KR101205954B1 - Dispenser Gun Capable of Spraying Separately From Surface - Google Patents

Abstract

The present invention relates to a dispenser gun capable of surface separation spraying, and more particularly, to a dispenser gun capable of continuously spraying an adhesive in a state spaced apart from a surface of an adhesive by a predetermined distance. The dispenser gun has a hollow hollow shape extending to a predetermined length (B); A nozzle 11 fixed to one end of the body B and having an injection hole 111 formed therein; A receiver 12 coupled to one end of the nozzle 11 and extending into the body B and wound around a coil; An armature 13 installed inside the receiver 12 and movable up and down by the spring 133 and the electromagnetic force; Adjuster 14 is installed so that a portion is formed inside the receiver 12 so as to form a constant gap with one end of the armature 13; An adjusting member 15 integrally connected with the adjuster 14 and extending in the direction of the other end of the body B and having a moving means surface; And an injection conduit 16 installed on the side of the body B to enable injection of an adhesive into the connecting portion of the adjuster 14 and the adjustment member 15.

Description

Dispenser Gun Capable of Spraying Separately From Surface}

The present invention relates to a dispenser gun capable of surface separation spraying, and more particularly, to a dispenser gun capable of continuously spraying an adhesive in a state spaced apart from a surface of an adhesive by a predetermined distance.

An electronic product, LCD or plastic product consists of a combination of various types of components, each of which must be joined to each other by fixing means or adhesive means. For example, in an electronic circuit, adhesion may be performed by a die bonding apparatus to mount an electronic component such as a silicon semiconductor die on a substrate such as a lead frame. The adhesive must be ejected to the surface of the substrate or the substrate for the adhesion of the component and the adhesive can be continuously supplied by the dispenser in an automatic process. Dispenser gun means a series of devices that includes a nozzle used for discharging an adhesive.

Dispenser guns for the adhesion of components can have a variety of structures depending on the application, but when applied to an automated process it is advantageous to be able to continuously discharge a certain amount of adhesive and to be able to control the discharge amount. It is also advantageous that the end of the nozzle is spaced a certain distance from the surface of the substrate or the surface of the parent. In addition, it must be able to be electronically controlled to discharge the adhesive at high speed and to control the viscosity of the adhesive.

The present invention is to provide a structure of a dispenser gun having such a condition and has the following object.

It is an object of the present invention to provide a dispenser gun capable of continuously discharging an adhesive in a state in which a distance is separated from an adhesive surface.

Another object of the present invention is to provide a dispenser gun which is easy to clean and which can be adjusted in viscosity.

According to a preferred embodiment of the present invention, a dispenser gun comprises: a body extending in a hollow hollow shape to a predetermined length; A nozzle fixed to one end of the body and having an injection hole formed therein; A receiver coupled to one end of the nozzle and extending into the body and having a coil wound around the periphery; An armature installed inside the receiver and movable up and down by a spring and an electromagnetic force; Adjuster is installed so as to form a certain gap with one end of the armature while a part is installed inside the receiver; An adjusting member integrally connected with the adjuster and extending in the other end direction of the body B and having a moving means surface; And an injection conduit installed on the side of the body to enable injection of the adhesive into the connecting portion of the adjuster and the adjustment member.

According to another suitable embodiment of the present invention, it further comprises a pair of heaters installed on the side of the body.

According to another suitable embodiment of the present invention, a moving passage is formed in the coordinator or the armature and connected with the injection conduit.

The dispenser gun according to the present invention has the advantage that it is possible to control the discharge amount while operating electronically. In addition, the dispenser gun according to the present invention has the advantage of easy cleaning and maintenance.

1A shows a perspective view of a dispenser gun according to the present invention.
1B illustrates an exploded view of the dispenser gun according to the present invention.
1C illustrates a cross-sectional view of a dispenser gun in accordance with the present invention.
Figure 2 illustrates an embodiment in which the dispenser gun according to the present invention is connected to the control device to operate.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the embodiments shown in the accompanying drawings, but the present invention is not limited thereto.

1A, 1B and 1C show a perspective view, an exploded view and a cross sectional view of the dispenser gun 10 according to the present invention, respectively.

1A, 1B and 1C, the dispenser gun 10 includes a body B extending to a predetermined length in a hollow hollow shape; A nozzle 11 fixed to one end of the body B and having an injection hole 111 formed therein; A receiver 12 coupled to one end of the nozzle 11 and extending into the body B and wound around a coil; An armature 13 installed inside the receiver 12 and movable up and down by the spring 133 and the electromagnetic force; Adjuster 14 is installed so that a portion is formed inside the receiver 12 so as to form a constant gap with one end of the armature 13; An adjusting member 15 integrally connected with the adjuster 14 and extending in the direction of the other end of the body B and having a moving means surface; And an injection conduit 16 installed on the side of the body B to enable injection of an adhesive into the connecting portion of the adjuster 14 and the adjustment member 15.

The body B for accommodating the moving parts may be hollow in the shape of a column and may be, for example, cylindrical or square in shape, but is not limited thereto. The body B may have a shape extending in a direction (length direction) perpendicular to the ground because the body must have a shape in which the adhesive can be discharged downward and discharged in the operation process. The nozzle 11 is coupled to one end of the body B. The nozzle 11 may be fixed by fastening means such as a fastening screw or by screwing, and an injection hole 111 is formed at an end thereof. The diameter of the injection hole 111 may be appropriately set depending on the application of the dispenser gun 10 but may preferably be 0.05 to 1.0 mm. The inside of the nozzle 11 may be a hollow shape and as described below may be a shape that can open and close the injection hole 111 by receiving the ball 131.

The receiver 12 may generate a magnetic force acting on the armature 13 as the electric signal flows in while receiving the armature 13 and the adjuster 14. One end of the receiver 12 may be coupled to the opposite side where the injection hole 111 of the nozzle 11 is formed, and a portion for accommodating the armature 13 and the adjuster 14 may extend upward in the interior of the body B. FIG. have. The coil may be wound along a circumferential surface of the receiver 12 and the receiver 12 may have a solenoid function as electrical signals flow in and out along the coil. The coil may for example be sealed by a cover but is not necessarily required.

The armature 13 includes a ball 131 formed at one end, a conductive body 132 extending from the ball 131 into the interior of the receiver 12 and a spring 133 wound around the circumferential surface of the ball 131. . The ball 131 may have a shape accommodated in the nozzle 11 and a ball 131A may be formed at an end portion thereof. The ball has a function of opening and closing the injection hole 111 while the ball (131A) is a full sphere. Specifically, when the armature 13 is lowered due to the action of the spring, the ball is the front surface of the ball 131A to close the injection hole 111 and the electric signal flows into the receiver 12 again the armature 13 is When the ball is raised upward, the ball 131A may be separated from the injection hole 111 so that the injection hole 111 may be opened. In order to move by the action of the electromagnetic force, the armature 13 may be a permanent magnet or the coil is wound may have a structure that is magnetized by the inflow of electrical signals. The conductive body 132 is positioned inside the receiver 12 and the spring 133 has one end fixed to the ball 131 and the other end fixed to the receiver 12 so that an elastic force acts on the armature 13. It can be installed in the form. When the electrical signal is introduced into the coil of the receiver 12, the conductive body 132 is increased by the action of the magnetic force to compress the spring 133, and when the electrical signal disappears, the spring 133 is restored and the armature 13 is Will descend. The vertical motion of the armature 13 by the interaction of the electromagnetic force and the elastic force can be formed according to any method known in the art and is not limited to the embodiments shown.

The adjuster 14 may have a structure separate from the armature 13 and extend upward while making a constant gap G from one end of the armature 13 within the receiver 12. The size of the gap G formed by the end of the adjuster 14 and the end of the armature 13 is controlled by the amount of adhesive discharged through the nozzle 11 by the periodic movement due to the vertical movement of the armature 13. To help. The size of the gap G can be adjusted by the adjusting member 15. The adjusting member 15 may be formed integrally with the adjuster 14 and extend upward while the moving means surface 142 is formed in the middle portion. The upper portion of the adjustment member 15 may be a cover shape covering the upper portion of the body (B) and may be a shape exposed to the outside of the body (B). The moving means face 142 may be, for example, threaded or threaded and may have a structure that engages with a threaded bone or thread formed on the inner surface of the corresponding body B. The adjusting screw 151 formed above the adjuster 14 may be rotated to move the adjuster 14 up and down. Specifically, by rotating the adjusting screw 151 in one direction, the adjuster 14 is moved downward by the rotation of the moving means surface 142 and by adjusting the adjusting screw 152 in the other direction. 14) may be moved upwards. The size of the gap G can be adjusted by the movement of the adjuster 14 as described above.

The injection conduit 16 may be made of a structure directed toward the inside from the side of the body B as a passage for injecting the adhesive into the body B. Specifically, the injection channel 16 may be made to be connected to the recessed diameter portion 141 corresponding to the connecting portion of the adjuster 14 and the adjusting member 15. The recessed diameter portion 141 may be made of a relatively small diameter as a connection between the adjuster 14 and the adjusting member 15. As shown in FIG. 1C, movement passages P1 and P2 may be formed in the central portion of the coordinator 14 and the armature 13 and the injection conduit 16 may be connected to the movement passages P1 and P2. On the other hand the injection conduit 16 may be connected to the extra space inside the receiver 12 in which the armature 13 and the adjuster 14 are accommodated. Specifically, the inner diameter of the receiver 12 is slightly larger than the outer diameters of the armature 13 and adjuster 14, which causes the inner face of the receiver 12 and the outer face of the armature 13 and adjuster 14. Some empty space may be formed in between. Some of the adhesive injected through the injection conduit 16 flows through the moving passages P1 and P2 formed inside the armature 13 and the adjuster 14 and the remainder of the adhesive flows through some empty space. The adhesive injected through the moving passages P1 and P2 may flow into the nozzle 11 through branch holes formed under the armature 13. The injected adhesive is filled in the internal space of the nozzle 11 through such a path. Adhesive flowing through the injection conduit 16 may be supplied from the injection tank (T). The injection tank T may supply the required amount to the nozzle 11 through the injection conduit 16 while storing a certain amount of adhesive. If necessary, the injection tank T may be made to maintain a certain level of pressure.

The injection channel 16 is formed on the side of the body (B) to facilitate the cleaning of the dispenser gun 10 and at the same time to facilitate viscosity adjustment. The nozzle 11 needs to be cleaned after a certain period of time, and when the cleaning is required, the dispenser gun 10 is easily cleaned by injecting the cleaning agent through the injection conduit 16. Even when it is necessary to disassemble and wash, only the armature 13 and the nozzle 11 can be disassembled and washed. In addition, it is also easy to clean the injection pipe 16 itself by installing the injection pipe 16 to be detachable. In addition, even in the case of viscosity control by temperature, the viscosity can be easily adjusted by adjusting the temperature of the injection pipe 16. As such, installing the injection conduit 16 on the side of the body may have advantages in terms of installation, washing and viscosity control.

The adhesive applied to the dispenser gun 10 according to the invention can be any adhesive known in the art and can be, for example, water soluble adhesives, starch adhesives, dextrin based adhesives, epoxy adhesives or ultraviolet curing adhesives (UV adhesives). Can be Viscosity can be changed in the process of storing such an adhesive in the injection tank (T). Heater (H) may be installed in the longitudinal direction on the outside of the body (B) to adjust the viscosity of the adhesive. The heater H shown in FIG. 1C is exemplary and a cover having a heat transfer medium may be formed in the injection conduit 16 or the nozzle 11 may be installed, for example, to adjust the viscosity of the adhesive. The heater H may be of any type known in the art, such as a carbon resistive heating element or nichrome wire, and may be made to be maintained at a predetermined temperature level.

The connection device A may be attached to one side of the body B. The connection device A may include a connector P for connection of a power cable, a connection device C for electrically connecting the connector P to the inside of the body, and an internal pressure regulating device. The connector P corresponds to a connecting device for supplying electricity to the coil and the heater H, and the internal pressure regulating device is an O-ring 41, a space 42, a piston 43, a shock absorbing spring as shown in FIG. 1B. 44 and locking screw 45. The internal pressure regulating device is for properly adjusting the pressure inside the body B, and can operate with the elastic force of the piston 43 and the shock absorbing spring 44 which can move inside the space 42. The connector P or pressure regulating device shown in FIG. 1B is exemplary and may be in any form known in the art.

The dispenser gun 10 according to the invention can be attached to various types of fixing devices. According to the fixing device, various types of coupling parts 17 may be formed.

An operation example of the dispenser gun 10 according to the present invention will be described below.

2 shows an embodiment of the operation of the dispenser gun 10 according to the present invention.

Referring to FIG. 2, the dispenser gun 10 may be connected to the control device 25 by the connector P. Referring to FIG. The control device 25 may comprise a window, a pressure or temperature control device and an electrical signal input device for monitoring the operating state. In the dispenser gun 10 according to the invention an electrical signal with an arbitrary period can be input for adjusting the discharge rate of the adhesive, but preferably a pulse wave can be input to the coil. Adjusting the discharge rate of the adhesive with a pulse wave has the advantage that it is easy to control the amount of the adhesive applied at the same time while allowing a certain amount to be discharged regardless of the viscosity. Pulsed waves can be injected, for example, at a rate of 100 to 10000 times / sec, but are not limited thereto.

When the pulse wave is injected into the coil through the connector P installed in the connecting device A via the power cable 24 in the control device 25, it is present inside the nozzle 11 through the injection conduit 16. The adhesive is discharged to the surface of the substrate 21 through the injection hole 111 due to the rise of the armature. By moving the substrate 21 or the dispenser gun 10, the adhesive may be discharged to the surface of the substrate 21 in the dot form 22a or applied in the form of a line 22b. The component to be attached is then attached to the surface of the substrate 21 and if the adhesive is an ultraviolet curing adhesive, the component can be firmly attached to the substrate 21 while the adhesive is cured by projecting ultraviolet light. The injection hole 111 is located at a distance spaced from the surface of the substrate 21 in the range of 0.5 to 10 mm, and the injection at such a distance is carried out through the operation of the armature by the pulse wave and appropriate control of the internal pressure It is possible. Spraying the adhesive away from the surface has the advantage that the bonding process can be performed at high speed while preventing damage or contamination of the surface of the substrate 21. By controlling the internal pressure or the intensity of the pulse wave, the degree of ejection of the adhesive is controlled and the amount of ejection of the adhesive can be controlled by adjusting the gap between the armature and the receiver as described further above. As described above, the dispenser gun according to the present invention has an advantage that the application amount of the adhesive can be easily adjusted while enabling the spaced discharge of the adhesive. In addition, the dispenser gun according to the present invention has the advantage that the dispenser gun according to the present invention is simple to clean and easy to maintain and repair.

Those skilled in the art may make various modifications and modifications without departing from the technical spirit of the present invention with reference to the presented embodiments. The invention is not limited by these variations and modifications, but is only limited by the scope of the appended claims.

10: dispenser gun 11: nozzle 12: receiver
13: armature 14: adjuster 15: adjusting member
16: injection pipe 24: power cable 25: control device
B: Body T: Injection Tank P: Connector

Claims (3)

Body (B) extending to a predetermined length in a hollow hollow shape;
A nozzle 11 fixed to one end of the body B and having an injection hole 111 formed therein;
A receiver 12 coupled to one end of the nozzle 11 and extending into the body B and wound around a coil;
An armature 13 installed inside the receiver 12 and movable up and down by the spring 133 and the electromagnetic force;
Adjuster 14 is installed so that a portion is formed inside the receiver 12 so as to form a constant gap with one end of the armature 13;
Connected integrally with the adjuster 14 extends in the other end direction of the body B and a moving surface 142 is formed to adjust the size of the gap G between the armature 13 and the adjuster 14. Adjusting member 15;
An injection conduit 16 installed at a side of the body B to enable injection of an adhesive into a recessed diameter portion 141 made of a relatively small diameter as a connecting portion of the adjuster 14 and the adjusting member 15; And
It includes a pressure regulating device for regulating the pressure in the body (B) consisting of a piston 43 and the shock absorbing spring 44,
The surface of the body (B) is provided with a pair of heaters (H) capable of temperature control for adjusting the viscosity of the adhesive and the inlet line (16) is characterized in that the surface is installed to be separated from the body (B) Dispenser gun with separate spray. delete A moving passage (P1, P2) is formed in the interior of the adjuster (14) or armature (13) and connected to the injection conduit (16) and for injecting adhesive into the nozzle (11) through the branch hole. Dispenser gun capable of surface separation spraying.

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