KR101818965B1 - Jig machine of forming apparatus of induction - Google Patents

Abstract

The present invention relates to a jig device of an induction molding device, comprising: an upper frame; a lower frame; and a vertical frame installed between the upper and lower frames to support the upper and lower frames. A plurality of mounting grooves are formed on an upper surface of the lower frame in the lateral direction of the lower frame at predetermined intervals in order to mount the induction molding device having an opened upper part, a rotating plate is installed in one end of the lower frame, and a plurality of mounting plates protrude from an upper surface of the rotating plate in the circumferential direction at predetermined intervals, thereby mounting a round rod inserted into the induction molding device on the mounting plates. As such the round rod is automatically inserted and mounted into the induction molding device, thereby providing remarkable effects capable of facilitating a work, enhancing productivity, and accordingly, reducing manufacturing costs due to reduction of personnel expenses.

Description

Jig machine of forming apparatus of induction [

The present invention relates to an induction molding machine jig device, and more particularly, to a jig device comprising means for fixing an induction molding machine, and means for inserting a cylindrical container having a coil tube therein inside the induction molding machine And is capable of automatically inserting the cylindrical container into the interior of the induction molding machine.

Induction is a term used to refer to electromagnetic induction. It refers to a phenomenon in which a potential difference occurs in a conductor where a magnetic field is changed. This principle is also applied to an induction range or an induction boiler.

Generally, according to the induction cooking apparatus for an induction range of Patent Publication No. 1231490, induction range is such that when a current is supplied to an induction heating coil under a ceramic upper plate, a very high frequency is generated, And a magnetic field generated by the magnetic force is induced to heat the metal body within the range of the magnetic field.

In the prior art of the range in which the principle of the induction is applied, in a cooking vessel for an induction range of upper and lower ranges or gravity casting, a hot sprue for injecting molten aluminum at the center is formed, ; A conductor fixed by the heat resistant magnet; And a low-pressure casting device for injecting molten aluminum through the sprue, wherein the low-pressure casting device comprises: a tank installed below the die casting or gravity die and storing molten aluminum on the outside; A heating unit for maintaining the temperature of the melt in the tank; A compressor installed at an upper end of one side of the tank to inject high-pressure air pressure to inject molten aluminum into the mold; An induction pipe for transferring the molten aluminum rising in the pressure from the compressor into the mold; A cooler installed between the induction pipe and the mold; And a control unit for stopping the operation of the compressor when the molten aluminum flowing through the induction pipe is injected into the mold and activating the cooler to harden the aluminum. The induction cooking apparatus of claim 1, It is public.

Another prior art is disclosed in Japanese Patent Application Laid-Open No. 2016-0028909, which includes a heater; A knob removably attachable to a knob area provided on one surface of the main body; A touch sensor formed at a periphery of the knob area and touching a protrusion provided on a lower side of the knob when the knob is attached; And a control unit for determining the degree of rotation of the knob according to a touch position touched by the protrusion and adjusting the temperature of the heater when the knob is rotated in a state where the knob is attached to the knob area, have.

On the other hand, an induction boiler using the principle of induction moves water while it vibrates and rotates when it passes through a tube inducing a magnetic induction (induction), and when a narrow and irregular surface flows continuously, rotation and vibration are accelerated and heat energy is generated It is an indirect heating type boiler that raises the water temperature.

A first embodiment of the prior art of the induction boiler is disclosed in Patent Publication No. 0762951, which has a water storage chamber in which water is allowed to flow in and out of the circumference, and both ends of the water storage chamber, A cylindrical outer shell which surrounds the first cylindrical body and has both ends opened to form the water storage chamber between the outer cylindrical body and the outer cylindrical body; Wherein the outer circumferential surface of the outer shell abuts on the first flanges protruded from the upper and lower ends of the first susceptor, and the metal is formed between the first flanges and the outer circumferential surface of the outer shell, Cylindrical body; And a first magnetic field inducing means provided on an inner circumferential surface of the cylindrical body to apply heat to the water storage chamber, wherein the water stored in the water storage chamber is a magnetic field induced by the first magnetic field guiding means And the heater is heated to a predetermined temperature by heat generated in response to the temperature of the induction boiler.

A second embodiment of the prior art is an induction boiler using a magnetic field in Japanese Laid-Open Patent Publication No. 2015-0135929, comprising: a main body; Wherein the main body includes a heater unit protective cover having a pipe inserting passage formed therein for inserting a heating body pipe therein; an inner tube wrapped around an outer surface of the insulating coil on the inner surface of the heater unit protective cover; Upper and lower spacers formed on upper and lower portions of the inner tube to form a gap therebetween; And a terminal for supplying power to the insulation coil is formed on the upper portion of the interval maintaining portion. An upper cover formed on an upper portion of the control unit; And a heating body pipe fixing part is formed on the upper part or the upper / lower part so as to fix the heating body pipe.

In the third embodiment of the prior art, the inner pipe 100 is passed through the No. 1418924, and the outer surface of the inner pipe is formed so as to surround the induction coil wound with the layered layer and the induction coil, A heater part formed of an outer pipe filled with the outer pipe; An upper porous finishing plate and a lower porous finishing plate, the upper porous finishing plate and the lower porous finishing plate being inserted into the upper porous finishing plate and the lower finishing finger plate, respectively, so as to fix and align the heater units in a row or in multiple rows; A heater installed in a through hole formed in a publicly known fingerboard to form a lower collector pipe having a fluid inlet to which fluid is introduced and an upper collector pipe having a fluid outlet through which heated fluid is discharged, Supply plate; A lower first collecting part formed at a front of the first heater part and a lower part collecting part formed at a lower part of the lower part of the upper collecting part, An upper first partition having a first electromagnetic opening and closing part formed behind the first heater part of the water tube; A lower second partition having a second electromagnetic opening and closing part formed in front of the second heater part in the lower collector pipe and an upper second partition formed in the rear of the second heater part in the upper collector pipe; A lower third partition formed in the lower collecting pipe in the front of the third heater and a third partition formed in the upper collecting pipe in the rear of the third heater to form a fourth electromagnetic opening / And an induction functional boiler using electrical energy is disclosed in which a wheel is formed so as to be movable in the main body.

However, most of the conventional induction boilers have a disadvantage in that it is very difficult to assemble or form the induction boiler because a coil is used as a magnetic field inducing means and no jig is provided.

SUMMARY OF THE INVENTION It is an object of the present invention to provide an induction molding machine jig device for manufacturing an induction coil which is easy to assemble and mold.

The induction molding machine jig apparatus includes an upper frame and a lower frame, and a vertical frame installed between the upper frame and the lower frame to support the upper frame and the lower frame. A plurality of seating grooves are formed at predetermined intervals along the longitudinal direction of the lower frame so as to be seated therebetween, wherein a rotary plate is provided at one end of the lower frame, And a cylindrical container inserted into the induction molding machine is seated on the seating plate.

As described above, the induction molding machine jig device of the present invention can automatically insert a round bar into the molding machine of the induction so that the work can be easily performed, thereby increasing the productivity, and also reducing the production cost due to the reduction in labor costs And the like.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an operational state view of a jig device of an induction molding machine according to the present invention;
2 is a photograph of the induction molding machine jig device of the present invention.
3 is a partial photograph of the jig device of the induction molding machine of the present invention.
4 is a photograph of an induction molding machine of the present invention.
5 is a sectional schematic view of the induction molding machine of the present invention.
6 is an outline view of an induction inserted into the induction molding machine of the present invention.
7 is a perspective view showing a coil pipe of an induction inserted into the induction molding machine of the present invention.
8 is a detailed view of a part of the induction coil tube of the present invention.
9 is a view showing the state of use of the induction molding machine of the present invention.

The induction molding machine jig apparatus 300 includes an upper frame 310 and a lower frame 320 and a lower frame 320 installed between the upper frame 310 and the lower frame 320 to support the upper frame 310 and the lower frame 320 A plurality of seating grooves 321 are formed in the left and right longitudinal direction of the lower frame 320 so that the induction molding machine 100 having the upper opening is seated on the upper surface of the lower frame 320. [ A plurality of seating blocks 341 are formed on the upper surface of the rotating plate 340 along the circumferential direction at a predetermined interval so as to be spaced apart from each other by a predetermined distance. And the cylindrical container 210 to be inserted into the induction molding machine 100 is seated on the seating table 341.

The upper frame 310 is provided with a conveying means 350 for linearly moving along the longitudinal direction of the upper frame 310. The conveying means 350 grips the cylindrical container 210 to form the induction molding machine 100, And a gripper 360 for inserting the gripper 360 through an upper portion of the gripper 360 is provided.

The induction molding machine 100 includes a double pipe-shaped housing 110 formed of a cylindrical bracket 140 inserted in the interior space 112 and an external space 113, And an upper cap 120 fastened to the upper portion of the housing 110. The side surface of the housing 110 is provided with an air inlet 111) are formed.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the induction molding machine jig apparatus of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a view showing an operation state of the induction molding machine jig apparatus of the present invention, FIG. 2 is a photograph of the induction molding machine jig apparatus of the present invention, and FIG. 3 is a photograph of a part of the induction molding machine jig apparatus of the present invention.

1 to 3, the present invention relates to an induction molding machine jig apparatus 300, which includes an upper frame 310 and a lower frame 320, and a lower frame 320 installed between the upper frame 310 and the lower frame 320, And a vertical frame 330 supporting the upper frame 310 and the lower frame 320.

The upper frame 310 and the lower frame 320 are formed in the shape of a plate having a length in the left and right direction and an upper frame 310 is formed between the upper frame 310 and the lower frame 320, And the vertical frame 330 is coupled to the upper portion of the vertical frame 330.

A plurality of seating grooves 321 are formed on the upper surface of the lower frame 320 so as to be spaced along the longitudinal direction of the lower frame 320 so that the induction molding machine 100 having the upper opening is seated. A rotary plate 340 is installed at one end of the lower frame 320.

A plurality of seat belts 341 are protruded from the upper surface of the rotary plate 340 at predetermined intervals along the circumferential direction.

A cylindrical container 210, which is inserted into the induction molding machine 100, is seated on the seating table 341.

The upper frame 310 is provided with a conveying unit 350 that linearly moves along the longitudinal direction of the upper frame 310 and grips the cylindrical container 210 on the conveying unit 350 to be connected to the induction molding machine 100 And a gripper 360 for inserting the gripper 360 through an upper portion of the gripper 360.

Therefore, any one of the plurality of cylindrical containers 210 seated on the upper surface of the rotary plate 340 is gripped as the gripper 360. The gripper 360 is moved on the upper surface by the conveying means 350, The container 210 is stopped at the upper portion of the molding machine 100 to be inserted and the gripper 360 is lowered to insert the cylindrical container 210 into the upper portion of the molding machine 100.

After the cylindrical container 210 is inserted, the gripper 360 is moved up by the conveying means 350 in order to grip another cylindrical container 210 which is seated on the rotary plate 340.

Means for conveying the conveying means 350 and means for rotating the rotary plate 340 to place the cylindrical container 210 under the gripper 360 are well known and are not described in detail.

FIG. 4 is a photograph of the induction molding machine of the present invention, and FIG. 5 is a sectional schematic view of the induction molding machine of the present invention.

4 and 5, the induction molding machine 100 according to the present invention includes a housing 110 having a double pipe structure including an inner space 112 and an outer space 113, A base cap 130 to be fastened and an upper cap 120 fastened to the upper portion of the housing 110.

Particularly, when the cylindrical bracket 140 is inserted into the housing 110, the inside of the housing 110 is divided into the inner space 112 and the outer space 113 by the cylindrical bracket 140 do.

That is, the outer diameter of the cylindrical bracket 140 is smaller than the inner diameter of the housing 110, so that the housing 110 can be separated from the inner space 112 and the outer space 113 by the cylindrical bracket 140 The cylindrical bracket 140 is preferably positioned on the inner circumference of the housing 110 on the concentric circle of the housing 110.

A plurality of holes 141 are formed in the outer circumferential surface of the cylindrical bracket 140.

The base cap 130 is formed with an entrance 131 for introducing or discharging cooling water into the interior of the container 210 inserted into the internal space 112 of the housing 110, And an air inlet 111 for evacuating the external space 113 is formed on the side surface.

The inlet port 131 may be formed separately from the through hole means for flowing the cooling water into the inner space portion 112 of the housing 110 and the through hole means for discharging the cooling water.

The upper and lower ends of the rubber 230 are inserted into the upper and lower ends of the upper and lower caps 120 and 130, respectively, ).

The induction 200 is formed by inserting the cylindrical container 210 into the hollow hole of the rubber 230 and fastening it with the hollow rubber 230 which is already inserted into the cylindrical bracket 140.

The rubber 230 can be made of both natural rubber and synthetic rubber. Particularly, vulcanized rubber or EPDM is used.

The relationship in which the cooling water moves to the inside of the container 210 mounted inside the cylindrical bracket 140 and the relationship in which the induction 200 is formed will be described in detail below.

The method of fastening the housing 110, the upper cap 120, the base cap 130, and the cylindrical bracket 140 is well known in the art, and a detailed description thereof has been omitted.

FIG. 6 is an outline view of an induction inserted into the induction molding machine of the present invention, FIG. 7 is a perspective view showing a coil tube of an induction inserted into the induction molding machine of the present invention, and FIG. 8 is a detail view of a part of the induction coil tube of the present invention .

As shown in FIG. 6, an induction 200 to be molded by the induction molding machine 100 of the present invention includes a cylindrical container 210 having an opening at a lower portion thereof, A synthetic resin 240 filled in the cylindrical tube 210 to fix the coil tube 220 to the inside of the cylindrical tube 210 and a cylindrical tube 210 that surrounds the outer circumference of the cylindrical tube 210 And a rubber (230).

That is, after the coin tube 220 is inserted through the lower side opening of the cylindrical container 210, the inside of the cylindrical container 210 is filled with synthetic resin so that the coin tube 220 is inserted into the cylindrical container 210 .

The synthetic resin is made of an epoxy resin.

Epoxy resins are resistant to water and weather changes, have fast curing properties, and have a strong adhesive strength.

The rubber 230 mounted on the outer periphery of the cylindrical container 210 is hollow and inserted into the molding machine 100 as described above and then adhered to the outer periphery of the cylindrical container 210.

In particular, as shown in FIG. 7, the coin tube 220 is a coil spring-shaped hollow tube that allows fluid to flow therein, and is made of a metal material so that electricity can flow through the surface of the hollow tube.

The coin tube 220 uses copper in consideration of corrosiveness and electrical conductivity.

When a vertical cross-sectional shape of the coin pipe 220 is formed in a rectangular shape and electric power is applied to the surface of the coin pipe 220, a gap between the horizontal surfaces of the coin pipes 220 stacked in the vertical direction, Since the vertical surfaces of all the coils 220 are all located on the same vertical line, the electric force applied to the inner central direction of the coils 220 and to the outside becomes uniform, The temperature difference was within 6 ° C.

On the other hand, the coils 220 are arranged such that the coil spacing becomes wider from the upper and lower ends toward the middle portion.

The coil spacing at both ends is preferably about 0.2 to 8 cm.

This is because the upper and lower ends of the coin tube 220 have many fastenings between different structures, so that more magnetic field can be generated as compared with the middle portion, so that faster and higher induction heating can be achieved.

The spacing of the coils 220 differs from the size (length, diameter) of the induction, but the widening of the coil gap from the upper and lower ends to the middle portion does not change.

The coil tube 220 may have a circular shape depending on the situation.

9 is a view showing the state of use of the induction molding machine of the present invention.

First, a rubber 230 in the form of a hollow body is inserted into a cylindrical bracket 140 mounted in the housing 110 of the induction molding machine 100 to fix the upper and lower ends, respectively, and then the cylindrical bracket 140 So that the hollow rubber 230 adheres to the inner surface of the cylindrical bracket 140.

In order to smoothly insert the cylindrical container 210 into which the coil tube 220 is inserted, the air is sucked through the air inlet 111 formed at one side of the housing 110 to the outside space of the cylindrical bracket 140 A plurality of holes 141 are formed in the outer periphery of the cylindrical bracket 140 so as to pass through the inner and outer portions of the cylindrical bracket 140. Therefore, 230 are attached to the inner periphery of the cylindrical bracket 140.

After the cylindrical container 210 is inserted into the hole 230 of the hollow cylindrical body 230, the vacuum state is released from the outer space of the cylindrical bracket 140, The rubber 230 is adhered to the outer periphery of the cylindrical container 210.

At this time, the inner pressure of the cylindrical bracket 140 is gradually increased from a low pressure to a high pressure so that the rubber 230 in the shape of a hollow body can be uniformly attached to the outer circumference of the cylindrical container 210.

The cold hearth W is supplied to the hollow hole of the coin tube 220, and current is conducted to the metal surface.

Low pressure is 10kg / cm ² sorry, high pressure is such that as between the 10~30kg / cm ^2, the low pressure and high pressure are applied to different time depending on the nature of the rubber to each other, integrated 1 hour pressure.

If the pressure exceeds 30 kg / cm ² , the rubber 230 may be deformed or broken.

That is, the surface temperature of the cylindrical container 210 is heated to maintain the surface temperature at 150 to 200 deg. C, while the surface temperature is within 6 deg. C by energizing the coin tube 220, Using distilled water to prevent scaling from occurring in the interior of the coin tube (220).

The coin tube 220 is made of a copper tube having a diameter of 0.2 to 0.4 mm, and a current of 0 to 50 A is allowed to flow for about one hour.

This is for the purpose of improving the characteristics of the rubber 230 surrounding the outer circumference of the cylindrical container 210 so that the surface of the molded rubber is constantly vulcanized so that the tensile strength or the like becomes constant.

As described above, the induction molding machine jig device of the present invention can automatically insert a round bar into the molding machine of the induction so that the work can be easily performed, thereby increasing the productivity, and also reducing the production cost due to the reduction in labor costs And the like.

100. Molding machine
110. Housing 111. Air inlet
112. Internal space part 113. External space part
120. Upper cap
130. Base cap 131. Doorway
140. Cylindrical bracket 141. Hole
200. Induction
210. Cylindrical vessel 220. Coil tube 230. Rubber
240. Synthetic resin
300. The jig device
310. Upper frame
320. Lower frame 321. Seat groove
330. Vertical frame
340. Rotating plate 341. Seat
350. Transfer means
360. Gripper
S. Safety valve T. Temperature sensor W. Coolant

Claims (3)

And a vertical frame 330 installed between the upper frame 310 and the lower frame 320 to support the upper frame 310 and the lower frame 320, A plurality of seating grooves 321 are formed on the upper surface of the lower frame 320 so as to be spaced along the longitudinal direction of the lower frame 320 so that the induction molding machine 100 having the upper opening is seated, A rotary plate 340 is provided at one end of the lower frame 320. A plurality of seat belts 341 are protruded from the upper surface of the rotary plate 340 along the circumferential direction at a predetermined interval, 341 is provided with a cylindrical container 210 to be inserted into the induction molding machine 100,
The upper frame 310 is provided with a conveying unit 350 that linearly moves along the longitudinal direction of the upper frame 310 and the conveying unit 350 grips the cylindrical container 210, And a gripper 360 for inserting the gripper 360 through the upper portion is provided.
Any one of the plurality of cylindrical containers 210 seated on the upper surface of the rotary plate 340 is gripped as a gripper 360. The gripper 360 is moved on the upper surface by the conveying means 350, The gripper 360 is lowered to insert the cylindrical container 210 into the upper portion of the molding machine 100,
When the cylindrical container 210 is inserted, the gripper 360 is moved up by the conveying means 350 to grip another cylindrical container 210 which is seated on the rotary plate 340,
The induction molding machine 100 includes a double pipe-shaped housing 110 formed of a cylindrical bracket 140 inserted in the interior space portion 112 and an external space portion 113, And an upper cap 120 fastened to the upper portion of the housing 110. The side surface of the housing 110 has an air inlet 111 for evacuating the external space 113, Respectively,
The outer diameter of the cylindrical bracket 140 is smaller than the inner diameter of the housing 110 so that the housing 110 is divided into the inner space 112 and the outer space 113 by the cylindrical bracket 140 The cylindrical bracket 140 is located on the concentric circle of the housing 110 inside the housing 110,
The base cap 130 is formed with an entrance 131 for introducing or discharging cooling water into the interior of the container 210 inserted into the internal space 112 of the housing 110, And a plurality of holes (141) are formed in the outer circumferential surface.
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