KR100214220B1 - Manufacture for yoke soldering of crt - Google Patents

Abstract

The present invention automates the process of the soldering operation of the terminal plate of the deflection yoke, and includes a plurality of fixed chucks (3) and the turntable (2) that are equiangularly and radially mounted on the turntable (2) and the turntable (2). Insertion of the deflection yoke 10 radially and equilaterally at the same angle and direction as the fixed chuck 3 provided on the rotary table 2 on the outer side of the circumferential surface, take-out part 4, flux part 5, and preheating part ( 6) Automated deflection yoke terminal soldering work process by means of a programmed deflection yoke salting device (1) having a soldering ring (7) and an inverting unit (8) to reduce labor It can reduce the waste of manpower and maximize production cost reduction and productivity improvement by reducing work space.

Description

Deflection York Solder Ring Automation Process

The present invention relates to a soldering operation process of the terminal plate of the deflection yoke, in particular a deflection yoke salt ring to enable the automation of the solder ring, such as terminals and coils mounted on the deflection yoke to improve productivity and reduce production costs It relates to an automated process.

In general, a plurality of components, such as a coil and a terminal plate, are mounted in a coil space, and each terminal, an electric wire, and a coil are connected to a circuit configuration of the deflection yoke.

In this case, the coupling between the coil and the terminal, the wire and the terminal is made by soldering, and the parts to be soldered such as the terminal and the coil, the terminal and the wire of the deflection yoke are distributed in various parts of the deflection yoke, It goes through the ring process.

In the prior art, the soldering process of the terminal plate circuit of the deflection yoke is performed in multiple stages by the soldering operation by a plurality of workers, or the soldering operation of the terminal plate of the deflection yoke through multiple repeated soldering operations to a single worker.

Since the conventional deflection yoke terminal plate soldering work process is performed by the multi-stage worker by the multi-stage worker, a work space and equipment for multi-stage workers can be required. As a result of the soldering operation, there is a problem such as increased workmanship and impede productivity.

Therefore, the present invention has been made in order to solve the above problems, the object of the deflection yoke is to improve the productivity and reduce the production cost by automating the soldering work process of the pin-hyang yoke by a programmed machine To provide a ring automation process.

1 is a plan view showing the structure of the deflection yoke soldering device of the present invention

* Explanation of symbols for main parts of the drawings

1: deflection yoke soldering device 2: rotary table

3: fixed chuck 4: insertion take-out part

5 flux part 6 preheating part

7: solder ring 8: inverting

10: deflection yoke

In order to achieve the above object, the present invention provides a plurality of fixed chucks that are equiangularly and radially disposed on the rotary table and the rotary table, and radially and equilaterally at the same angle and direction as the fixed chucks installed on the rotary table outside the circumferential surface of the rotary table. Automated deflection yoke terminal soldering process by means of programmed deflection yoke soldering device equipped with installed deflection yoke insertion, ejection part, flux part, preheating part, solder ring part, and reversing part. do.

When described in detail with reference to the accompanying drawings an embodiment of the present invention configured as described above are as follows.

1 is a plan view of a deflection yoke salting device 1 according to the invention.

As shown in Fig. 1, the deflection yoke salting device 1 is provided with a plurality of fixed chucks 3 on the top surface of the rotary table 2 in a conformal and radial manner.

On the outer side of the circumferential surface of the rotary table (2) is inserted at right angles and radially in the same angle and direction as the fixed chuck (3) installed on the rotary table (2). The take-out part 4, the flux part 5, the preheat part 6, the soldering part 7, the inversion part 8, the flux part 5, the preheat part 6, and the soldering part 7 sequentially Is installed.

Each insert above. The take-out part 4, the flux part 5, the preheat part 6, the solder ring part 7, the inversion part 8, the flux part 5, the preheat part 6, and the solder ring part 7 are inserted and taken out. Machine, flux applicator, heater, solder, rotary chuck, flux applicator, heater, and solder, respectively.

Automated deflection yoke salting work process by the deflection yoke salting device 1 configured as described above, the working process of the deflection yoke salting device 1 of the present invention and the effects thereof are as follows.

The deflection yoke (10) of the deflection yoke soldering device (1) of the present invention is the initial insertion of the deflection yoke (10). The deflection yoke 10 is inserted into the fixed chuck 3 provided on the circumference of the rotary table 2 at the take-out part, and the rotary table 2 is divided by the angle of division of the fixed chuck 3 mounted on the rotary table 2. Rotate intermittently in one direction.

When the rotary table 2 stops momentarily, the deflection yoke 10 is inserted and taken out 4 repeatedly and repeatedly disengages and inserts the deflection yoke 10 into the fixed chuck 3.

The deflection yoke 10 inserted into the fixed chuck 3 mounted on the rotary table 2 temporarily stays in the next water flow part 5, which is the next process by the intermittent rotation of the rotary table 2, and at this time the deflection yoke (10) Flux is applied to the solder ring of the terminal plate.

Again, the rotary table 2 rotates intermittently, and the deflection yoke 10 located in the flux part 5 is located in the preheating part 6.

In the preheating unit 6, the shielding part of the deflection yoke 10 terminal plate is preheated by the heater.

Again, the deflection yoke 10 bite by the fixed table 3 of the rotary table 2 that has passed through the preheating portion 6 by the intermittent rotation of the rotary table 2 is temporarily held in the sole ring portion 7. In addition, the terminal portion of the upper side of the deflection yoke 10 terminal plate is soldered by the solder ring 7.

The deflection yoke 10, which has passed through the sole ring portion 7 by intermittent rotation of the rotary table 2, is positioned in the inversion portion 8, and in the inversion portion 8, the deflection yoke is bitten by the fixed chuck 3. Rotate (10) 180 degrees to reverse the direction of the deflection yoke 10 terminal plate.

The rotating table 2 rotates intermittently again, and the deflection yoke 10 passing through the inverting section 8 is located in the flux section 5, and flux is applied by the flux applicator in the flux section 5. .

The deflection yoke 10 having passed through the flux portion 5 passes through the preheating portion 6 and the soldering portion 7 again by the continuous action of continuous rotation and pause of the rotary table 2, and the rotation When the complete one turn of the table 2 is made, the soldering work process of the upper and lower sole ring portions of the terminal plate of the deflection yoke 10 is completed.

As described above, the deflection yoke 10 having completed the one-turn rotation of the rotary table 2 and completed the soldering operation of the deflection yoke 10 is inserted into the fixed table 3 of the rotary table 2 at the insertion and withdrawal unit 4. The deflected yoke 10 is taken out and moved to the next work process.

As described above, the constant angle, intermittent rotational motion and insertion of the rotary table 2, the ejection part 4, the flux part 5, the preheating part 6, the soldering part 7, and the inverting part 8 are programmed. It is possible to automate the soldering operation of the deflection yoke 10 terminal plate in a continuous operation, and to perform a large amount of deflection yoke 10 terminal plate soldering in a short time in a continuous series of operations.

As can be seen from the above description, by automating the terminal plate soldering process of the deflection yoke according to the present invention by means of a programmed machine, it is possible to reduce the labor manpower, reduce the waste of manpower, production cost by reducing the working space, etc. It will be able to maximize savings and improving production.

Claims (1)

A plurality of fixed chucks, equiangularly and radially mounted on the rotary table and the rotary table, and a deflection yoke insertion, ejection and flux units provided radially and equilaterally in the same angle and direction as the fixed chucks installed on the rotary table outside the circumferential surface of the rotary table. And a deflection yoke soldering process, characterized by automating a deflection yoke terminal soldering process by means of a programmed deflection yoke salting device having a preheating part, a soldering part, and an inverting part.

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