KR20160064305A - The wire base jig fixture for electrostiic Coating - Google Patents

Abstract

Conventionally, there is no constitution of fixing a coating object (30) when spraying electrostatic powder toward the surface of the coating object (30) via compressed air, the coating object (30) is not securely fixed, and thus there is a problem in that the electrostatic powder coating state sprayed on the surface of a coating object (30) is not even. In order to fix the coating object (30) on the upper surface of a fixing disk (10) that rotates the coating object (30), so as to fix the coating object (30) by a wire (31), a fixture which is installed in the outer radius of a disk and in which a triangular hole is formed, a wire (31) passing through a fixing hole of a fixing pillar including the fixing hole in the upper part, and a coating object (30) are elastically fixed by generating tensile force by reducing the length of the wire (31) by a turnbuckle (33) at an end of one side of the wire (31). The present invention is designed such that the tension is controlled by a head machine (11) in order to uniformly maintain the tension of the wire (31) while fixing the coating objection (30) in the fixing disk (10), and thus even in case the surface of a coating object (30) varies, the coating object can be fixed with a constant tension.

Description

Technical Field [0001] The present invention relates to a wire base jig fixture for electrostatic powder coating,

The present invention relates to a method of performing optical 3D scanning on a surface causing irregular reflection, and electrostatic powder coating is a method of coating electrostatic powder on the surface causing diffuse reflection to eliminate disadvantages caused by manual coating and coating of conventional dry powder To an apparatus for fixing a coating object (30) for coating electrostatically powder on an original plate of a base material by means of a wire (31)) in an optical 3D scanning automatic apparatus.

   Conventionally, when collecting three-dimensional shape data using an optical 3D scanner, it is impossible to recognize smooth surfaces such as metal, glass, and ceramics that cause irregular reflection due to the optical characteristics of the scanner. Therefore, these surfaces are conventionally coated with a developer to prevent diffused reflection While scanning.

  However, applying such a developer to the surface can cause corrosion or discoloration, and can not completely clean the applied developer after application, so that the measured coating object 30 is damaged, and valuable or cultural or artifacts There is a problem in that it is difficult to apply it.

In addition, since the developing solution is a liquid, it is difficult to coat the layer at a certain thickness. It is difficult to apply uniformly to areas where there is a curved or sharp groove due to flowing or overlapping. In addition, most of these operations depend on manual operation, so that not only is the operation time consumed, but also the process of melting and removing the developer requires much effort.

A rotating object 5 formed at the center of the interior of the closing device 20 according to Patent Application No. 10-2014-0046161, a coating object 30 placed at the upper plane portion of the rotating property 5, A hinged door (not shown) formed at the center of a hand insertion hole 1 formed for separating or disposing the coating object 30 on the upper part of a rotating platform 5 and hinged to a rear upper end portion of the sealing device 20 9, the shingling door 9 is opened to place the coating object 30 on the upper plane of the platform 5 rotating at low speed based on the electric power motor, and the powder for electrostatic coating is applied to the coating object 30 The coating object 30 is not firmly fixed due to the movement of the coating air 30 due to the compressed air, and is sprayed onto the surface of the coating object 30 There is a problem that the electrostatic coating state is uneven .

KR-B1-10-0199463 KR-B1-10-0202519 Application No. 10-2014-0046161

The coated object 30 is placed on the upper plane of the fixed disk 10 rotating the coated object 30 and the coated object 30 is fixed on the wire 31. Therefore, The object of the present invention is to improve the quality of the electrostatic coating state uniformly by fixing the coating object (30) so as not to move when the electrostatic powder is sprayed toward the surface of the coated object (30).

Since the tension of the wire 31 is controlled by the other head machine 11 so as to keep the tension of the wire 31 constant while fixing the coated object 30 to the fixed disk 10, It is also aimed to fix it with a constant tension even in various cases

Since the circular grooves 21 are formed on the surface of the upper end of the fixed disk 10 at regular intervals with respect to the center of the fixed disk 10, the coated object 30 is positioned at the center of the fixed disk 10, In which the electrostatic powder coating is uniformly performed.

In addition, the wire 31 supporting the coated object 30 can use a wire having a small diameter, so that the sloped loss portion A can be reduced, so that it is easy to manually correct the damaged coating portion, The present invention has been made to solve the above problems.

A triangle (not shown) mounted on the outer circle of the original plate to fix the coating object 30 on the wire 31, in order to fix the coating object 30 on the upper plane of the stationary disk 10 rotating the coating object 30, A wire 31 passing through the fixing hole of a fixed column having a fixing hole at an upper portion thereof and a wire 31 having a length corresponding to the length of the wire 31 based on the turnbuckle 33 at one end of the wire 31 The tensile force is generated to fix the coated object 30 in a resilient manner, so that the coated surface of the coated object 30 has a uniform thickness of the coated powder 30.

Since the tension of the wire 31 is controlled by the other head machine 11 so as to keep the tension of the wire 31 constant while fixing the coated object 30 to the fixed disk 10, In various cases, it can be fixed with a constant tension,

Since the circular grooves 21 are formed on the surface of the upper end of the fixed disk 10 at regular intervals with respect to the center of the fixed disk 10, the coated object 30 is positioned at the center of the fixed disk 10, The electrostatic powder coating is uniformly performed.

The wire 31 supporting the coating object 30 can use a wire having a small diameter so that the sloped loss portion A can be reduced so that it is easy to manually correct the damaged coating portion and the efficiency of the correction is improved .

The coating object 30 is placed on the upper flat surface of the fixed circular plate 10 which rotates while the coated object 30 is fixed and the coated object 30 is fixed on the wire 31. Accordingly, When the electrostatic powder is sprayed toward the surface of the coated object 30 with air, the coated object 30 is processed so as not to move, thereby improving the quality of the electrostatic coated state evenly.

Since the tension of the wire 31 is controlled by the other head machine 11 so as to keep the tension of the wire 31 constant while fixing the coated object 30 to the fixed disk 10, In various cases, it has the effect of fixing with a constant tension.

Since the circular grooves 21 are formed on the surface of the upper end of the fixed disk 10 at regular intervals with respect to the center of the fixed disk 10, the coated object 30 is positioned at the center of the fixed disk 10, So that the electrostatic powder coating can be uniformly performed.

In addition, the wire 31 supporting the coated object 30 can use a wire having a small diameter, so that the sloped loss portion A can be reduced, so that it is easy to manually correct the damaged coating portion, There is an advantage to be improved.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a top perspective view of a wire-type coated object fixing apparatus according to the present invention. FIG.
2 is a bottom perspective view of a wire-type coated object fixing apparatus according to the present invention.
Fig. 3 is a photograph of the advantage of the wire of the wire-type coating material fixing device according to the present invention

The features and advantages of the present invention will become more apparent from the following detailed description taken in conjunction with the accompanying drawings. Prior to this, terms and words used in the present specification and claims are to be interpreted in accordance with the technical idea of the present invention based on the principle that the inventor can properly define the concept of the term in order to explain his invention in the best way. It must be interpreted in terms of meaning and concept.

Therefore, the embodiments described in this specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention and do not represent all the technical ideas of the present invention. Therefore, It is to be understood that equivalents and modifications are possible.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings.

Is mounted on the outer circle of the fixed disk so as to fix the coated object 30 on the wire 31 in order to fix the coated object 30 on the upper plane of the fixed disk 10 rotating the coated object 30 A triangle ring 13 and a wire 31 which is hooked at one end to the triangular ring 13 and a turnbark 33 which forms a tension in the tension forming part 15 of the wire 31 The length of the wire 31 is reduced so that a tensile force is generated and the coated object 30 is elastically fixed.

Since the tension of the wire 31 is controlled by the other head machine 11 so as to keep the tension of the wire 31 constant while fixing the coated object 30 to the fixed disk 10, The coated object 30 can be fixed to the fixed disk 10 with a constant tension,

Since the circular grooves 21 are formed on the surface of the upper end of the fixed disk 10 at regular intervals with respect to the center of the fixed disk 10, the coated object 30 is positioned at the center of the fixed disk 10, An electrostatic powder coating is uniformly applied to the surface.

A fixed disk 10 having a mounting protrusion 12 formed on a bottom surface thereof to be mounted on a turntable (not shown) mounted on an electrostatic powder coating apparatus (not shown), the fixed disk 10 being mounted on the turntable Not shown,

A triangular ring 13 formed on an outer circle of the fixed disk 10 and a fixed circular disk 10 on which the coated object 30 is supported by the wire 31; A hook 32 connected to one end of the wire 31 and a kick head machine 11 for constantly controlling the tension of the wire 31 while the hook 32 is hooked on the triangle 13 , The coating object 30 is fixed to the central portion of the stationary disk 10 by the kite head machine 11.

FIG. 3 shows the advantages of fixing the coated object 30 by the wire, and the wire 31 supporting the coated object 30 can use a wire having a small diameter, It is possible to easily correct the damaged coating portion manually, and the efficiency of the correction can be improved.

However, if a jig vise or a fixing jig other than a wire having a small diameter is used, the loss of the coating portion increases according to the size of the vise or the jig. Therefore, it takes much time and effort to correct the loss, There are disadvantages.

10; Fixed disk 11; Other head machines 12; Mounting projection
13; Triangular ring 15; A tension forming portion 21; Circular groove
30; Coating object 31; Wire 32; hook
33; Turnbuckle A; Loss portion

Claims (6)

A triangular ring 13 formed on an outer circle of the fixed disk 10 and a fixed circular disk 10 on which the coated object 30 is supported by the wire 31; Wherein a hook (32) connected to one end of the wire (31) and the hook (32) are hooked on the triangular ring (13). The method according to claim 1,
Since the circular groove 21 is formed on the surface of the upper end of the fixed disk 10 at regular intervals based on the central portion thereof, the coated object 30 is positioned at the center of the fixed disk 10, Characterized in that an electrostatic powder coating is uniformly applied to the wire-type object fixture.     The length of the wire 31 is reduced based on the wire 31 to which one end of the triangle 13 is hooked and the turnbuckle 33 that forms the tension in the tension forming portion 15 of the wire 31 And a tensile force is generated to elastically fix the coated object (30).       The tension of the wire 31 is controlled by the other head machine 11 so as to keep the tension of the wire 31 constant while fixing the coated object 30 to the fixed disk 10, Characterized in that the coated object (30) is fixed to the fixed disk (10) with a constant tension. The method according to claim 1,
A fixed disk 10 having a mounting protrusion 12 formed on a bottom surface thereof for mounting on a turntable (not shown) mounted on an electrostatic powder coating apparatus (not shown), the fixed disk 10 being mounted on the turntable Wherein said wire-type object fixture is mounted on said wire-type object fixture. The method according to claim 1,
The wire 31 supporting the coated object 30 can be of a small diameter, thereby reducing the sloped loss portion A, thereby easily correcting the damaged coating portion manually, and improving the efficiency of the correction Characterized in that it has the advantage that it is advantageous for the electrostatic powder coating.

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