KR900002228Y1 - Apparatus for bending fluorescent lamp - Google Patents

Abstract

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Description

Bending device of glass tube for fluorescent lamp

1 is a perspective view of main parts of the present invention.

2 is an overall schematic view of the present invention, FIG. 2 (a) is a plan view of a portion engaged with a cylinder for rotating a bending arm device, and FIG. 2 (b) is a perspective view showing a power transmission portion of the moving device. 2C is a perspective view of the switch operating plate.

3 is a perspective view of the bending arm apparatus, and FIG. 3 (a) is a perspective view of the nitrogen gas injection apparatus coupled to the bending arm apparatus.

* Explanation of symbols for main parts of the drawings

1: Conveyor Belt 2: Glass Tube

3: glass tube mounting base 4: heating furnace

5: fixed roller 6: bending arm device

7: drive shaft 8: moving device

9: Switch operation board 10: Forward and reverse motor

11,11 ': Arm 12,12': Chuck

13,13 ': axis 14,14'; cylinder

15,15 ': Between rotations 16: Sealed rod

17: injection nozzle 18: axis

19: connection between 20: cylinder

21: eccentric plate

The present invention relates to a device for bending a glass tube of a U-shaped fluorescent lamp.

A device for bending a bulb of a U-shaped fluorescent lamp is disclosed in detail in Patent Publication No. 84-1875 (U-shaped Bending Device of Glass Tube), as is well known.

However, the conventional grain growth value as described above requires a lot of time for mass production because the glass tubes are individually heated after moving to a predetermined position, and the heating device itself forms a complicated structure, and nitrogen gas injection is also manual. There was a drawback of having to take time to afford a space back and forth, and furthermore to introduce a computer system to perform such a series of operations continuously.

In order to solve the conventional fastening point as described above, the glass tube is continuously moved by the conveyor belt to pass through the heating furnace so that it can be immediately and continuously bent at the moment when it leaves the heating furnace, thereby providing a large amount of curved pipe in a short time. In addition to automating the injection of nitrogen gas and installing it integrally with the chuck, it is possible not only to make accurate in a short time but also to use the complicated electronic switch device using a computer by mechanically switching the time difference of all operations. The purpose is to provide a simple device that does not.

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

The present invention, as shown in FIG. 2, is installed on the conveyor belt 1 so that the glass tube mounting table 3 capable of moving the glass tube 2 at a predetermined interval passes through the heating furnace 4, and the heating furnace At the tip of (4), when the glass tube (2) is bent, a fixing roller (5) for fixing the glass tube (2) from the upper side is installed so as to operate up and down, and the conveyor belt (1) is provided with a conveyor belt (11). A bending arm device 6 for receiving the glass tube 2 heated to a predetermined temperature to be moved in turn and bending it upward is installed so as to move forward and backward by the moving device 8 linked to the drive shaft 7, and the drive shaft 7. ) Has a structure in which a plurality of switch operating plates 9 are stacked.

The bending arm device 6 has a symmetrical arm 11 and 11 'which can be folded in a U shape by the forward and reverse motor 10 as shown in detail in FIGS. 3 and 4 of the drawings. In the conventional ones each having a twelve (12 ') and a twelve (12'), the lower end of each arm (11) (11 ') has a cylinder (14) (14') around the shaft (13) (13 '). The rotating rod 15 and 15 'which are moved by the movement are provided, The sealing rod 16 which blocks one side of the glass tube 2 at the end of the rotating period 15, and the glass tube at the end of the rotating period 15' A nitrogen gas injection nozzle 17 which is fitted snugly against the opposite injection port of (2) is provided next to the chucks 12 and 12 '.

Exemplary drawing FIG. 2 (a) shows that the connecting rod 19 is attached to the shaft 18 of the bending arm device 6 so that the cylinder 20 can be rotated by 90 degrees.

Exemplary Drawing 2 (b) is a drive shaft 7 which is provided between the drive shaft 7 and the bending arm device 6 and is a part of the moving device 8 which moves the bending arm device 6 forward and backward. And a portion connected to the upper and lower connecting portions 23 by the eccentric plate 21 which is formed on the driving shaft 7 and integrally rotated with the driving shaft 7 and the small rollers 22 engaged therewith. As a result, when the L-shaped connecting rod 24 is rotated about the shaft 25, the bending arm device 6 is moved back and forth (right and left in the drawing of FIG. 2).

Exemplary Drawing 2 (c) shows a plurality of switch operating plates 9 installed on the drive shaft 7, each operating plate being an eccentric plate, and each of the eccentric plates has switches for controlling the operation of various cylinders. Each is connected.

Reference numeral 26 is an auxiliary device installed in the front lower portion of the furnace 4, and 27 is a nitrogen gas supply hose.

When the glass tube 2 continuously moved in the conveyor belt 1 is heated to an appropriate temperature to be heated and bent while passing through the heating furnace 4, the both ends of the glass tube 2 are chucked. 12) (12 ') and the fixed roller (5) is lowered at the same time, in contact with the center portion of the bent portion of the glass tube (2), the cylinder (14, 14') is instantaneously operated by the glass tube (2) One end of the c) is blocked by the sealed rod 16, and the other end is injected with a suitable pressure into the glass tube 2 through the nitrogen gas supply hose 27 while the injection nozzle 17 is coupled. The injection of such nitrogen gas is to prevent the bent portion flattening when bending the glass tube (2).

In this manner, after the fixed roller 5 is downward and the nitrogen gas flows into the glass tube 2, the stationary motor 10 is operated to fold the arms 11 and 11 'in a U shape. The fixed roller 5 is raised again and pulled out of the glass tube 2 just before the chucks 12 and 12 'on both sides of the arm 11 and 11' bend the glass tube 2 completely into a U shape. Will go out.

In order to prevent the heating temperature of the glass tube 2 from falling during this bending process, an auxiliary passage 26 is installed in the middle of the chucks 12 and 12 '.

After the fixed roller 5 is pulled out, the glass tube 2 is completely bent in a U-shape, and the upper and lower connecting portions 23 are raised by the moving device 8, and the L-shaped connecting portions 24 rotate the shaft 25. Rotated counterclockwise by a certain angle to the center, the bending arm device 6 retreats slightly with the U-shaped bent glass tube 2 held on the chucks 12 and 12 ', followed by the cylinder 20. As the back pulls the connection 19 while the shaft 18 is rotated 90 degrees (horizontal direction), the bending arm device 6 is rotated 90 degrees to recover (manual) the U-shaped glass tube.

In this way, when one glass tube 2 is bent and recovered in a U shape, the cylinder 2 is moved forward again (rightward in the drawing), and the bending arm device 6 is rotated 90 degrees in the horizontal direction. The arm 11, 11 'is extended by 180 degrees by the stationary motor 10, and the bending arm device 6 is moved forward by the moving device 8 (right side in the drawing) to be returned to its original position. The next glass tube 2 on the conveyor belt 1 falls to the chucks 12 and 12 '.

This series of continuous operations is repeated while maintaining a constant time difference by the respective cylinders and motors, in which a plurality of eccentric plates of the switch operating plate 9 are each switched for a certain time (ON state) or switch disconnection. It is made by a mechanical switch system to make the (OFF state).

By using the conveyor belt 1 of the present invention, the glass tube 2 can be continuously transported and heated sequentially while passing through the heating furnace 4, so that the bending operation speed is high, and the arms 11, 11 'are When nitrogen gas is automatically injected by the sealing rod 16 and the injection nozzle 17 installed integrally with each other, the control of all the series of operations is mechanically performed by the switch operating plate 9 so that the structure is simple and accurate. have.

Claims (1)

A glass tube mounting table 3 is installed on the conveyor belt 1 at a predetermined interval so that the glass tube 2 can be transferred, and the glass tube 2 passes through the heating furnace 4 while reaching the bending arm device 6. On both arms (11) (11 ') of the bending arm device (6), rotation rods (15) and (15') operated by the cylinders (14) (14 ') are installed to seal the rod (16) and the injection. The nozzle 17 is automatically coupled to and separated from both sides of the glass tube 2, and the forward and backward operation of the bending arm device 6 is made by the moving device 8, and eventually the rotation operation of the arm device 6 And the various drive switches are turned on or off for a predetermined time by the switch operating plate 9 of the drive shaft 7, respectively.