KR101442773B1 - Coating apparatus for core - Google Patents

Abstract

The present invention relates to an insulation material coating apparatus for a core. An object of the present invention is to provide an insulation material coating apparatus for a core, which uses a coating apparatus having a specific structure on which a large number of cores can be installed, in order to quickly and stably adsorb an epoxy liquid used as an insulation material in a core manufacturing process, to the outer circumferential surface of a core. To this end, an insulation material coating apparatus for a core according to the present invention includes: an epoxy tank accommodating an insulation material for coating a core; a housing having a rectangular parallelepiped shape and including a recess in an upper surface thereof, wherein the epoxy tank is disposed in the recess; a plurality of seat protrusions disposed on the upper surface of the housing around the recess, wherein a fixing frame, to which a large number of cores are fixed, is placed on the seat protrusions; a vertical moving means that has an upper end on which the epoxy tank adjacent to the recess of the housing is placed, and that vertically reciprocates according to manipulation of an external handle so as to move the epoxy tank; and a vibration means that vibrates a body of the housing according to the driving of a motor caused by manipulation of a switch.

Description

      {COATING APPARATUS FOR CORE}

      The present invention relates to an insulating material coating apparatus for a core, and more particularly, to a core apparatus for coating an insulating material such as an epoxy liquid onto a peripheral surface of a core using a coating apparatus having a specific structure, To an insulating material coating apparatus.

      Generally, the armature core is formed by winding an electric coil on its outer circumferential surface and inducing an electromagnetic force by a current flowing through the electric coil. At the time of manufacturing the core, an insulating material such as an epoxy liquid is applied to the outer circumferential surface, .

      Here, as shown in FIG. 1, in the conventional core manufacturing process, the application of the insulating material to the outer circumferential surface of the core is performed by a bar having a plurality of cores 1 (about 25 in number) An insulating layer is formed on the outer circumferential surface of the core by repeatedly immersing the coated portion of the core 2 in the water tank 3 in which the insulating material such as an epoxy liquid is stored in a state where both ends of the holding member 2 are held .

      In the figure, reference numeral 4 denotes a diluting liquid water tank for immersing the core in a diluting liquid such as thinner before coating so that the insulating material can be more uniformly coated on the outer circumferential surface of the core 1.

      However, as described above, in the conventional process for manufacturing the core, the process of coating the insulating material is performed by hand, so that the insulating material is not uniformly applied to the outer circumferential surface of the core according to the skill of the operator. In addition, due to the nature of the manual operation, there is also a problem that the productivity is very low.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made to solve the above-mentioned problems occurring in the prior art, and it is an object of the present invention to provide a method of manufacturing a core using a coating apparatus having a specific structure, In which the epoxy liquid can be adsorbed on the outer surface of the core very quickly and stably.

     According to an aspect of the present invention, there is provided an insulating material coating apparatus for a core, the apparatus comprising: an epoxy tank containing an insulating material for coating a core; A rectangular parallelepiped-shaped housing having an upper surface on which an articulating groove in which the epoxy tie is located is formed; A plurality of seating protrusions provided on an upper surface of the housing around the concave groove and on which a fixed frame with a large number of cores fixed is seated; An upper and lower moving means which is mounted on an upper end of the epoxy trough provided on the recessed groove side of the housing and which reciprocates upward and downward according to an operation of an external handle to interlock the epoxy trough; And vibration means for applying vibration to the housing body in accordance with the motor driving according to the switch operation.

      Preferably, each of the seating projections is configured to be adjustable in its height through rotation of the nut.

      Preferably, the upper and lower conveying means includes a handle provided on a front surface of the housing, a rotary shaft passing through the front surface of the housing and having one end connected to the center of the handle, And a lower end portion of the rod member is coupled to the inner peripheral surface of the driven gear of the gear portion and the upper end portion of the rod member is engaged with the upper surface of the housing And a movable plate disposed on a side of the recess to penetrate the movable plate and a plate-shaped seating plate provided for seating an epoxy tank on an upper end of the moving rod, so as to prevent rotation of the seating plate, And a rotation preventive member for allowing the movable rod to move up and down via a thread .

      Preferably, the vibrating means includes a motor installed inside the housing and selectively driven in response to a switch operation, a belt connected to a rotation shaft of the motor and disposed along an upper end of an inner wall of the housing, And a plurality of pulleys arranged to guide the movement of the belt in accordance with the driving of the motor.

      In addition, a plurality of fitting grooves, into which bar fixing members having a plurality of cores fixed, are inserted and formed at predetermined intervals on both sides of the lower end of the fixed frame, And a flange that is seated and fixed to the seating protrusion on the upper surface of the housing is protruded and formed.

According to the present invention as described above, an epoxy liquid used as an insulating material in the production of a core can be coated on the outer circumferential surface of the core very quickly and efficiently by using a coating apparatus having a specific structure capable of mounting a large amount of cores There is an effect that can be done.

That is, as compared with a conventional method in which a worker grips a fixing member having approximately 24 cores fixed by hand and performs coating manually, approximately 25 fixing members are integrally fixed to the fixing frame, It is possible to improve the working efficiency up to about 25 times by performing the work through the coating apparatus of the present invention.

FIG. 1 is a view illustrating a process of coating an insulating material of a core through a conventional manual operation,
2 is a perspective view showing a state in which a large number of cores are mounted on a fixing frame applied to an insulating material coating apparatus for a core according to the present invention,
3 is a perspective view showing a structure of an insulating material coating apparatus for a core according to the present invention,
4 is an exploded perspective view showing a structure of an insulating material coating apparatus for a core according to the present invention,
5 is a front view showing a structure of an insulating material coating apparatus for a core according to the present invention,
6 is a plan view showing a configuration of an insulating material coating apparatus for a core according to the present invention,
7 is a front sectional view showing an operation state of an insulating material coating apparatus for a core according to the present invention.

Hereinafter, the present invention configured as described above will be described in detail with reference to the accompanying drawings.

FIG. 2 is a perspective view showing a state in which a large number of cores are mounted on a fixing frame applied to an insulating material coating apparatus for a core according to the present invention, FIG. 3 is a perspective view showing the construction of an insulating material coating apparatus for a core according to the present invention, FIG. 5 is a front view showing the construction of an insulating material coating apparatus for a core according to the present invention, and FIG. 6 is a front view showing an insulation material coating apparatus for a core according to the present invention. FIG. 7 is a front sectional view showing an operation state of an insulating material coating apparatus for a core according to the present invention. FIG.

The apparatus for coating an insulating material of a core according to the present invention is characterized in that a coating apparatus having a specific structure is used in a state where a plurality of fixing members 92 to which a large amount of cores 90 are fixed are mounted on a fixing frame 80, It is possible to apply the epoxy liquid used as the insulating material to the outer peripheral surface thereof very efficiently.

The insulating material coating apparatus for a core according to the present invention may be constructed such that a fixing frame 80 having a specific structure is selectively mounted to rapidly apply an insulating material to a large amount of core 90 fixed via the fixing frame 80 .

2, the fixing frame 80 is formed in a substantially rectangular box shape, and a fixing member 92 in the form of a bar having a plurality of cores 90 fixed to the lower ends thereof is inserted And a flange 82 is formed at a predetermined position of the insulating material coating apparatus along the lower portion of the outer surface of the fixing frame 80 As shown in Fig.

The epoxy tank 70, which is fixed on the upper surface of the coating apparatus in a state where an insulating material such as epoxy applied to a large amount of the core 90 fixed to the fixed frame 80 is accommodated, So as to have a substantially rectangular parallelepiped shape with its top surface opened.

      The coating apparatus for applying the insulating material to a large amount of the core 90 fixed to the fixed frame 80 according to the present invention is characterized in that the coating apparatus has a rectangular shape corresponding to the epoxy coating 70, A rectangular parallelepiped shaped housing 10 having an inlet 12 is formed on the upper surface of the housing 10 and a plurality of cores 90 are fixed around the fitting groove 12 corresponding to the upper surface of the housing 10 And a plurality of mounting protrusions 20 are formed so that the flange 82 is seated.

       At this time, each of the seating projections 20 is configured to adjust the height thereof by rotating the nut 22, so that the fixing frame 80 seated on the upper end thereof can be aligned.

The housing 10 is provided with an upward / downward moving means having a specific structure for causing the epoxy tank 70, which is seated in the concave groove 12 through the operation of an outer handle 30, to reciprocate upward and downward, And a vibrating means of a specific structure for vibrating the body of the housing 10 by driving the motor 60 according to the operation of the switch 66.

      The handle 30 is provided on the front surface of the housing 10 and the rotary shaft 32 of the handle 30 is fixed to the bearing 10 in a state of passing through the front surface of the housing 10, And a pair of rotating shaft fixing members 36 including the rotating shaft fixing members 36a.

      A gear portion 34 made of a bevel gear is provided at the center of the ceiling of the housing 10. The end of the rotating shaft 32 is fixedly coupled to the driving gear 34a constituting the bevel gear, The driven gear 34b meshing with the driving gear 34a is formed with a moving rod 40, which is a rod member formed with threads on the lower outer circumferential surface thereof.

      That is, the moving rod 40 is screwed to the inner circumferential surface of the driven gear 34b of the gear portion 34, the lower end of which is formed with threads, passes through the upper surface of the housing 10, The mounting plate 42 and the moving bar 40 are formed at one side of the lower surface of the mounting plate 42. The mounting plate 42 is fixed to the mounting plate 42, Shaped anti-rotation member 50 having a predetermined length for preventing rotation of the housing 10 is fixedly installed in a state of passing through the upper surface of the housing 10.

      Reference numeral 44 denotes a driven gear fixing member including a bearing to which the driven gear 34b constituting the gear portion is fixed.

      The rotating shaft 32 is rotated by the operation of the handle 30 and acts on the moving rod 40 via the gear 34 formed of a bevel gear. It is possible to move upward and downward through the outer peripheral surface of the moving rod 40 and the inner peripheral surface of the driven gear 34b while preventing rotation through the seating plate 42 and the rotation preventing member 50. [

      In the structure of the vibration means, a motor 60, which generates vibration by being selectively driven according to an operation of an external switch 66, is fixedly installed in the housing 10, and a ceiling edge portion And a belt 62 is connected to the rotating shaft of the motor 60 and the pulley 64 so as to be disposed along the upper end of the inner wall of the housing 10. [

      The driving force of the motor 60 according to the operation of the switch 66 is transmitted to the belt 62 connected to the rotation shaft and the belt 62 is moved via the pulley 64. At this time, The vibration is transmitted to the body of the housing 10 through the pulley 64 when the belt 62 is driven by the driving of the belt 60.

At this time, it is preferable that the motor 60 is configured to be able to control its intensity through a vibration control unit 68 provided on the front side of the housing 10. [

Next, the operation of the present invention as described above will be described in detail with reference to the drawings.

In order to apply a large amount of epoxy to the core 90 through the insulating material coating apparatus of the core according to the present invention, first, a plurality of (about 24) cores 90 are fixed to form a bar shape And fixes the fixing member 92 having a rectangular shape to the fixed frame 80 firmly.

At this time, a plurality of (about 25) fixing members 90 are mounted on the fitting groove 84 of the fixing frame 80 to form an integral body.

When a large amount of the core 90 is mounted on the fixed frame 80, a pretreatment operation (not shown) for applying a thinner such as thinner to the core 90 of the fixed frame 80 is performed, Is mounted on the plurality of mounting projections 20 provided on the upper surface of the housing 10 of the insulating material coating apparatus.

At this time, the fixing frame 80 maintains a state of being spaced apart from the epoxy tank 70 provided at a lower portion thereof in a state where a large amount of the cores 90 are seated downward.

Thereafter, in applying the insulating material contained in the epoxy tank 70 to the core 90 side, the worker rotates the handle 30 located on the front surface of the housing 10 in one direction, 30 is transmitted to the moving rod 40 screwed to the driven gear 34b via the driving gear 34a and the driven gear 34b of the gear portion 34 At this time, since the moving rod 40 is installed to prevent rotation by the rotation preventing member 50 provided on the seating plate 42, the rotational force acts in an upward direction via a thread.

As the movable rod 40 moves upward, the epoxy tank 70 mounted on the seating plate 42 and the seating plate 42 is simultaneously elevated by a predetermined height, A large amount of the core 90 mounted on the epoxy tank 70 is automatically immersed in the insulating material contained in the rising epoxy tank 70 to be coated.

Likewise, as the handle 30 is operated in the opposite direction, the rotational force acts as a force to lower the moving rod 40 through the gear portion 34. Accordingly, the operator can move the handle 30 in the one direction and the reverse direction So that it is possible to smoothly coat the core 90 with the insulating material while raising and lowering the epoxy tank 70 by a predetermined height.

      The belt 60 connected to the motor 60 is driven by the pulley 64 so that the belt 60 connected to the motor 60 is rotated by operating the switch 66 simultaneously with the operation of the handle 30 to drive the motor 60 in the housing 10. [ And the vibration is transmitted to the epoxy tank 70 side to impart motility in the front, rear, left, and right directions, and the core 90, it is possible to suppress the generation of bubbles and to facilitate the adsorption between a large amount of the cores 90.

Therefore, the insulating material coating apparatus of the core according to the present invention can rapidly and smoothly apply an insulating material such as an epoxy liquid to a large amount of the core 90 mounted on the fixed frame 80.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the scope of the appended claims.

10: housing, 12: concave groove,
20: seat projection, 22: nut,
30: handle, 32: rotating shaft,
34: gear portion, 34a: drive gear,
34b: driven gear, 36: rotary shaft fixing member,
36a: bearing, 40: moving rod,
42: seat plate, 44: driven gear fixing member,
50: rotation preventing member, 60: motor,
62: Belt, 64: Pulley,
66: switch, 68: vibration control part,
70: epoxy group, 80: fixed frame,
82: flange, 84: fitting groove,
90: core, 92: fixing member.

Claims (5)

An epoxy assembly containing an insulating material for coating the core;
A rectangular parallelepiped-shaped housing having an upper surface on which an articulating groove in which the epoxy tie is located is formed;
A plurality of seating protrusions provided on an upper surface of the housing around the concave groove and on which a fixed frame with a large number of cores fixed is seated;
An upper and lower moving means which is mounted on an upper end of the epoxy trough provided on the recessed groove side of the housing and which reciprocates upward and downward according to an operation of an external handle to interlock the epoxy trough;
A plurality of belts which are provided on the ceiling of the housing to provide vibration to the housing body in accordance with a motor operation in response to the switch operation, the belts being connected to a rotation shaft of the motor and disposed along an upper end of an inner wall of the housing; And a vibration means including a pulley for guiding movement of the belt in accordance with the driving of the motor. The method according to claim 1,
Wherein each of the seating protrusions is configured to be adjustable in its height through a rotation operation of a nut. The method according to claim 1,
Wherein the upper and lower conveying means comprises:
A handle provided on a front surface of the housing,
A rotating shaft passing through the front surface of the housing and having one end connected to the center of the handle,
A gear portion including a drive gear fixedly connected to the other end of the rotary shaft and interlocking with the drive gear,
A moving rod whose lower end portion is coupled to the inner peripheral surface of the driven gear of the gear portion and whose upper end side passes through the upper surface of the housing and is positioned on the recessed groove side,
The movable plate is provided on one side of a panel-shaped seating plate provided for seating an epoxy tank on the upper end of the moving rod, so that rotation of the seating plate acts to prevent the moving rod from moving upward and downward via a thread And an anti-rotation member provided on the core. delete The method according to claim 1,
The fixing frame is formed in a rectangular frame shape. A plurality of fitting grooves are formed at both sides of the lower end of the fixing frame. The fixing grooves are fixed at a predetermined interval. And a flange protruding from and fixed to the upper surface mounting protrusion is protruded.

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