coating solution jetting performance with a simple structure and an inexpensive production cost, and a coating liquid applying apparatus using the nozzle unit.

[0002] Generally, a pneumatic coating liquid spray nozzle has a structure in which air and a coating liquid are sprayed together at a high pressure by a strong air pressure, and includes a body having a passage for passage of high-pressure air, And a coating liquid spraying pipe connected to the coating liquid spraying pipe and protruding from the coating liquid spraying pipe. The high-pressure air and the coating liquid are injected together as the coating liquid of the coating liquid spraying tube is sucked up by the vacuum generated by the high- Loses.

However, the conventional coating liquid spray nozzle is only a cylindrical body in which the coating liquid spraying tube for spraying the coating liquid is protruded to one side of the body in which the passage through which high-pressure air passes is long. Basically, The coating liquid sprayed from the coating liquid spraying tube is instantaneously sprayed in a large quantity to cause a large amount of coating liquid loss. Further, since the coating liquid is sprayed in a loose state, even if the coating liquid is discharged by high- So that it is difficult to spray the coating liquid in the form of a fine droplet. As a result, there is a problem that the coating liquid easily flows down on the wall surface when spraying the coating liquid.

In addition, at the entrance of the coating liquid spray tube, a strong vortex is generated due to the high-pressure air. As a result, the spray liquid sprayed is disturbed by the straightness, which makes it difficult to precisely coat the coating liquid. So that a coarse coating liquid droplet is formed and it is also difficult to spray a fine coating liquid.

Particularly, when the surface of the coated object is planar, it is important to uniformly coat the entire surface. In this case, it is conventionally necessary to arrange a plurality of the above- Respectively. However, such a method has the difficulty and troublesomeness to uniformly set each nozzle, resulting in a problem that precision and efficiency of the work are deteriorated. Further, when a plurality of nozzles are arranged on the same line at equal intervals as described above, since each of the nozzles must be provided with an air tank and a coating liquid tank separately, there arises a problem that the size of the equipment becomes too large .

SUMMARY OF THE INVENTION It is an object of the present invention to provide a nozzle unit capable of minimizing loss of a coating liquid and uniformly spraying a coating liquid in a fine droplet shape.

In addition, the present invention can increase the straightness of spraying the coating liquid, uniformly apply the entire coating even when used in a planar decorated body, and easily change the size of the nozzle in a customized manner according to the size required by the user And a nozzle unit provided with the nozzle unit.

One aspect of the present invention, which has been developed to solve the above-described problems, relates to a nozzle unit, more specifically, a predetermined space portion with one side opened is formed in a depression, and a coating solution discharging portion is formed on the bottom surface of the space portion A nozzle body; And a nozzle cover covering the one open side of the nozzle body to seal the space portion, wherein the space portion of the nozzle body is filled with air to be injected from the outside, A discharge space portion opened to the space portion of the main body and formed with a predetermined space being recessed, and a filler member filling the discharge space portion, wherein the discharge space portion includes a coating liquid retaining portion for temporarily retaining the coating liquid injected into the bottom surface, And a discharge port formed on both sides of the coating liquid retaining portion at equal intervals to allow both air and the coating liquid to be ejected together. A guide for allowing the coating liquid to flow is provided between the coating liquid retaining portion and both ejection openings And the filling member is provided with a recessed portion corresponding to the coating liquid retaining portion of the discharge space portion A coating liquid injection tube for injecting a coating liquid is inserted into the discharge space and an air injection hole is formed at a position corresponding to the discharge port of the discharge space part.

Another aspect of the present invention relates to a nozzle unit, more specifically, a nozzle body in which a predetermined space portion with one side opened is formed in a recessed state and a coating liquid discharge portion is formed on the other side; And a nozzle cover covering the one open side of the nozzle body to seal the space portion, wherein the space portion of the nozzle body is filled with air to be injected from the outside, A discharge space portion opened to the outside of the main body and formed with a predetermined space being recessed, and a filler member filling the discharge space portion, wherein the filler member has a coating liquid retaining portion for temporarily retaining the coating liquid injected into the inner surface thereof, Wherein a coating liquid is formed on both sides of the coating liquid retaining portion so as to be spaced apart from each other at equal intervals so that air and a coating liquid are discharged together, and between the coating liquid retaining portion and both of the discharge ports, Wherein a portion of the discharge space portion, which abuts the inner surface of the filling member, A coating liquid injection tube for injecting a coating liquid is inserted and inserted between a point corresponding to the coating liquid retaining portion of the filling member and a bottom surface of the space portion and is inserted between a point corresponding to a discharge port of the filling member and a bottom surface of the space portion And an air injection hole is formed through the through hole.

The nozzle unit of the present invention is configured such that the coating liquid staying in the coating liquid retaining portion is supplied to the ejection opening through the guide groove portion in small amounts and mixed with the air for a short time immediately before ejection through the ejection opening and discharged to the outside, It is possible to minimize the amount of loss of the droplets and to uniformly spray the coating liquid in the form of fine droplets.

Further, unlike the conventional nozzle, the nozzle unit of the present invention minimizes the vortex flow of the air stream structurally at the point where the groove groove portion and the ejection outlet meet, thereby enhancing the straightness of spraying the coating liquid.

Further, the nozzle unit of the present invention can be easily standardized to a specific standard, and even when used in a plane-shaped decorated body, a uniform line can be applied when a plurality of nozzle units of the same size are connected in a multi- , The entire size of the nozzle can be easily changed according to the size of the nozzles, and unlike the conventional nozzle technology for multi-connection for changing the size of the nozzles, it is unnecessary to control the individual settings of the respective nozzle units. Unlike the conventional nozzle technology, there is no need to provide an air tank or a coating liquid tank for each nozzle individually, which is advantageous in that the size of the equipment can be remarkably reduced.

Further, the nozzle unit according to the present invention has an advantage that the nozzle unit having the above-described effects can be realized with a simple structure and a low production cost.

1 is a perspective view of an example of a nozzle unit according to the present invention.
2 is an exploded perspective view of an example of a nozzle unit according to the present invention.
FIG. 3 is a plan view of an embodiment of the nozzle body according to the present invention, and shows a state before covering the filling member.
4 is a side sectional view for explaining a structure of an example of a nozzle unit according to the present invention.
5 shows a structure of an example of a covering member of a nozzle unit according to the present invention.
6 is a sectional side view for explaining a structure of another example of the nozzle unit according to the present invention.
7 shows an example of a multi-connection structure of the nozzle unit according to the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The present invention is capable of various modifications and various embodiments, and specific embodiments are illustrated in the drawings and will be described in detail in the detailed description. It is to be understood, however, that the invention is not to be limited to the specific embodiments, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

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

The terms first, second, etc. may be used to describe various components, but the components should not be limited by the terms. The terms are used only for the purpose of distinguishing one component from another.

One aspect of the present invention relates to a nozzle unit, more specifically, a nozzle body in which a predetermined space portion with one side opened is formed and a coating solution discharging portion is formed on a bottom surface of the space portion; And a nozzle cover covering the one open side of the nozzle body to seal the space portion, wherein the space portion of the nozzle body is filled with air to be injected from the outside, A discharge space portion opened to the space portion of the main body and formed with a predetermined space being recessed, and a filler member filling the discharge space portion, wherein the discharge space portion includes a coating liquid retaining portion for temporarily retaining the coating liquid injected into the bottom surface, And a discharge port formed on both sides of the coating liquid retaining portion at equal intervals to allow both air and the coating liquid to be ejected together. A guide for allowing the coating liquid to flow is provided between the coating liquid retaining portion and both ejection openings And the filling member is provided with a recessed portion corresponding to the coating liquid retaining portion of the discharge space portion A coating liquid injection tube for injecting a coating liquid is inserted into the discharge space and an air injection hole is formed at a position corresponding to the discharge port of the discharge space part.

The nozzle unit according to the present invention is mounted on a device for precisely and uniformly spraying a coating liquid on a specific part of a product in the form of a fine droplet. The nozzle unit of the present invention is particularly limited to a coating device But any apparatus can be applied as long as it is an apparatus for spraying a coating liquid and applying it to a product. For example, the nozzle unit of the present invention can be applied to a coating apparatus used for evenly spraying a coating solution such as a primer solution onto a garment before transferring a pattern to clothing.

According to an aspect of the present invention, the nozzle body is formed with a predetermined space portion with one side opened, and a coating liquid discharging portion is formed on the bottom surface of the recessed space portion. The shape of the nozzle body is particularly limited But it can be various shapes such as a bar-shaped rectangular parallelepiped shape and a cylindrical shape.

In one embodiment of the present invention, the coating liquid discharging portion formed on the bottom surface of the space portion of the nozzle body has a structure in which the coating liquid and air are discharged after being mixed with the coating liquid and air, The number of the coating liquid discharging portions formed in the space portion of the nozzle body is not particularly limited, and it is possible to form various numbers of the coating liquid discharging portions as necessary.

The structure of the coating liquid discharging portion in one embodiment of the present invention will be described in more detail as follows.

In an embodiment of the present invention, the coating liquid discharging portion includes a discharging space portion which is open toward the space portion of the nozzle body and in which a predetermined space is recessed, and a filling member which fills the discharging space portion.

In one embodiment of the present invention, the discharge space portion of the structure constituting the coating liquid discharge portion is formed with a coating liquid retaining portion in which the coating liquid injected on the bottom surface temporarily retreats, and is spaced apart from the coating liquid retaining portion And a guide groove for allowing the coating liquid to flow is formed between the coating liquid retaining part and the discharge ports on both sides.

In one embodiment of the present invention, the coating liquid retaining portion can adopt any structure or form as long as the injected coating liquid can stay for a short time, and for example, it can be recessed by a predetermined depth like a groove have.

According to an embodiment of the present invention, the discharge port is formed on the bottom surface of the discharge space portion, and the discharge path is provided through the nozzle body to discharge the injected air and the coating liquid to the outside. In the present invention, it is preferable that the discharge ports are formed at equal intervals and spaced apart from each other around the coating liquid retaining portion formed on the bottom surface of the discharge space portion. This is because it is possible to pull out the coating liquid in the holding portion of the coating liquid by the same amount at each of the discharge ports, and this is important for uniformly spraying the coating liquid in a plurality of discharge ports formed in the nozzle unit .

In addition, the guide groove portion connects the coating liquid retaining portion and the discharge ports on both sides to allow the coating liquid to flow. In order to minimize the amount of coating liquid loss due to an excessive amount of coating liquid flowing, It is preferable that the width of the guide groove portion is smaller than the diameter of the discharge port and that the depth is shallower than the depth of the coating liquid retaining portion.

In one aspect of the present invention, it is preferable that the filling member constituting the coating liquid discharging portion fills a space excluding the space occupied by the guide groove portion of the space of the discharging space portion. Further, in the filling member, And an air injection hole is formed at a position corresponding to the discharge port of the discharge space portion. Wherein the coating liquid injection tube is connectable to a coating liquid supply pipe connected to a coating liquid tank outside the nozzle unit so that the coating liquid supplied from the coating liquid supply pipe is discharged to the outside through the coating liquid injection tube formed in the filling member And is supplied to the coating liquid retaining portion.

In one aspect of the present invention, the space portion of the nozzle body is filled with air injected from the outside, and the air filled in the space portion is injected into the coating liquid discharging portion through the air injection hole formed in the filling member of the coating liquid discharging portion. . It is preferable that a partition wall is formed in the space portion of the nozzle body in order to inject air injected from the outside into the plurality of air injection holes formed in the coating liquid discharge portion at a more uniform pressure. The structure and shape of the partition wall are not particularly limited and may be formed in a space other than the space in which the coating liquid discharging portion is formed in consideration of the number, position, shape, and the like of the coating liquid discharging portions formed in the space portion .

According to an aspect of the present invention, the nozzle cover covers an open side of the nozzle body to seal the space. The shape of the nozzle cover is not particularly limited, It may be preferable to have the same shape as the plane shape of the nozzle body. The nozzle cover may have an air inlet connection portion which is connected to an air supply pipe outside the nozzle unit to inject air into a space portion of the nozzle body in one region. In addition, a sealing member such as an O-ring is preferably provided between the nozzle cover and the nozzle body to improve the air-tightness of the space.

The nozzle unit according to an embodiment of the present invention is characterized in that the air having a specific pressure introduced into the space portion of the nozzle body is injected into the discharge space portion through the air injection hole formed in the filling member of the coating liquid discharge portion, And at the same time, the coating liquid which is formed in the filling member of the coating liquid discharging portion and injected into the coating liquid retaining portion of the discharging space portion through the coating liquid injecting tube is discharged from the discharging opening to the outside through the discharging port And the coating liquid supplied to the discharge ports formed on both sides is discharged to the outside together with the air to be sprayed.

Another aspect of the present invention relates to a nozzle unit, more specifically, a nozzle body in which a predetermined space portion with one side opened is formed in a recessed state and a coating liquid discharge portion is formed on the other side; And a nozzle cover covering the one open side of the nozzle body to seal the space portion, wherein the space portion of the nozzle body is filled with air to be injected from the outside, A discharge space portion opened to the outside of the main body and formed with a predetermined space being recessed, and a filler member filling the discharge space portion, wherein the filler member has a coating liquid retaining portion for temporarily retaining the coating liquid injected into the inner surface thereof, Wherein a coating liquid is formed on both sides of the coating liquid retaining portion so as to be spaced apart from each other at equal intervals so that air and a coating liquid are discharged together, and between the coating liquid retaining portion and both of the discharge ports, Wherein a portion of the discharge space portion, which abuts the inner surface of the filling member, A coating liquid injection tube for injecting a coating liquid is inserted and inserted between a point corresponding to the coating liquid retaining portion of the filling member and a bottom surface of the space portion and is inserted between a point corresponding to a discharge port of the filling member and a bottom surface of the space portion And an air injection hole is formed through the through hole.

In another aspect of the present invention, the nozzle body is formed with a predetermined space portion with one side opened, and a coating liquid discharging portion is formed on the other side of the nozzle body. The shape of the nozzle body is specifically limited It is possible to adopt various shapes such as a bar-shaped rectangular parallelepiped shape and a cylindrical shape.

In another aspect of the present invention, the coating liquid discharging portion formed on the other side of the nozzle body has a structure in which the coating liquid and air are discharged after being mixed with the coating liquid and air, The number of coating liquid discharging portions formed on the other side of the coating liquid discharging portion is not particularly limited and it is possible to form a variety of coating liquid discharging portions as required.

In another aspect of the present invention, the structure of the coating liquid discharging portion will be described in more detail as follows.

According to another aspect of the present invention, the coating liquid discharging portion includes a discharging space portion which is opened to the outside of the nozzle body and in which a predetermined space is recessed, and a filling member for filling the discharging space portion.

In another aspect of the present invention, the filling member constituting the coating liquid discharging portion fills the space of the discharging space portion, and the coating liquid retaining portion is formed on the inner side surface of the filling member for temporarily retaining the applied coating liquid. A plurality of guide grooves formed at both sides of the coating liquid retaining portion at equal intervals to allow air and a coating liquid to be ejected together are formed between the coating liquid retaining portion and both of the ejection openings, It is preferable that a portion is formed.

In another embodiment of the present invention, the coating liquid retaining portion can adopt any structure or form as long as the applied coating liquid can be retained for a short time. For example, it may be recessed by a predetermined depth have.

According to another aspect of the present invention, the discharge port is formed in the filling member, and the discharge port is provided through the filling member, so that the injected air and the coating liquid can be discharged to the outside. In the present invention, it is preferable that the discharge ports are formed at equal intervals on both sides of the coating liquid retaining portion formed in the filling member. This is because it is possible to pull out the coating liquid in the holding portion of the coating liquid by the same amount at each of the discharge ports, and this is important for uniformly spraying the coating liquid in a plurality of discharge ports formed in the nozzle unit .

The guide groove portion is formed on the inner surface of the filling member and connects the coating liquid retaining portion and the discharge ports on both sides to allow the coating liquid to flow. The guide groove portion is formed by coating It is preferable that the width of the guide groove is smaller than the diameter of the discharge port, and the depth of the guide groove is preferably smaller than the diameter of the discharge port, It is preferable to be shallower than the depth.

According to another aspect of the present invention, a coating solution injection tube for injecting a coating solution is formed on a surface of the discharge space portion, which is in contact with the inner surface of the filling member, at a position corresponding to the coating solution retaining portion of the filling member, And an air injection hole is formed at a position corresponding to the discharge port of the member. Wherein the coating liquid injection tube is connectable to a coating liquid supply pipe connected to the coating liquid tank outside the nozzle unit so that the coating liquid supplied from the coating liquid supply pipe is filled up through the coating liquid injection tube formed in the discharge space portion Is supplied to the coating liquid retaining portion of the member.

In another aspect of the present invention, the space portion of the nozzle body is filled with air injected from the outside, and the air filled in the space portion passes through the air discharged from the discharge space portion of the coating liquid discharging portion and the bottom surface of the space portion And is injected into the coating liquid discharging portion through the injection hole. Preferably, the space portion of the nozzle body is formed with a partition wall for injecting air injected from the outside at a more uniform pressure to a plurality of air injection holes formed in the bottom surface of the space portion. The structure and shape of the partition walls are not particularly limited and may be formed in a space other than the space in which the air injection holes are formed in consideration of the number, position, and shape of the air injection holes formed in the space portion.

According to another aspect of the present invention, the nozzle lid covers the open side of the nozzle body to seal the space. The shape of the nozzle lid is not particularly limited, It may be preferable to have the same shape as the plane shape of the nozzle body. The nozzle cover may have an air inlet connection portion which is connected to an air supply pipe outside the nozzle unit to inject air into a space portion of the nozzle body in one region. In addition, a sealing member such as an O-ring is preferably provided between the nozzle cover and the nozzle body to improve the air-tightness of the space.

The nozzle unit according to another aspect of the present invention is characterized in that the air having a specific pressure introduced into the space portion of the nozzle body is injected into the discharge space portion of the coating liquid discharge portion through the air injection hole formed in the bottom surface of the space portion, And at the same time, the coating liquid, which is formed in the discharging space portion of the coating liquid discharging portion and injected into the coating liquid retaining portion of the filling member through the coating liquid injecting tube, is discharged from the discharging port to the outside And the coating liquid supplied to the discharge ports formed on both sides is discharged to the outside together with the air to be sprayed.

In the nozzle unit of the present invention as described above, the coating liquid staying in the coating liquid retaining portion is supplied to the discharge port through the guide groove portion in small amounts, mixed with the air for a short time immediately before discharge through the discharge port, It is possible to minimize the amount of loss of the coating liquid and uniformly spray the coating liquid in the form of fine droplets.

Further, unlike the conventional nozzle, the nozzle unit of the present invention minimizes the vortex flow of the air flow structurally at the point where the groove groove portion and the ejection outlet meet, thereby improving the straightness of spraying the coating liquid.

Further, the nozzle unit of the present invention can be easily standardized to a specific standard, and even when used in a plane-shaped decorated body, a uniform line can be applied when a plurality of nozzle units of the same size are connected in a multi- , The entire size of the nozzle can be easily changed according to the size of the nozzles, and unlike the conventional nozzle technology for multi-connection for changing the size of the nozzles, it is unnecessary to control the individual settings of the respective nozzle units. Unlike the conventional nozzle technology, there is no need to provide an air tank or a coating liquid tank for each nozzle individually, which is advantageous in that the size of the equipment can be remarkably reduced.

In order to improve the dimensional accuracy, promptness, convenience, etc. of the multi-connection between a plurality of nozzle units as described above, the nozzle unit of the present invention has a female / male It is preferable that the fastening portion is formed. The structure and form of the female and male fastening portions are not particularly limited and various known fastening portions can be applied.

In order to ensure that the intervals between the adjacent discharge ports are the same in the multi-connection of the plurality of nozzle units according to the present invention, the interval between the discharge port closest to the end of the nozzle body and the end of the nozzle body, Or the interval between both the discharge ports formed in the filling member.

Another embodiment of the present invention relates to a coating liquid applying apparatus in which the nozzle unit according to the present invention described above is mounted, and the coating liquid is sprayed onto the donor body through the nozzle unit to be applied. The coating liquid application device may be any device as long as it is a device for spraying a coating liquid onto an object to be coated, and may be, for example, a primer liquid application device for spraying a primer solution onto the surface of a garment for application.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings. The following description of the drawings is merely illustrative of the present invention, and the scope of the present invention is not limited thereby.

FIG. 1 is a perspective view of an exemplary embodiment of a nozzle unit according to the present invention. FIG. 2 is an exploded perspective view of an exemplary embodiment of a nozzle unit according to the present invention. FIG. 4 is a cross-sectional side view for explaining a structure of an example of the nozzle unit according to the present invention, and FIG. 5 is a sectional view of the nozzle unit according to the present invention, 6 is a cross-sectional side view for explaining a structure of another example of the nozzle unit according to the present invention, and Fig. 7 is a cross-sectional view for explaining a structure of another example of the nozzle unit according to the present invention, Structure.

Referring to FIG. 1, an example of a nozzle unit according to the present invention is a nozzle body 200 having a nozzle cover 200 coupled to the nozzle body 100. In the nozzle cover 200, external air can be supplied into the nozzle unit An air inlet connection part 210 which can be connected to an external air supply pipe is formed to pass through the coating liquid injection pipe 323 and is exposed to the outside.

2 to 5, a nozzle body 100 according to an embodiment of the present invention has a bar-shaped rectangular parallelepiped shape, and an upper surface And three dispensing liquid dispensing portions 300 are formed on the bottom surface of the recessed space portion 110. The three dispensing liquid dispensing portions 300 are formed on the bottom surface of the recessed portion 110, A partition wall 111 for uniformly forming the pressure of the air in the space 110 is formed in the area.

The coating liquid discharging unit 300 is composed of a discharging space part 310 which is open toward the space part 110 and in which a predetermined space is recessed and a filling member 320 for filling the discharging space part, 310 has a coating liquid retaining portion 311 in which a coating liquid injected on the bottom surface temporarily retracts is recessed in a groove form and is formed at the same interval on both sides of the coating liquid retaining portion 311 A guide groove 313 for allowing the coating liquid to flow is formed between the coating liquid retaining portion 311 and the discharge ports 312 on both sides of the coating liquid retaining portion 311 have.

5, the filling member 320 of the coating liquid discharging unit 300 includes a protruding portion 331 filling the space excluding the space occupied by the guide groove 313 in the space of the discharge space portion 310. [ A coating liquid injection tube 323 for injecting a coating liquid is inserted into the projecting portion 321 at a position corresponding to the coating liquid retaining portion 311 of the discharge space portion 310 And a pair of air injection holes 322 are formed at positions corresponding to the pair of discharge ports 312 formed in the discharge space portion 310. [ The coating liquid injection pipe 323 can be connected to a coating liquid supply pipe (not shown) connected to the coating liquid tank outside the nozzle unit, and the coating liquid supplied from the coating liquid supply pipe is formed in the filling member 320 To the coating liquid retaining portion 311 of the discharge space portion 310 through the coating liquid infusion pipe 323. [

4, the nozzle unit according to the present invention is configured such that air having a specific pressure introduced into the space portion 110 of the nozzle body 100 is supplied to the filling member 300 of the coating liquid discharging portion 300, The air is injected into the discharge space part 310 through the air injection hole 322 formed in the discharge space part 320 and then discharged to the outside through the discharge hole 312 formed in the discharge space part 310, The coating liquid formed in the filling member 320 of the coating liquid discharging unit 300 and injected into the coating liquid retaining unit 311 of the discharging space portion 310 through the coating liquid injecting pipe 323 is discharged to the discharge port 312, The coating liquid supplied to the discharge ports 312 formed on both sides flows along the guide groove portion 313 by the pressure drop caused by the discharge of air from the discharge port 312 to the discharge ports 312 on both sides along the guide groove portion 313, As shown in FIG.

6, the coating liquid discharging unit 300 shown in FIG. 6 includes a discharging unit 300 which is opened to the outside of the nozzle body 100 and in which a predetermined space is recessed And a filling member 320 for filling the space portion 310 with the discharge space portion. The coating liquid retaining portion 311 having a groove structure in which the injected coating liquid temporarily stays is formed on the inner surface of the filling member 320 And a discharge port 312 formed at both sides of the coating liquid retaining portion 311 at equal intervals and spaced apart from each other to discharge air and a coating liquid are formed and the coating liquid retaining portion 311 And the discharge ports 312 of both sides are formed with guide grooves 313 for allowing the coating liquid to flow. The surface of the discharge space portion 310 which abuts the inner surface of the cover member 320 is coated with a coating liquid for injecting the coating liquid at a position corresponding to the coating liquid retaining portion 311 of the cover member 320, And an air injection hole 322 is formed at a position corresponding to the discharge port 312 of the filling member 320. [

Referring to FIG. 7, the nozzle unit according to an embodiment of the present invention includes a female / male fastening part (not shown) for fastening between nozzle units at both ends of a nozzle body 100 so that a user can quickly, accurately, 120 are formed.

As described above, those skilled in the art will understand that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. It will be understood by those skilled in the art that the present invention may be embodied in many other specific forms without departing from the spirit or scope of the invention as defined by the appended claims and their equivalents. .

[Description of Symbols]
100: nozzle body 110:
111: partition wall 120: female / male fastening portion
200: nozzle cover 210: connection portion
300: coating liquid discharging portion 310: discharging space portion
311: coating liquid reservoir 312: discharge port
313: guide groove portion 320:
321: protrusion 322: air injection hole
323: Coating liquid injection tube

Claims (11)

A nozzle body in which a predetermined space portion with one side opened is formed as a depression and a coating liquid discharging portion is formed on a bottom surface of the space portion; And
And a nozzle cover covering the open side of the nozzle body to seal the space, the nozzle unit comprising:
Wherein the space portion of the nozzle body is filled with air injected from the outside,
Wherein the coating liquid discharging portion includes a discharging space portion which is opened toward the space portion of the nozzle body and in which a predetermined space is recessed and a filling member for filling the discharging space portion,
The discharge space portion is formed with a coating liquid retaining portion in which the coating liquid injected on the bottom surface temporarily retreats and an ejection opening spaced apart from each other at equal intervals around the coating liquid retaining portion so that air and the coating liquid are discharged together A guide groove portion is formed between the coating liquid retaining portion and both outlets so that the coating liquid can flow,
Wherein the filler member is inserted through a coating liquid injection pipe for injecting a coating liquid into a position corresponding to the coating liquid retaining portion of the discharge space portion and an air injection hole is formed at a position corresponding to the discharge port of the discharge space portion.
The method according to claim 1,
Wherein the space portion of the nozzle body has a partition wall.
The method according to claim 1,
Wherein the width of the guide groove portion is smaller than the diameter of the discharge port and the depth is shallower than the depth of the coating liquid retaining portion.
The method according to claim 1,
And a female / male fastening portion corresponding to one longitudinal end of the nozzle unit and one end of the other end of the nozzle unit are formed.
The method according to claim 1,
Wherein a distance between a discharge port closest to an end of the nozzle body and an end of the nozzle body is 1/2 of a distance between both discharge ports formed in the discharge space portion.

A nozzle body in which a predetermined space portion with one side open is formed in a depressed state and a coating liquid discharge portion is formed on the other side surface; And
And a nozzle cover covering the open side of the nozzle body to seal the space, the nozzle unit comprising:
Wherein the space portion of the nozzle body is filled with air injected from the outside,
Wherein the coating liquid discharging portion includes a discharging space portion which is opened to the outside of the nozzle body and in which a predetermined space is recessed, and a filling member which fills the discharging space portion,
The filling member is formed with a coating liquid retaining portion for temporarily retaining the coating liquid injected into the inner surface and an ejection opening formed at the same spacing on both sides of the coating liquid retaining portion so that air and the coating liquid are ejected together A guide groove portion is formed between the coating liquid retaining portion and both outlets so that the coating liquid can flow,
A coating solution injection tube for injecting a coating solution is inserted through a surface of the discharge space part, which is in contact with the inner surface of the filling member, between a point corresponding to the coating solution retaining part of the filling member and a bottom surface of the space part, Wherein an air injection hole is formed between a point corresponding to a discharge port of the filling member and a bottom surface of the space portion.
The method according to claim 6,
Wherein the space portion of the nozzle body has a partition wall.
The method according to claim 6,
Wherein the width of the guide groove portion is smaller than the diameter of the discharge port and the depth is shallower than the depth of the coating liquid retaining portion.
The method according to claim 6,
The nozzle unit And a female / male fastening portion corresponding to one of the one longitudinal end and the other end, respectively.
The method according to claim 6,
Wherein a distance between a discharge port closest to an end of the nozzle body and an end of the nozzle body is 1/2 of a distance between both discharge ports formed in the filling member.
11. A coating liquid applying apparatus according to any one of claims 1 to 10, wherein the nozzle unit is mounted, and the coating liquid is sprayed onto the decorated body through the nozzle unit.

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