KR100770444B1 - making method of the fluorescent light lamp - Google Patents

Abstract

The present invention relates to a method of assembling a fluorescent lamp.

The present invention comprises a one-step process of placing the glass tubes constituting the fluorescent lamp in the glass tube supply hopper and discharged in a state aligned one by one along the guide grooves to supply the glass tube mounting grooves formed in the upper portion of the glass tube holder of the fluorescent lamp transfer member; A two-step process of supporting both sides of the glass tube placed in the glass tube mounting groove of the glass tube holder by the step 1 process by the glass tube fixing holder formed on the support bracket of the external electrode insertion member and the piston of the cylinder, which is moved up and down And; The outside supplied to the V-shaped groove formed in front of the blow pin guide of the external electrode insertion member through a chute aligned with external electrode supply hoppers provided at both sides of the glass tube supply hopper at both ends of the glass tube fixed by the two-step process. It is characterized in that the fluorescent lamp is assembled by a three-step process of inserting an external electrode by hitting the electrode with the striking pin coupled to the piston of the cylinder.

According to the present invention, the glass tube feeding hopper contains a glass tube with a slippery surface and discharges and supplies the fluorescent lamp conveying member one by one while inserting and assembling external electrodes aligning and discharging from the external electrode supply hopper provided at both ends of the glass tube. There is an effect of improving the productivity of the lamp.

Fluorescent lamp, Glass tube, External electrode, Glass tube supply hopper, External electrode supply hopper, Blow pin

Description

Assembly method of the fluorescent light lamp

1a is a perspective view of a fluorescent lamp according to the present invention

Figure 1b is a cross-sectional view of the fluorescent lamp according to the present invention

2 is a front view of a fluorescent lamp assembly machine for practicing the present invention

3 is a plan view of a fluorescent lamp assembly machine for practicing the present invention

4A and 4B are left and right side views of a fluorescent lamp assembly machine for carrying out the present invention.

5A and 5B are front and schematic configuration diagrams of an external electrode insertion member constituting the fluorescent lamp assembly of the present invention.

*** Explanation of symbols for the main parts of the drawing ***

1: fluorescent lamp 2: glass tube

3: external electrode 4: fluorescent lamp assembly machine

5: Glass tube supply hopper 6: External electrode supply hopper

7: external electrode insertion member 8: fluorescent lamp transfer member

9: fluorescent lamp storage hopper 18: glass tube holder

24: fluorescent lamp carrier 27: blow pin

The present invention relates to a method for assembling a fluorescent lamp, and more particularly, to a method for assembling a fluorescent lamp, which provides a method for improving productivity when inserting and assembling external electrodes at both ends of a glass tube constituting a fluorescent lamp. will be.

Computer monitors currently on the market consist of a liquid crystal display (LCD) or a plasma display device (PDP). Since most of the liquid crystal display devices are light-receiving devices that display images by controlling the amount of light source from the outside. A separate light source, i.e. a back light, is required for irradiating light to the LCD panel, which is installed together with the lamp unit.

As illustrated in FIGS. 1A and 1B, the fluorescent lamp 1 constituting the lamp unit includes a glass tube 2 coated with a phosphor on an inner wall and an external electrode inserted into both ends of the glass tube 2 and formed of a conductive material. It consists of 3).

In the conventional case, when assembling the external electrodes 3 at both ends of the glass tube 2 constituting the fluorescent lamp 1, the worker first assembled the external electrodes 3 at both ends of the glass tube 2 while It was assembled by inserting by hitting the external electrode (3) preassembled with a mechanical device consisting of a blow pin and a cylinder that can strike the external electrode (3).

However, in the above-described method, since the external electrodes 3 are preassembled at both ends of the glass tube 2, the external electrodes 3 are discharged and supplied one by one in the supply hopper, and thus the external electrode having a diameter difference (t) with the glass tube 2 ( Due to the interference by 3) the discharge of the fluorescent lamp 1 is not made smoothly, there was a problem that the productivity is lowered.

The present invention has been made in order to solve the above problems by inserting the external electrode to be aligned and discharged from the external electrode supply hopper provided at both ends of the glass tube while discharging and supplying the glass tube in the glass tube supply hopper one by one, the glass tube and the external electrode The main purpose is to prevent interference due to the diameter difference (t) of and to improve productivity.

The assembly method of the fluorescent lamp of the present invention will be described in detail as follows.

The present invention is characterized by inserting and assembling an external electrode formed of a conductive material at both ends of the glass tube in a state in which a smooth surface of the glass tube is placed in a glass tube supply hopper to achieve smooth discharge.

The present invention utilizes a fluorescent lamp assembly 4 constructed as shown in Figs. 2 to 5B which can mechanically assemble the external electrode 3 to the glass tube 2 of the fluorescent lamp 1 to improve productivity.

The fluorescent lamp granulator 4 includes a glass tube supply hopper 5 for discharging and supplying glass tubes 2 one by one; An external electrode supply hopper (6) provided at both sides of the glass tube supply hopper (5) to align and supply the external electrode (3); An external electrode insertion member (7) inserted into the end of the glass tube (2) by hitting the external electrode (3) supplied from the external electrode supply hopper (6); A fluorescent lamp transfer member (8) installed at the front of the glass tube feed hopper (5) for transferring and discharging the fluorescent lamp (1) inserted at both ends of the glass tube (2) one by one; It consists of a fluorescent lamp storage hopper (9) for collecting the fluorescent lamp (1) provided in the front of the fluorescent lamp transfer member (8).

As shown in FIGS. 3 to 4B, the glass tube feed hopper 5 is provided with a large amount of glass tube 2 by installing a plurality of guides 11 and 11 a which are inclined inwards in front and behind the body 10. The guide groove 13 is formed to arrange the glass tube 2 one by one by providing a slide 12 under the guide 11 to hold the guide 11, and the guide groove 13 in the direction of the guide 11. In order to adjust the amount of the glass tube (2) entering the), the shutter (15) is formed by the cylinder (14) to move forward and backward, the lower side of the front of the slide (12) of the cylinder (14a) Piston lifting and lowering around the axis (16) to move up or down to form a rocking table (17) that shakes the entire body 10 to help align and discharge the glass tube (2) while discharging the glass tube (2) ) Formed in the glass tube holder 18 constituting the fluorescent lamp transfer member 18 It is comprised so that it may supply to the glass tube mounting groove formed in the first of the tube mounting grooves 19.

As shown in FIG. 2, the external electrode supply hopper 6 is provided at both sides of the glass tube supply hopper 5 and is the same as the ball feeder BOWL FEEDER which is generally widely used in the industrial field. In addition, the chute 20 of the external electrode supply hopper 6 is extended to the front of the striking pin 27 of the external electrode insertion member 7.

The fluorescent lamp transfer member 8 is installed in front of the glass tube feed hopper 5, as shown in Figs. The fluorescent lamp transfer member 8 may discharge the glass tube holder 18 having the glass tube holder grooves 19 formed thereon and the glass tube 2 mounted on the glass tube holder 18 to move forward. The lifting and lowering cylinder 21 and the forward and backward cylinder 22 are provided, and the fluorescent lamp conveyance stand 24 in which the fluorescent lamp mounting groove 23 was formed in the upper part is comprised. The fluorescent lamp carrier 24 is transported in a state of being supported by the vertical guide bar 25 and the horizontal guide bar 26 when it moves up or down.

As shown in FIGS. 5A and 5B, the external electrode insertion member 7 is provided at both front sides of the fluorescent lamp transfer member 8. In addition, the external electrode insertion member 7 is a glass tube fixing holder 29 formed on the front upper portion of the support bracket 28 and a glass tube fixing holder 29a coupled to the piston of the cylinder 30 to the front of the glass tube holder 18. Holds both sides of the glass tube (2) supplied to the glass tube mounting groove 19, the V-shaped groove (31) formed in front of the external electrode (3) discharged through the chute 20 of the external electrode supply hopper (6) The striking pin guide 32 and the striking pin 27 transported along the guide hole (not shown) formed in the striking pin guide 32 are coupled to the striking pin support 33, and the striking pin support 33 is coupled to the piston of the cylinder (30a) provided in the support bracket 28 to hit the external electrode (3) supplied to the V-shaped groove 31 of the striking pin guide 32 to the striking pin (27) The external electrode 3 is inserted into the end of the glass tube 2 fixed to the glass tube fixing holder 29 and 29a by hitting with .

The fluorescent lamp storage hopper (9) is a container 34 that can hold the fluorescent lamp 1 is configured on the upper portion of the support (35), it is installed in front of the fluorescent lamp transfer member (8).

Looking at the method of inserting and assembling the external electrode (3) at both ends of the glass tube (2) by using the fluorescent lamp assembly 4 of the present invention described above.

First, a large amount of glass tube 2 constituting the fluorescent lamp 1 is contained between the guides 11 and 11a constituting the glass tube supply hopper 5, and then the swinging table 17 is lifted up and down by the cylinder 14a. When the whole furnace body 10 is shaken, the glass tubes 2 are supplied one by one into the guide grooves 13 while being aligned along the inclined portions formed inside the guides 11 and 11a, and the discharged glass tubes 2 are fluorescent. The glass tube holder groove 19 formed in front of the glass tube holder 18 of the lamp transfer member 8 is placed. At this time, since the external electrode 3 is not inserted at both ends of the glass tube 2 and the surface is slippery, it is smoothly supplied and discharged without interference.

Both sides of the glass tube 2 placed in the glass tube holder groove 19 in the glass tube holder 18 constituting the fluorescent lamp transfer member 8 are fixed to the glass tube fixing holders 29 and 29a of the external electrode insertion member 7. The external electrode 3 is inserted while being supported and fixed. At this time, when the cylinder 30 is operated in a state where the upper portion of the glass tube 2 is in contact with the glass tube fixing holder 29, the glass tube fixing holder 29a coupled to the piston of the cylinder 30 is raised to lower the glass tube 2. Abuts and is fixed.

Both sides of the glass tube 2 supplied to the glass tube holder 18 of the fluorescent lamp transfer member 8 are fixed with the glass tube fixing holders 29 and 29a of the external electrode insertion member 7. 6, the rear of the external electrode (3) supplied to the V-shaped groove 31 formed in front of the striking pin guide 32 through the chute 20 of the cylinder (30a) coupled to the support bracket 28 In operation, when hitting with the striking pin 27 supported in the guide hole (not shown) of the striking pin guide 32, the external electrode 3 is inserted into the end of the glass tube (2).

As described above, after the external electrode 3 is inserted into both ends of the glass tube 2, the operation of the respective cylinders 30 and 30a causes the glass tube fixing holder 29a and the striking pin 27 to be operated for the next operation. Returning to the original position, the fluorescent lamp (1) with the external electrode (3) is inserted into both ends of the glass tube (2) operates the lifting cylinder 21 for constituting the glass tube holder (18) constituting the fluorescent lamp transfer member (8) The glass tube 2 is moved to the fluorescent lamp holder groove 23 formed on the fluorescent lamp carrier 24 while lifting up the fluorescent lamp carrier 24 that is positioned below the glass tube holder groove 19 formed on the upper part of the panel. After supporting and operating the cylinder 22 for the forward and backward in the state of lifting up the glass tube holder 18, pull the fluorescent lamp feeder 24 to the front, and operate the lifting cylinder 21 to lower the piston Fluorescent lamp feeder (24) descends Fluorescent lamps that have been supported in the groove 23 (1) is placed in a glass tube moved through grooves 19 of the front multiple formed on top of the glass tube holder (18).

The assembled fluorescent lamp 1 is transferred to the fluorescent lamp storage hopper 9 while being sequentially moved to the front of the plurality of glass tube mounting grooves 19 formed on the glass tube holder 18 by the fluorescent lamp carrier 24. It becomes.

In the present invention described above, by inserting and assembling the external electrodes that are arranged and discharged from the external electrode supply hoppers provided at both ends of the glass tube while the glass tube feeding hopper contains the glass tube with a slippery surface and is discharged and supplied to the fluorescent lamp transfer member one by one. There is an effect of improving the productivity of the fluorescent lamp.

Claims (2)

In the assembling method of a fluorescent lamp in which external electrodes are inserted at both ends of a glass tube, A one-step process of placing the glass tubes constituting the fluorescent lamp in a glass tube feeding hopper and discharging them in a state aligned one by one along the guide grooves and supplying them to the front of the glass tube holding grooves formed in the upper portion of the glass tube holder of the fluorescent lamp conveying member; A two-step process of supporting both sides of the glass tube placed in the glass tube mounting groove of the glass tube holder by the step 1 process by the glass tube fixing holder formed on the support bracket of the external electrode insertion member and the piston of the cylinder, which is moved up and down And; The outside supplied to the V-shaped groove formed in front of the blow pin guide of the external electrode insertion member through a chute aligned with external electrode supply hoppers provided at both sides of the glass tube supply hopper at both ends of the glass tube fixed by the two-step process. A method of assembling a fluorescent lamp comprising assembling a fluorescent lamp by a three-step process of inserting an external electrode by striking an electrode with a strike pin coupled to a piston of a cylinder. delete

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