KR20130047857A

KR20130047857A - Glasses coated device

Info

Publication number: KR20130047857A
Application number: KR1020110112655A
Authority: KR
Inventors: 이명구
Original assignee: 이명구
Priority date: 2011-11-01
Filing date: 2011-11-01
Publication date: 2013-05-09

Abstract

PURPOSE: A glasses coating apparatus is provided to facilitate the storage of a jig after coating solution peeling work, thereby improving the efficiency of coating work and coating solution peeling work. CONSTITUTION: A glasses coating apparatus comprises a main body(10), a rotary shaft(20), and a jig(30). The main body is mounted with an injection device which has an injection nozzle(42) to be movable side to side. The rotary shaft is mounted inside the main body with a fixed space to be rotatable in both directions. The rotary shaft has an end of one end part which is connected rotatably to a drive motor and the other end which is equipped with multiple fixed shafts(22). The jig has both ends detachably and respectively connected to between fixed shafts on both sides of the rotary shaft(20). The jig is equipped with tongs(31) which can fix the arms of eyeglasses or glass frames at a fixed interval.

Description

Glasses coated device

The present invention relates to a device for applying a coating on the surface of the spectacles or the spectacle frame, a large amount of coating work to be detached from the upper and lower portions of the rotary drive device to the support for fixing a plurality of spectacles or spectacle frame, respectively. In addition, the volume of the support can be made relatively small so that the coating liquid can be removed in the coating liquid dissolution tank during the coating liquid peeling operation after the completion of the coating work. It is also easy to store so that the work efficiency is improved.

Conventional glasses coating apparatus is connected to the rotating shaft detachably connected to the rotary drive shaft driven by the drive motor, the middle of the guides that are bent in opposite directions to the rotary shaft are coupled laterally at regular intervals, each end of each fixture It is equipped with tongs for fixing the glasses legs or frames.

In the conventional glasses coating apparatus, when the power is applied, the rotating drive shaft and the rotating shaft are rotated by the driving motor, and the glasses legs or the glasses frames which are fixed to the tongs at the end of the holder are rotated together with the rotating shaft, and the coating liquid sprayed from the spray is the glasses legs or It is attached to the surface of the spectacle frame to form a coating.

However, the above-mentioned glasses coating apparatus is to be reused by peeling the coating solution attached to the holder and the forceps by separating the rotating shaft from the rotary drive shaft after the coating operation, the conventional eyeglass coating apparatus is provided with tongs at both ends and protruding in opposite directions Is arranged in the transverse direction of the rotating shaft, so the space occupied by the rotating shaft is large, so the number of rotating shafts in the dissolution tank provided for the coating liquid peeling operation is limited. After the volume of the rotary shaft is not easy to store there was a problem that the work efficiency is reduced.

Accordingly, an object of the present invention is to solve the above problems, a pair of small supporters provided in the transverse direction on the upper side of the pair of tongs to which the spectacles or frame is fixed rotation axis at a predetermined distance from the top and bottom It can be detachably connected to a pair of supports to be coupled to the rotating shaft during the coating work, so that a large amount of coating can be performed. It is possible to provide a coating solution peeling operation in the coating solution dissolution tank, and also to facilitate storage of the supporting tool after the coating solution peeling work, thereby improving the working efficiency during the coating work and the coating liquid peeling work.

The present invention for achieving the object of the present invention as described above is the main body is provided with an injection device having an injection nozzle on the top to be movable left and right; A rotating shaft mounted rotatably at a predetermined distance in the main body, one end of which is rotatably connected to the driving motor, and a plurality of fixed shafts provided at the other end; Both ends are detachably connected between both fixed shafts of the rotary shaft, characterized in that consisting of a support provided with tongs for fixing the spectacles or frames at a predetermined interval.

The present invention allows a larger amount of coating work by allowing the supporter provided in the transverse direction on the upper side of the tongs for fixing the spectacles or the frame to the upper and lower portions of the rotating shaft, and also the volume of the support is small In the coating liquid peeling operation, a large amount of support can be put in the coating liquid dissolving tank to perform the coating liquid peeling operation, and after the coating liquid peeling operation, the storage of the supporting tool is also easy, and thus the work efficiency is improved.

1 is a front view showing the overall configuration of the present invention
2 is a right side view of a portion of the invention cut away;
3 is a cross-sectional view taken along line 1 of FIG.
Figure 4 is a state diagram showing the coating operation of the present invention
Figure 5 is a state diagram showing the coating operation is rotated the rotary shaft of the present invention
Figure 6 is a perspective view showing a rotation axis of the present invention
Figure 7 is an exploded perspective view showing a rotation axis of the present invention
Figure 8 is a partial cutaway cross-sectional view of the support is connected to the rotary shaft of the present invention
9 is a partial cross-sectional view showing a state in which the support of the present invention is coupled.
10 is a partial cross-sectional view showing a state in which the support of the present invention is separated.
11 is a perspective view showing another embodiment of the present invention a rotating shaft
12 is an exploded perspective view showing another embodiment of the present invention a rotating shaft
Figure 13 is a side view of a state in which the support is fixed to the rotating legs of the rotating shaft of the present invention
Figure 14 is a side view of a state in which the support is fixed to the rotation axis of the rotation axis of the present invention coupled in the opposite direction

1 to 5, the front upper part is formed to be open, and both ends of the drive shaft 11 are rotatably mounted on the inner lower side thereof, and the first drive motor 12 is mounted to the drive shaft 11. A main body 10 rotatably connected to the main body 10; Each of the upper ends of the driving shaft 11 is rotatably supported by the main body 10 so that the outer ends thereof are rotatably connected to the driving shaft 11, respectively, and the inner side of the connecting shaft extends up and down the center ( 21) each end is provided with a fixed shaft 22, the rotating shaft 20 is connected to both ends of the interlocking shaft 23 to the fixed shaft 22 in the middle; Both ends of each of the upper and lower fixed shafts 22 of the rotary shaft 20 are detachably connected to each other, and a supporter 30 provided with tongs 31 for fixing a pair of eyeglasses or frames at regular intervals; A track device 41 reciprocating left and right at the rear upper part of the main body 10 is provided so that the spray having the injection nozzle 42 facing the support 30 can be moved left and right by the track device 41. It is a basic feature of the technical configuration that the mounting device 41 is composed of an injection device 40 is operably connected by the second drive motor 43.

According to the present invention configured as described above, the glasses legs or frames to be coated on the tongs 31 of the support 30 are fixed, and then both ends of the support 30 are fixed between both fixed shafts 22 of the rotation shaft 20 and the power source. Is applied.

When the power is applied, the first drive motor 12 drives the rotation shaft 20 through the drive shaft 11 so that the support 30 rotates while drawing the track together, and the second drive motor 43 is the track device. By the 41, the injection nozzle 42 is reciprocated to the left and right, so that the coating liquid sprayed from the injection nozzle 42 is evenly attached to the spectacles or the frame fixed to the support 30.

When the coating operation is completed, the support 30 is separated from both fixed shafts 22 of the rotating shaft 20, and then the glasses legs or frames are collected and separated from the tongs 31, and the support 30 is attached to the coating liquid. Place in coating solution dissolution tank for peeling.

Here, as shown in FIGS. 6 to 10, the rotating shaft 20 has a spring housing 24 having a spring 26 housed at a distal end thereof, and transversely transversely formed on the outer circumferential surface of the spring housing 24. After the two ends are provided with a pair of connecting shafts 21 extending in the opposite direction to each other, and the fixing stand 25 is provided with a through hole formed in each of the front and rear ends at both ends of the connecting shaft 21, The rear end of the spring housing 24 'is screwed to the front end of the head), and the rear end of the fixed shaft 22 supported by the spring 26 mounted inside each spring housing 24' penetrates the fixing table 25. So that the axial movement is possible.

In addition, the spring 26 is also mounted inside the central spring housing 24 so that the rear end of the fixed shaft 22 supported by the spring 26 is axially movable inside the spring housing 24.

On the other hand, the rotating shaft 20 is rotatably mounted on the side wall of the main body 10 by a bearing 27 mounted on the bearing housing 28, the outer peripheral surface of the rotary shaft 20 is driven by a belt or chain of the outer end is interlocking means. Connected to (11).

In addition, the fixed shaft 22 is formed in the shape of a square pyramid end and the end of the support 30 is formed in a four-sided cross-sectional structure, the end of the fixed shaft 22 and the end of the support 30 is coupled.

The rotary shaft 20 pushes the fixed shaft 22 to the rear and the front end of the fixed shaft 22 to be inserted at both ends of the support 30, the elastic force of the compressed spring 26 is fixed to the fixed shaft 22 By acting on the support 30 to maintain a firmly coupled state, the support 30 is also rotated with the spring housing 24 '.

Here, the fixed shaft 22 not only restricts the axial movement by acting as a stopper of the nut 29 screwed to the rear end, but also adjusts the screwed position by rotating the nut 29 so that the spring 26 is Elasticity can be adjusted, and the fixed shaft 22 can adjust the length protruding from the spring housing (24 ').

In addition, the interlocking shaft 23 connected to the center fixed shaft 22 of the rotating shaft 20 is formed in the shape of a pipe having a square cross-section at both ends, such as the support 30, so that the tip of the square pyramid of the fixed shaft 22 is inserted. Since it is to be interlocked with the rotating shaft (20).

On the other hand, Figures 11 to 14 show another embodiment of the present invention, the ends of the connecting shaft 21 which extends up and down on the outer peripheral surface of the spring housing 24, respectively extending from side to side, each of the connecting shaft 21 At the end, a fixing stand 25 having a through hole formed in front and rear is provided, and a rear end portion of the spring housing 24 'is screwed to each fixing stand 25, and a spring 26 mounted inside each spring housing 24'. The rear end of the fixed shaft 22 which is supported by) passes through the fixing table 25 and is mounted to enable axial movement.

10 main body 11 drive shaft
12: first drive motor 20: rotation axis
21: connecting shaft 22: fixed shaft
23: interlock shaft 24, 24 ': spring housing
25: holder 26: spring
27: bearing 28: bearing housing
29 nut 30 support
31: tongs 40: injection device
41: track device 42: injection nozzle
42: second drive motor

Claims

A main body 10 having an injection device having an injection nozzle 42 on the top thereof so as to be movable left and right; Rotating shaft 20 is rotatably mounted on both sides of the main body 10 at a predetermined distance, one end of which is rotatably connected to the driving motor, and a plurality of fixed shafts 22 are provided on the other end thereof. and; Both ends of each of the fixed shafts 22 of the rotating shaft 20 are detachably connected to each other, and are provided with a supporter 30 having tongs 31 for fixing the glasses legs or frames at regular intervals. Glasses coating apparatus, characterized in that made.

The method of claim 1,
Rotating shaft 20 is the eyeglass coating device, characterized in that the rear end of the fixed shaft 22 is supported by a spring.

The method of claim 1,
Rotating shaft 20 is the both ends of the interlocking shaft (23) connected to the fixed shaft 22 of the middle, the eyeglass coating device, characterized in that to be rotated together.

The method of claim 1,
Rotating shaft 20 is provided with a fixing stand 25, the ends of the connecting shaft 21 extending up and down, respectively extending left and right, the through hole is formed in the front and rear ends of each connecting shaft 21, each fixing stand 25 Spring housing 24 'is coupled to the rear end of the fixed shaft 22, which is supported by the spring 26 mounted inside each spring housing 24', and can move in the axial direction through the holder 25. Glasses coating apparatus characterized in that the mounting.