KR101229980B1 - Apparatus for coating silicon on the injection needle - Google Patents

Abstract

PURPOSE: An apparatus for a silicon coating apparatus is provided to prevent the clogging of an injection needle by injecting air from the injection needle during a dipping process of the injection needle. CONSTITUTION: An apparatus for a silicon coating apparatus comprises a rotary body(20) which is arranged in the open part(11) of a work table(10); a rotary cylinder(30) which is connected to the right rotary shaft(S1) of the rotary body; a coating liquid storage tank which is ascended and descended by a lifting cylinder(50); a tunnel part with an inserted jig(70) arranged in the lower part of the rotary body by 180 degrees rotation; and an injection needle(60) which is arranged downwardly. According to the ascending and descending of the coating liquid storage tank, the coating liquid is spread on the injection needle.

Description

Needle silicone coating device {APPARATUS FOR COATING SILICON ON THE INJECTION NEEDLE}

The present invention relates to a needle silicon coating apparatus, and more particularly, when a jig is supplied to a rotating body in a state where a hub equipped with a needle is mounted on a jig, the rotating body is rotated 180 ° by a rotating cylinder, By raising and lowering the coating liquid storage tank by the raising and lowering cylinder, the needle is immersed in the coating liquid of the coating liquid storage tank, and relates to a needle silicone coating apparatus in which the coating liquid is coated on the injection needle.

Republic of Korea Utility Model Application Publication No. 20-2010-1533 (published February 10, 2010) "double-side coating needle" is introduced.

The double coated needle has a hollow metal needle head having an inner surface and an outer surface; A first ceramic layer coated on the inner surface of the hollow metal; And a second ceramic layer coated on the outer surface of the hollow metal.

However, an apparatus for coating the double coated needle is not introduced.

Accordingly, an object of the present invention is that when the jig is supplied to the rotating body in a state in which the hub equipped with a needle is mounted on the jig, the rotating body is rotated 180 degrees by the rotating cylinder, and the coating liquid storage tank is raised by the lowering cylinder. As a result, the needle is immersed in the coating liquid of the coating liquid reservoir, and the coating liquid is coated on the needle, so that there is no problem in the operation of the machine, and the needle silicone coating apparatus can minimize the evaporation of the coating liquid by minimizing the width of the coating liquid reservoir To provide.

Needle silicone coating device according to the present invention for achieving the above object is the left rotating shaft of the rotating body is mounted on the left bearing support disposed on the lower portion of the table so that the rotating body is disposed in the opening of the working table, the table The right rotating shaft of the rotating body is mounted to the right bearing supporting means disposed at the lower part of the rotating body, the right rotating shaft of the rotating body is connected to the rotating cylinder, and the coating liquid storage tank is disposed below the rotating body, and the coating liquid storage tank is moved by the lifting cylinder. As a result of raising and lowering, two tunnel portions are formed on the rotating body, when one tunnel portion is disposed above the rotating body, the other tunnel portion is disposed below the rotating body, and a hub equipped with a needle is mounted on the jig. In the jig is introduced into the tunnel portion disposed on the upper portion of the rotating body, either tunnel portion of the two tunnel portions formed on the rotating body is disposed on the upper portion of the rotating body, and the other The rotating body is rotated 180 degrees around the right and left rotating shafts by the rotating cylinder so that the tunnel portion is disposed under the rotating body, and the jig-fitted tunnel portion is disposed below the rotating body by the rotating rotating body 180 degrees. The needle is disposed downward, the coating liquid reservoir is raised by the lifting cylinder, the needle is immersed in the coating liquid of the coating liquid reservoir, characterized in that the coating liquid is coated on the needle.

The rotating body is disposed such that the first horizontal plate and the second horizontal plate face up and down, and the right vertical plate and the left vertical plate are mounted at both side ends of the first horizontal plate and the second horizontal plate, and at the center of the right vertical plate. One end of the right rotating shaft is connected, the other end of the right rotating shaft is connected to the rotating cylinder, one end of the left rotating shaft is connected to the center of the left vertical plate, and an intermediate horizontal plate is disposed between the first horizontal plate and the second horizontal plate. The first to third pressurized cylinders are mounted on the intermediate horizontal plate, and the second and third pressurized cylinders are disposed at both sides of the first pressurized cylinder, and the first pressurized cylinder is disposed on the first horizontal plate. The pressing member fixes the jig supplied to the first horizontal plate, and the second pressing member disposed on the second horizontal plate by the second and third pressing cylinders fixes the jig supplied to the second horizontal plate. First and second pressing members The second air supply means is characterized in that each is mounted.

The first horizontal plate has a center hole in which a first pressing member is disposed in the middle, and a pair of tunnel members are disposed to face each other on an outer surface thereof to form a tunnel portion through which a jig is introduced by the pair of tunnel members. The first latching jaw in which the jig body of the jig is in close contact with the tunnel member and the second locking jaw in which the hub fixed to the jig pin of the jig are in close contact with each other are formed.

The second horizontal plate has a center hole in which a second pressing member is disposed in the middle, and a pair of tunnel members are disposed to face each other on an outer surface thereof, so that a tunnel portion into which a jig is introduced by the pair of tunnel members is formed. And a third locking jaw in which the jig body of the jig is in close contact with the tunnel member and a fourth locking jaw in which the hub fixed to the jig pins of the jig are in close contact with each other.

The first pressing member is a body portion having a rectangular cross section protruding the pressing portion, the air passage of the first air supply means is formed inside the body portion, a plurality of branching holes formed in the direction of the pressing portion in the air passage is formed The air supply pipe is connected to the air passage.

The coating solution reservoir is characterized in that the inner cylinder is disposed inside the outer cylinder.

As a result, the needle silicone coating apparatus according to the present invention can be operated without difficulty in the operation of the machine, and the air is injected from the needle during the dipping of the needle into the coating liquid, thereby preventing the needle from being blocked. Since the evaporation of the coating liquid can be minimized, there is an effect of minimizing the damage (harm to the human body, economic loss, etc.) caused by the evaporation of the coating liquid.

1 is a side view showing a needle silicon coating apparatus according to the present invention
Figure 2 is a cross-sectional view taken along the line AA of Figure 1 showing a needle silicon coating apparatus according to the present invention
3 is a perspective view of the rotating body of FIG.
4 is a side view showing the rotating body of FIG.
5 is a cross-sectional view taken along line BB of the rotating body of FIG.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings.

1 and 2, the needle silicon coating apparatus according to the present invention has a left shaft disposed below the table 10 such that the rotating body 20 is disposed in the opening 11 of the work table 10. The left rotating shaft S2 of the rotating body 20 is mounted on the supporting means 12, and the right rotating shaft S1 of the rotating body 20 is mounted on the right bearing supporting means 13 disposed below the table 10. Is mounted, the right rotating shaft (S1) of the rotating body 20 is connected to the rotating cylinder 30, the coating liquid storage tank 40 is disposed below the rotating body 20, the coating liquid storage tank 40 is the lifting cylinder As a result of lifting and lowering by 50, two tunnel portions 217 and 227 are formed in the rotating body 20, and when one tunnel portion is disposed above the rotating body 20, the other tunnel portion of the rotating body 20 The jig 70 is drawn into the tunnel portion disposed above the rotor 20 while the hub 65 mounted at the lower part and the hub 65 equipped with the needle 60 is mounted on the jig 70. 20's The rotating body 20 is rotated by the rotating cylinder 30 so that any one of the tunnel portion 217 and the tunnel portion 227 is disposed above the rotating body, and the other tunnel portion is disposed below the rotating body 20. Is rotated 180 ° about the right rotating shaft S1 and the left rotating shaft S2, and the tunnel part in which the jig 70 is fitted by the 180 ° rotation of the rotating body 20 is disposed below the rotating body 20, The needle 60 is disposed downward, and the coating liquid reservoir 40 is lifted by the elevating cylinder 50 so that the needle 60 is immersed in the coating liquid of the coating liquid reservoir 40, and thus the needle ( 60) is coated with a coating liquid.

3 to 5, the rotating body 20 is disposed such that the first horizontal plate 210 and the second horizontal plate 220 face up and down, and the first horizontal plate 210 and the second number. The right vertical plate 230 and the left vertical plate 240 are mounted at both side ends of the flat plate 220, one end of the right rotating shaft S1 is connected to the center of the right vertical plate 230, and the right rotating shaft S1 is provided. The other end of is connected to the rotating cylinder 30, one end of the left rotating shaft (S2) is connected to the center of the left vertical plate 240, the middle between the first horizontal plate 210 and the second horizontal plate 230 The horizontal plate 250 is disposed, and the first to third pressure cylinders CY1, CY2, and CY3 are mounted on the intermediate horizontal plate 250, so that the second and third parts are provided at both sides of the first pressure cylinder CY1. The pressure cylinders CY2 and CY3 are disposed, and the jig in which the first pressure member 260 disposed on the first horizontal plate 210 by the first pressure cylinder CY1 is supplied to the first horizontal plate 210. 70) and the second and third pressurized seals The second pressing member 270 disposed on the second horizontal plate 220 by the CY2 and CY3 to fix the jig 70 supplied to the second horizontal plate 220, and the first and second The first and second air supply means 280 and 290 are mounted to the pressure members 260 and 270, respectively.

3 and 5, the first horizontal plate 210 has a center hole 211 in which the first pressing member 260 is disposed, and a pair of tunnel members are formed on the outer surface 212. 215 and 216 are disposed to face each other, so that the tunnel portion 217 through which the jig 70 is introduced by the pair of tunnel members 215 and 216 is formed, and the jig First locking jaws 215a and 216a to which the jig body 71 of 70 is in close contact with the second locking jaws 215b and 216b to which the hub 65 fixed to the jig pin 72 of the jig 70 is to be in close contact. Are formed respectively.

The center hole 211 is formed with a locking jaw 211a, and the body portion 261 of the first pressing member 260 is caught by the locking jaw 211a.

As a result, when the connecting rod 251 of the first pressurizing cylinder CY1 is pulled out of the first pressurizing cylinder CY1, the first pressurizing member 260 connected to the connecting rod 251 is moved to the tunnel portion 217. By pushing the supplied jig 70, the jig body 71 of the jig 70 is fixed to the first latching jaws 215a and 216a of the tunnel members 215 and 216, and the jig pin of the jig 70 is fixed. The hub 65 fixed to the 72 is caught and fixed to the second locking jaws 215b and 216b.

The second horizontal plate 220 has the same structure as the first horizontal plate 210. That is, the second horizontal plate 220 has a center hole 221 in which the second pressing member 270 is disposed, and a pair of tunnel members 225 and 226 are formed on the outer surface 222. Disposed to face each other, a tunnel portion 227 into which the jig 70 is introduced by a pair of tunnel members 225 and 226 is formed, and the jig body 71 of the jig 70 is formed in the tunnel members 215 and 216. ) And fourth locking jaws 225b and 226b to which the first locking jaws 225a and 226a are in close contact with each other and the hub 65 fixed to the jig pins 72 of the jig 70 are in close contact with each other.

As a result, when the connecting rods 253 and 225 of the second and third pressure cylinders CY2 and CY3 are pulled out, the second pressing member 270 connected to the connecting rods 253 and 225 is connected to the tunnel portion 227. By pushing the jig 70 supplied to the jig 70, the jig body 71 of the jig 70 is fixed to the third locking jaws 225a and 226a of the tunnel members 225 and 226, and the jig of the jig 70 is fixed. The hub 65 fixed to the pin 72 is caught and fixed to the fourth locking jaws 225b and 226b.

The first pressing member 260 is a protruding portion 262 to the body portion 261 having a rectangular cross section, the air passage 281 of the first air supply means 280 in the body portion 261 ) Is formed, a plurality of branching holes 282 branching from the air passage 281 toward the pressing portion 262 is formed, and the air supply pipe 283 is connected to the air passage 281.

Thereby, when the 1st press member 260 crimps | bonds and fixes the jig 70, air is supplied to each branch opening 282 through the air path 281, and the air injected from the branch opening 282 is carried out. Is supplied to the needle 60 through the jig 70, by spraying air from the needle 60, the needle 60 is immersed in the coating liquid of the coating liquid reservoir 40, to the needle 60 When the coating liquid is applied, the needle 60 is prevented from being blocked by the coating liquid.

The second pressing member 270 has the same configuration as the first pressing member 260.

Referring to FIG. 2 again, the coating solution reservoir 40 has a structure in which the inner cylinder 42 is disposed inside the outer cylinder 41, and the width W of the inner cylinder 42 may be wound around the needle 60. Has a minimum width.

Thereby, even if the coating liquid overflows in the inner cylinder 42, the outer cylinder 41 receives it, and by making the width W of the inner cylinder 42 small minimum, evaporation of a coating liquid (especially diluent liquid) can be minimized. This is because the coating liquid storage tank 40 is lifted by the lifting lowering cylinder 50 after the rotating body 20 rotates 180 degrees.

The operation of the needle silicon coating apparatus according to the present invention configured as described above will be described.

When the hub 65 on which the needle 60 is mounted is mounted on the jig 70, the jig 70 is supplied to the tunnel portion 217 of the first horizontal plate 210 of the rotating body 20. The first pressurizing member 260 presses the jig 70 by the first pressurizing cylinder CY1 and is fixed to the locking jaws of the tunnel members 215 and 216.

Subsequently, when the rotating body 20 is rotated 180 ° by the rotating cylinder 30, and the injection needle 60 of the jig 70 fixed to the first horizontal plate 210 is directed downward, at this time, the first By injecting air into the jig 70 from the branch 282 of the air supply means 280, air is injected from the needle 60 through the jig 70, the coating liquid storage tank by the elevating cylinder 50 As the 40 is raised, the needle 60 is immersed in the coating liquid of the coating liquid reservoir 40, and the coating liquid is coated on the needle 60, but air is being injected from the needle 60, and thus the needle Clogging of 60 can be prevented. In addition, after the rotating body 20 rotates 180 °, the coating liquid reservoir 40 has a structure in which the lifting and lowering cylinder 50 is raised, whereby the width W of the inner cylinder 42 can be minimized. This can minimize the evaporation of the coating liquid.

As such, while the first horizontal plate 210 of the rotating body 20 is rotated 180 degrees by the rotating cylinder 30, and the needle 60 is silicon-coated, the tunnel portion of the second horizontal plate 220 is formed. Next, the next jig 70 is introduced into 227, and a process is performed in which the second pressing member 270 presses and fixes the jig 70 by the second and third pressure cylinders CY2 and CY3.

When the coating liquid is applied to the needle 60 of the first horizontal plate 210, the coating liquid storage tank 40 is lowered by the elevating cylinder 50, and the rotating body 20 is rotated by the rotating cylinder 30. ) Rotates 180 ° and repeats the needle coating process.

10: work table 20: rotating body
30: rotating cylinder 40: coating liquid storage tank
50: raising and lowering cylinder 60: needle
70: jig

Claims (6)

The left rotating shaft S2 of the rotating body 20 is mounted on the left bearing member 12 disposed below the table 10 so that the rotating body 20 is disposed in the opening 11 of the work table 10. The right rotating shaft S1 of the rotating body 20 is mounted on the right bearing supporting means 13 disposed below the table 10, and the right rotating shaft S1 of the rotating body 20 is the rotating cylinder 30. ), The coating liquid storage tank 40 is disposed below the rotating body 20, the coating liquid storage tank 40 is lifted up and down by the lifting cylinder 50, and two tunnels in the rotating body 20. 217 and 227 are formed, when one tunnel portion is disposed above the rotating body 20, the other tunnel portion is disposed below the rotating body, and the hub 65 equipped with the needle 60 is jig. In the state where it is mounted on the 70, the jig 70 is led into the tunnel portion disposed above the rotating body 20, and either of the tunnel portion 217 and the tunnel portion 227 of the rotating body 20 is tunneled. Placed on top of the additional rotor The rotating body 20 is rotated 180 degrees about the right rotating shaft S1 and the left rotating shaft S2 by the rotating cylinder 30 so that the other tunnel portion is disposed below the rotating body 20, and the rotating body The tunnel portion in which the jig 70 is fitted by the 180 ° rotation of the 20 is disposed under the rotating body 20, the needle 60 is disposed downward, and the coating liquid storage tank is moved by the elevating cylinder 50. As the 40 is raised, the needle 60 is immersed in the coating liquid of the coating liquid reservoir 40, so that the coating liquid is coated on the injection needle 60, characterized in that the needle silicon coating device.
The method of claim 1,
The rotating body 20 is disposed such that the first horizontal plate 210 and the second horizontal plate 220 face up and down, and are right at both side ends of the first horizontal plate 210 and the second horizontal plate 220. The vertical plate 230 and the left vertical plate 240 are mounted, one end of the right rotating shaft S1 is connected to the center of the right vertical plate 230, and the other end of the right rotating shaft S1 is connected to the rotating cylinder 30. Is connected, one end of the left rotating shaft (S2) is connected to the center of the left vertical plate 240, the intermediate horizontal plate 250 is disposed between the first horizontal plate 210 and the second horizontal plate 230, The first to third pressure cylinders CY1, CY2, and CY3 are mounted on the intermediate horizontal plate 250, and the second and third pressure cylinders CY2 and CY3 are disposed on both sides of the first pressure cylinder CY1. The first pressing member 260 disposed on the first horizontal plate 210 by the first pressure cylinder CY1 fixes the jig 70 supplied to the first horizontal plate 210, and the second And the second number by the third pressurized cylinders CY2 and CY3. The second pressing member 270 disposed on the plate 220 fixes the jig 70 supplied to the second horizontal plate 220, and the first and second pressing members 270 are fixed to the first and second pressing members 260 and 270. Needle silicone coating apparatus, characterized in that the second air supply means (280, 290) are mounted respectively.
The method of claim 2,
The first horizontal plate 210 has a center hole 211 in which the first pressing member 260 is disposed, and a pair of tunnel members 215 and 216 face each other on the outer surface 212. Is disposed, the tunnel portion 217 through which the jig 70 is introduced by the pair of tunnel members 215, 216, the jig body 71 of the jig 70 is formed in the tunnel members (215, 216) Scanning, characterized in that the first engaging jaw (215a, 216a) in close contact and the second engaging jaws (215b, 216b) in contact with the hub 65 fixed to the jig pin 72 of the jig 70 is formed, respectively Needle silicone coating equipment.
The method of claim 2,
The second horizontal plate 220 has a center hole 221 in which the second pressing member 270 is disposed, and a pair of tunnel members 225 and 226 face each other on the outer surface 222. Is disposed, the tunnel portion 227 through which the jig 70 is introduced by a pair of tunnel members 225, 226, the jig body 71 of the jig 70 is formed in the tunnel members (215, 216) Scanning, characterized in that the fourth engaging projection (225a, 226a) and the fourth engaging projection (225b, 226b) to which the hub 65 fixed to the jig pin 72 of the jig 70 is in close contact with each other is formed Needle silicone coating equipment.
The method of claim 2,
The first pressing member 260 is a protruding portion 262 to the body portion 261 having a rectangular cross section, the air passage 281 of the first air supply means 280 in the body portion 261 Is formed, and a plurality of branching holes 282 branching from the air passage 281 toward the pressing portion 262 are formed, and the air supply pipe 283 is connected to the air passage 281. Needle silicone coating equipment.
The method of claim 1,
The coating liquid reservoir 40 is a needle silicon coating device, characterized in that the inner cylinder 42 is disposed inside the outer cylinder (41).

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