KR920001497B1 - Apparatus painting the internal side of funnel with the graphite - Google Patents

Abstract

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Description

Apparatus for applying graphite to the inner surface of the funnel for CRT

1 is a side view of the graphite coating device of the present invention.

Figure 1a is a partially enlarged plan view of the applicator support arm.

2 is a sectional view taken along the line A-A of FIG.

3 is a longitudinal sectional view of a funnel for a CRT.

4 is an enlarged cross-sectional view of a portion of the funnel, showing the anode electrode embedded in the funnel.

* Explanation of symbols for main parts of the drawings

1: funnel 2: conductive layer

3: anode electrode (cavity) 6: rotation axis

8: positioning disc 8a: notch

13: rocking arm 14: motor

15: roller 22: sensor

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an apparatus for applying graphite to an inner surface of a funnel for color brown tubes, and more particularly, to automatically deposit graphite in a recess formed on an inner surface of the funnel near a cathode electrode called a cavity embedded in an inner wall of the funnel. The present invention relates to an apparatus for applying.

In general, in the color brown tube, it is necessary to form the conductive layer 2 by uniformly applying graphite powder on the inner surface of the funnel 1, as shown in FIG. The conventional graphite coating apparatus used for this purpose has rotatable funnel support means for supporting and supporting a CRT funnel at a predetermined position with its opening exposed, and an applicator impregnated with a suspension of graphite powder, The applicator is configured to automatically apply graphite by rotating the funnel while being inserted into the inner surface of the funnel.

On the other hand, since the anode electrode 3 made of metal commonly called a cavity is embedded in the inner wall of the funnel 1 made of glass, the embedded electrode (in the manufacturing process of embedding the electrode 3 in glass) A recess 1a 'is formed on the inner surface 1a of the funnel 1 around 3). Since the dimensions and formation of the recesses 1a 'are different depending on the number of CRTs, the conventional graphite coating apparatus cannot automatically apply graphite completely to the recesses 1a'. The part which was not apply | coated to the site | part of the recessed part 1a 'was generated in the inner surface. Therefore, conventionally, the graphite coating work or the correction work of this uncoated recess 1a 'has to be performed manually for all CRTs.

It is therefore an object of the present invention to provide a graphite coating apparatus capable of automatically and uniformly applying graphite to the inner surface 1a of the funnel 1 in a region including a recess formed near the anode electrode 3.

The present invention includes rotatable funnel support means for supporting a CRT funnel at a predetermined position with its opening exposed, and applying graphite to the inner surface of the funnel near an anode electrode embedded in the inner wall of the funnel. An apparatus comprising: a positioning member that rotates together with the funnel support means and has a detected part arranged in a predetermined positional relationship with respect to the anode electrode, a drive device for rotating the funnel support means, and to a predetermined position. A sensor for detecting the rotated detection unit and outputting a signal for stopping the drive device, a first position in contact with the inner surface of the funnel near the anode electrode, and a suspension of graphite powder outside the funnel; Is a graphite spreader movable between a second position and the graphite spreader is moved to the second position in response to an output signal of the sensor. Emitter and applicator moving means for moving a position of the first, is that the graphite also give up at the location of the first graphite also installed a rotating means for rotating the applicator around the axis of the give characterized.

As described above, in the graphite coating apparatus of the present invention, the to-be-detected portion of the positioning member is positioned in a predetermined positional relationship with respect to the anode electrode embedded in the inner wall of the funnel, and when the to-be-detected portion is rotated to a predetermined position, the sensor Outputs a signal to stop the drive, and at the same time the applicator moving means is brought into contact with the inner surface of the funnel near the anode electrode (first position) in response to the output signal of the sensor, By moving from the second position, the positioning of the graphite applicator relative to the recesses generated on the inner surface of the funnel is automatically achieved. Since the applicator moved to the first position is already impregnated with the suspension of the graphite powder when it is in the second position, the applicator rotated by the applicator rotating means at this first position is applied to the inner surface of the funnel. Graphite powder is automatically and reliably applied to the generated recesses.

Next, embodiments of the present invention will be described with reference to FIGS. The graphite coating apparatus shown in the figure is one of a plurality of sets provided for the purpose of mass production around a large turntable (not shown). Since all the coating apparatuses have the same structure and function, and the graphite coating on the inner surface of the CRT funnel can be carried out using only one graphite coating apparatus, only one graphite coating apparatus shown will be described.

The hollow cylindrical holder 4 constituting the means for supporting the funnel 1 is fixed to a pair of support arms 5 (only one of which is shown) protruding from the turntable (not shown). Inside the holder 4, there is a built-in rotor (not shown) that receives the neck of the funnel 1 and maintains and supports a predetermined position, and the rotary shaft 8 of the rotor is The disc 7 protrudes from the bottom surface of the holder 4 and is fixed to the protruding rotation shaft 6. Since the above structure is conventionally known, detailed description is abbreviate | omitted here.

The positioning disc 8 is fixed to the rotation shaft 6, and an arc-shaped cutout 8a is formed on the circumferential surface of the disc 8. The positioning disc 8 has a predetermined positional relationship with the cutout portion 8a with respect to the anode electrode 3 of the funnel 1 when the funnel 1 is supported at a predetermined position by a rotating body (not shown). It is positioned and fixed with respect to the rotation shaft 6 so as to hold.

On the other hand, the support shaft 12 is rotatably supported via the bearing 11 on the base 10 which is inclined, and one end of the swinging arm 13 is fixed to the support shaft 12. A motor 14 is attached to the other end of the swinging arm 13, and a roller 15 disposed at a position in contact with the outer circumferential surface of the positioning disc 8 is fixed to the output shaft of the motor 14. It is. In addition, an air cylinder 16 is rotatably installed near the distal end of the base 10, and one end of the lever 17 is rotatably installed on the actuating rod 16a of the air cylinder 16. The end is rotatably provided to the swinging arm 13. The connecting rod 18 extends so as to oscillate through the swinging arm 13 and the lever 17, and the stop nuts 19 and 20 are attached to both ends of the connecting rod 18. As shown in FIG. A compression coil spring 21 is disposed around the connecting rod 18 and extends between the swinging arm 13 and the lever 17. Therefore, when the actuating rod 16a of the air cylinder 16 extends, its operation rotatably drives the lever 17 so that the rotational movement of the lever 17 via the spring 21 swing arm 21. ), The swing arm 13 swings about the support shaft 12 counterclockwise from the dashed line position shown in FIG. 2, and moves the roller 15 to the positioning disc 8 Abut each other on the circumferential surface of the When the roller 15 is driven to rotate by the motor 14 in this state, the positioning disc 8 is reached by the frictional force between the roller 15 of the roller 15 and the positioning disc 8, This disc 8 rotates, and the rotating shaft 6 and the above-mentioned rotating body in the holder 4 rotate, and the funnel 1 rotates.

In the base 10, the funnel 1 is detected by detecting the position (position shown in FIG. 2) of the swinging arm 13 when the roller 15 is in contact with the cutout portion 8a of the positioning disc 8. The sensor 22 which detects the position of the said anode electrode 3 of () is fixed through the support arm 23. In this embodiment, the sensor 22 is composed of an automatic proximity switch (non-contact switch).

As shown in FIG. 1, a strut 24 is disposed substantially vertically in the plane including the axis of the rotational axis 6 on the right side of the holder 4, and at the upper end of the strut 24, an operator The support plate 25 is fixed. A compressed air actuator 26 having an output shaft 26a is fixed to the support plate 25, and one end of the applicator support arm 27 is fixed to the output shaft 26a.

This support arm 27 is arranged in a vertical plane including the axis of the rotation shaft 6 and is positioned between the position indicated by the solid line and the position indicated by the dashed line as shown in FIG. 1 by the operator 26. Can be rotated from The other end of the applicator support arm 27 consists of two legs, and between these legs, the 2nd operator 28 is rotatably provided by the shaft 28a.

On the output side of this operator 28, a disk-shaped graphite coating device 29 made of sponge is attached, and is reciprocally rotated within a range of 180 degrees around the axis of the output shaft. An L-shaped bracket 30 is attached to the side surface of the operator 28, and the distal end portion of the stop screw 31 is screwed into the screw hole formed in the horizontal portion of the bracket 30. This set screw extends through the long hole 27a which is formed in the applicator support arm 27 from its upper surface to its lower surface (see also the first (a)), and this set screw 31 ) Heads are in contact with the upper surface of the applicator support arm 27.

Next, the operation will be described. Before starting the graphite coating operation, the swinging arm 13 is in the dashed line position as shown in FIG. 2, and the graphite coater 29 and the applicator support arm 27 are broken line as shown in FIG. In this position, the graphite coating device 29 is supplied with a graphite suspension (solvent containing graphite powder) by a graphite supply device (not shown), and the graphite coating device is kept in the state impregnated with the suspension.

With the funnel 1 positioned relative to the holder 4 as shown in FIG. 1, the funnel 1 is supported by the above-not shown rotating body in the holder 4, and then the air cylinder Activate (16) to advance the working rod. As a result, the swinging arm 13 rotates counterclockwise from the dashed line position to the solid line position as shown in FIG. 2, so that the roller 15 is pressed against the circumferential surface of the positioning disc 8. In this state, by operating the motor 14 and rotating the positioning disc 8 via the roller 15, the rotating shaft 6 is rotated so that the above-described rotating body and the funnel 1 supported thereon. Rotate When the positioning disc 8 rotates and the roller falls to the notch 8a, the swinging arm 13 reaches the position shown by the solid line in FIG. The sensor 22 detects the rocking arm which came to this position, and outputs a detection signal. The motor 14 stops by this signal. That is, the rotation of the funnel 1 stops when the anode electrode 3 is located in the vertical plane including the axis of the rotation shaft 6.

The operator 26 operates in response to the signal output from the sensor 22 to rotate the applicator support arm 27 from the dashed line position in FIG. 1 to the solid line position to drive the graphite coating 29 into the funnel 1. Touch each other on the inner surface of the At this time, a sensor (not shown) attached to the operator 26 outputs a signal, and the second operator responds to this output to operate the graphite coating 29 in the range of 180 degrees, for example, three reciprocating rotations. Let's do it. During this reciprocating rotation, the second operator 28 is moved around the shaft 28a several times until the graphite applicator 29 obtains the most stable and pressurized position with respect to the inner surface 1a of the funnel 1. Rotate. This rotation is allowed by the stop screw 31 sliding along the long hole 27a formed in the applicator support arm 27.

Since both the anode electrode 3 and the graphite coater 29 of the funnel 1 are in a vertical plane including the axis of the rotational axis 6, they are moved to the solid line position of FIG. 1 by the operation of the operator 26. The coated graphite applicator 29 is located in the same plane as the anode electrode 3 and abuts on the inner surface of the funnel 1. Since the diameter of the graphite applicator 29 is very large compared to the size of the anode electrode 3, the graphite applicator 29 may be formed even if the center of the graphite applicator 29 does not coincide with the center of the anode electrode 3. The graphite powder is automatically applied to the area including the recesses 1a 'around the anode electrode 3 among the inner surfaces of the funnel 1 by the reciprocating rotational motion of. Therefore, the graphite coating apparatus of the embodiment can be used for various kinds of funnels of different sizes.

When the graphite applicator 29 reciprocates and finishes only a predetermined number of times, the rotation is automatically stopped, and at the same time, the operator 26 raises the applicator support arm 27 to the dashed line position of FIG. . At the same time, the air cylinder 16 enters the working rod 16a to retract the swinging arm 13 to the dashed position to complete the graphite coating operation in the area near the anode electrode 3 on the inner side of one funnel, and the apparatus Wait for the start of the next task.

The above-mentioned graphite coating operation may be performed before the operation | work which applies graphite to the whole inner surface 1a of the funnel 1, and may be performed after that.

That is, the work of applying graphite to the entire inner surface 1a of the funnel 1 is performed at another position. In this case, the disc 7 is rotated by receiving a rotational force from a motor not shown, and the rotating shaft 6 is rotated at constant speed. The graphite powder, not shown, is reciprocated back and forth in contact with each other on the inner surface of the funnel, and the graphite powder is applied to the entire inner surface of the funnel closely in a spiral shape. The above-mentioned operation of applying graphite powder to the inner surface of the funnel near the anode electrode 3 before or after this front coating operation is performed.

In the above-described embodiment, when the roller 15 is in contact with the cutout portion 8a formed on the disc 8, the position of the swing arm 13 is detected by the sensor 22 made of an automatic proximity switch. Instead of the sensor 22, a small hole (not shown) may be formed in the disc 8, and the position of the swing arm 13 may be detected by an optical sensor that detects light passing through the small hole. .

Claims (10)

Rotatable funnel support means (4) for supporting the CRT funnel (1) at a predetermined position with its opening exposed, and near the anode electrode (3) embedded in the inner wall of the funnel (1). In the apparatus for applying graphite to the inner surface of the funnel, positioning with the detected part 8a which rotates together with the funnel support means 4 and is arranged in a predetermined positional relationship with respect to the anode electrode 3. The drive device 14 detects the member 8, the drive device 14 and 15 which rotates the funnel support means 4, and the to-be-detected part 8a which rotated to the predetermined position, and said drive device 14, A sensor 22 for outputting a signal for stopping (15), a first position in contact with the inner surface 1a of the funnel 1 near the anode electrode 3, and graphite powder outside the funnel; In response to the output signal of the sensor 22 and the graphite applicator 29 which is movable between a second position receiving a suspension of The applicator moving means 26, 27 for moving the graphite applicator 29 from the second position to the first position, and the graphite applicator 29 at this first position. An apparatus for applying to the inner surface of the funnel for CRTs, characterized by providing an applicator rotating means (28) for rotating the axis of the graphite coater (29). 2. The positioning member (8) according to claim 1, wherein the positioning member (8) consists of a positioning disc (8) coaxial with the funnel support means (4), wherein the detected portion (8a) is a section formed around the positioning disc. Apparatus for applying graphite to the inner surface of the CRT funnel consisting of a joint (8a). 3. The driving device (14) according to claim 2, wherein the driving device (14) and (15) comprise a roller (15) that is frictionally coupled around the positioning disc, and a motor (14) for rotating the roller. Apparatus for applying graphite to the inner surface of the CRT funnel for which the sensor (22) outputs the signal when a roller is connected to the cutout (8a). 4. The roller (15) according to claim 3, wherein the roller (15) and the motor (14) are supported by the anode electrode (13), and the swinging arm pushes the roller around the positioning disc (8) and vice versa. Apparatus for applying graphite to the inner surface of the CRT funnel which can be swung by power in a direction. 5. The sensor (22) according to claim 4, wherein the sensor (22) detects the position of the swinging arm (13) when the roller (15) is in contact with the cutout (8a). Apparatus for applying graphite to the inner surface of the funnel for CRT which detects rotation up to. 6. The apparatus according to claim 5, wherein the sensor (22) applies graphite to the inner surface of the CRT funnel consisting of an automatic proximity switch attached to the stop member (23). 6. An apparatus according to claim 5, wherein said sensor (22) is made of graphite on the inner surface of a funnel for cathode ray tubes consisting of an optical sensor for detecting light passing through a small hole formed in said positioning disc (8). 8. The applicator support according to any one of claims 2 to 7, wherein the applicator moving means (26) and (27) are connected to an applicator support arm (27) and one end of the applicator support arm. Apparatus for applying graphite to an inner surface of a CRT funnel consisting of a first operator (26) for angular movement of the arm over a predetermined angular range in a plane including the axis of rotation of the funnel support means (4). 9. The applicator according to claim 8, wherein said applicator rotating means (28) consists of a second operator attached to the other end of said applicator support arm (27), said applicator being formed on the rotational output shaft of said second operator. 29) Apparatus for applying graphite to the inner surface of the funnel for CRT attached. 10. The method of claim 9, wherein the second operator 28 applies graphite to the inner surface of the CRT funnel, which is pivotably attached to the other end of the applicator support arm 27 within a predetermined angle range. Device.

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