KR19980015426A - Fluorescent lamp film removal device for fluorescent lamp - Google Patents

Abstract

The present invention relates to an apparatus for removing a fluorescent film formed on an inner circumferential surface of an end portion of a glass tube for a fluorescent lamp.

The apparatus for removing a fluorescent film of a glass tube for a fluorescent lamp according to the present invention is configured such that the fluorescent substance film is removed from the glass tube by the bite member by moving the bite member in the axial direction of the glass tube in tight contact with the glass tube while rotating the glass tube, The fluorescent film removing operation can be performed easily, quickly, and uniformly.

Description

Fluorescent lamp film removal device for fluorescent lamp

The present invention relates to an apparatus for removing a fluorescent film formed on an inner circumferential surface of a glass tube for a fluorescent lamp, and more particularly, to a fluorescent film removing apparatus for a glass tube for a fluorescent lamp configured to easily perform a fluorescent film removing operation .

In the production of a fluorescent lamp, a step of applying a fluorescent material to the inner peripheral surface of the glass tube to form a fluorescent film is performed. After the step of forming the fluorescent film on the inner circumferential surface of the glass tube is completed, a step of removing the fluorescent film on the end side of the glass tube is necessary for sealing both ends of the glass tube. Conventionally, in order to remove the fluorescent film at the end of the glass tube as described above, a brush having a large number of resilient fur on the outer periphery has been used. That is, after the operator pushes the brush into the end portion of the glass tube for a predetermined length, the brush and the glass tube are rotated relative to each other, and the fluorescent film is removed by the plurality of hairs.

However, according to this conventional method, there is a problem that the operation of removing the fluorescent film is not easy and the working time is considerably long. In addition, there is a problem that the fluorescent film is not uniformly removed or scratches are generated on the inner surface of the glass tube. In addition, in the case of removing a fluorescent film in a glass tube whose diameter is considerably small, for example, about 2 mm, it is difficult to easily purchase the brush in the market, and the brush must be specially manufactured and used. There is a problem in that the lifetime is short so that it needs to be frequently exchanged.

It is an object of the present invention to provide an apparatus for removing a fluorescent film of a glass tube for a fluorescent lamp, which is configured to easily, quickly, and uniformly remove a fluorescent film formed on the inner circumferential surface of a glass tube for a fluorescent lamp .

1 is a structural cross-sectional view of a device for removing a fluorescent film according to the present invention,

2 is a sectional view taken along line II-II of the apparatus shown in FIG. 1,

Fig. 3 is a structural cross-sectional view of the apparatus shown in Fig. 1 in a state where the reciprocating member is moved;

Fig. 4 is a schematic enlarged sectional view of the bite member in the state shown in Fig. 3,

5 is a view showing a state in which the fluorescent film is removed while the reciprocating body is retracted from the state shown in Fig.

DESCRIPTION OF THE REFERENCE NUMERALS

100 ... fluorescent film removing device 1 ... glass tube

10 ... frame 11 ... support

30 ... rotation body 31 ... pulley portion

35 ... motor 36 ... pulley

37 ... belt 40 ... pneumatic chuck

41 ... housing 42 ... pressing member

45 ... vacuum pump 50 ... reciprocating body

51 ... motor 52 ... ball screw

54 ... cylinder 60 ... lever member

61 ... Bite member 61a ... Fluorescent film peeling unit

72 ... Stopper

In order to achieve the above object, a fluorescent film removing apparatus of a glass tube for a fluorescent lamp according to the present invention for removing a fluorescent film formed on an inner surface of an end of a glass tube for a fluorescent lamp comprises a frame, Glass tube fixing means for fixing the glass tube to the rotating body in a state in which the central axis of the glass tube coincides with the rotation center axis of the rotating body; rotating means for rotating the rotating body; A reciprocating means provided on the frame so as to be able to move forward and backward toward an end of the fixed glass tube; reciprocating means for reciprocating the reciprocating means; A lever member provided on the moving body, and a lever member fixed to an end of the lever member, And a fluorescent film peeling portion for peeling the fluorescent film from the free end portion of the glass member, wherein the free end portion of the bite member is provided with an opening for receiving the fluorescent member, The present invention is characterized in that it is equipped with means for driving.

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

FIG. 1 is a structural cross-sectional view of a device for removing a fluorescent film according to the present invention, and FIG. 2 is a cross-sectional view taken along line II-II of the device shown in FIG.

Referring to FIG. 1, an apparatus 100 for removing a fluorescent film of a glass tube for a fluorescent lamp according to the present embodiment includes a frame 10, a hollow rotating body 30 rotatably installed above the frame 10, And a rotating means for rotating the whole body 30. A hollow support body 11 is fixed to the upper surface of the frame 10 and the rotation body 30 is rotatably fitted to the support body 11 via a bearing 11a. In this embodiment, as the rotating means for rotating the rotating body 30, a pulley portion 31 formed on the rotating body 30, a motor 35 provided on the frame 10, and a motor 35 A pulley 36 fixed to the output shaft 35a of the pulley 36 and a belt 37 engaged with the pulley 31 and the pulley 36. [

The glass tube 1 in which the fluorescent film is formed on the inner peripheral surface of the fluorescent film removing apparatus 100 of this embodiment is rotated in the state that the center axis of the glass tube 1 is aligned with the rotation center axis CL of the rotating body 30 A glass tube fixing means for fixing the glass tube 1 to the whole body 30 and a reciprocating moving body 50 provided so as to move forward and backward to the end side of the glass tube 1 fixed to the rotating body 30. [

As the glass tube fixing means, in this embodiment, a pneumatic chuck 40 coaxially installed in the rotating body 30 is provided. The pneumatic chuck 40 includes a housing 41 fixed to the rotating body 30 by welding or the like and a plurality of pushing portions 41 which are provided so as to be able to move forward and backward to the rotation center axis CL side of the housing 41, And a member (42). The pressing members 42 are arranged at predetermined angular intervals about the rotational center axis of the rotating body and each pressing member 42 is advanced by the spring 43 against the rotational center axis CL of the rotating body When the glass tube 1 is inserted between the pushing members 42, the pushing members 42 are elastically adhered to the outer circumference of the glass tube 1 by the spring 43, 1). When the vacuum is generated by the vacuum pump 45 in the space portion 41a formed in the housing 41, the pressing members 42 compress the spring 43, And is moved backward with respect to the rotation center axis CL of the rotary shaft. On the other hand, as shown in Fig. 2, the surface of the pressing members 42 contacting the glass tube 1 effectively prevents the glass tube 1 from being impacted or damaged by the pressing members 42 It is preferable that a buffer member 42a for buffering such as a sponge is attached.

The reciprocating body 50 is slidably coupled to the guide rod 14. The guide bar 14 is fixed to both ends of a pair of brackets 12 and 13 fixed to the upper surface of the frame 10 and is disposed parallel to the rotation center axis CL of the rotating body . Therefore, the reciprocating moving body 50 maintains a state capable of advancing and retracting toward the end of the glass tube 1 fixed by the pneumatic chuck 40 along the guide rod 14. [ On the other hand, in this embodiment, as the reciprocating means for driving the reciprocating body 50, the motor 51 and the ball screw 52 screwed to the reciprocating body 50 are provided. The motor 51 is fixed to a bracket 12 that supports one end of the guide rod 14. One end of the ball screw 52 is rotatably coupled to a bracket 13 that supports the other end of the guide rod 14 and the other end of the ball screw 52 is fixed to the output shaft of the motor 51 .

A hinge shaft 60a is fixed to the reciprocating body 50. A lever member 60 is rotatably coupled to the hinge shaft 60a. The free end of the lever member 60 is moved along the radial direction of the glass tube 1 fixed to the rotating body 30 with the rotation of the lever member 60. [ A bite member (61) is fixed to the free end of the lever member (60). The free end of the bite member 61 enters the inside of the end portion of the glass tube 1 when the reciprocating member 50 advances toward the end side of the glass tube 1. [ The fluorescent film peeling portion 61a is formed at the free end of the bite member 61 which enters the inside of the end portion of the glass tube 1 as described above. On the other hand, it is preferable that the bite member 61 is made of a material having excellent elasticity, for example, a piano wire and has elasticity.

On the other hand, as the means for rotating the lever member 60, a cylinder 54 and a spring 65 are provided in this embodiment. The cylinder 54 is for rotating the lever member 60 downward and is provided on a bracket 53 fixed to the upper surface of the reciprocating body 50. The tip of the rod 54a of the cylinder 54 is connected to the above- And is in contact with the upper portion of the lever member 60.

Both ends of the spring 65 are fixed to the reciprocating body 50 and the lever member 60 so as to have a restoring force while being tensioned when the lever member 60 is moved downward by the cylinder 54, When the operation of the lever member 54 is stopped, the lever member 60 is returned or upward rotated by the restoring force described above.

On the other hand, as a means for keeping the fixing position of the glass tube 1 fixed to the rotating body 30 constant by the pneumatic chuck 40 as described above, And a stopper 72 which is coupled to the rod 71 and moves in a direction transverse to the rotation center axis CL of the rotary body by the operation of the cylinder 70 is provided.

The process of removing the fluorescent film on the inner surface of the end of the glass tube for a fluorescent lamp by the fluorescent film removing apparatus 100 constructed as above will be described.

First, when the vacuum pump 45 is operated to evacuate the space 41a inside the housing 41 of the pneumatic chuck 40, the pressing members 42 compress the springs 43, In the direction away from the rotation center axis CL of the second rotary shaft. In this state, the cylinder 70 is operated to raise the stopper 72 fixed to the rod 71 as shown by an imaginary line in Fig. 1, and the pulley portion 31 of the rotating body 30 And the glass tube 1 is inserted from the formed end. At this time, the glass tube 1 is inserted until the tip of the glass tube 1 passes between the pressing members 42 and comes into contact with the stopper 72. Thereafter, when the operation of the vacuum pump 45 is stopped, that is, when the vacuum state of the space portion 41a inside the housing 41 of the pneumatic chuck 40 is released, by the restoring force of the springs 43, 42 move toward the rotation center axis CL of the rotating body 30 and press the outer circumferential surface of the glass tube 1 so that the glass tube 1 is fixed to the rotating body 30. When the glass tube 1 is thus fixed, the cylinder 70 is operated to lower the stopper 72 as shown by the solid line in Fig. 1 to open the end of the glass tube 1. [ When the motor 51 is rotated, the ball screw 52 coupled to the output shaft of the motor 51 rotates and the reciprocating body 50 screwed to the ball screw 52 rotates the guide rod 14 And then advances toward the end side of the glass tube 1. The lever member 60 coupled to the reciprocating body 50 and the bite member 61 fixed to the end of the lever member 60 approach the end side of the glass tube 1 as shown in Fig. , The fluorescent film peeling portion 61a of the bite member 61 enters the end portion of the glass tube 1 for a predetermined distance as shown by a virtual line in Fig.

When the rod 54a is projected by operating the cylinder 54 in this state, the lever member 60 which has been in contact with the tip of the rod 54a is rotated about the hinge axis 60a, As shown in Fig. The free end portion of the bite member 61 fixed to the end portion of the lever member 60 also rotates downward and the fluorescent film peeling portion 61a of the bite member 61 rotates the fluorescent film 61a formed on the inner surface of the glass tube 1 (1a).

The motor 35 is rotated in a state in which the fluorescent film peeling portion 61a of the bite member 61 is elastically brought into close contact with the fluorescent film 1a on the inner surface of the glass tube 1. [ The rotating force of the motor 35 is transmitted to the rotating body 30 by the belt 37 caught between the pulley 36 and the pulley 31. As a result, And the glass tube 1 fixed to the rotating body 30 is rotated about the rotational center axis CL of the rotating body 30. [ As a result, the fluorescent film 1a in the glass tube 1 begins to be scraped off by the fluorescent film separator 61a of the bite member 61 closely attached to the fluorescent film 1a. During this process, air may be blown into the glass tube 1 with a blower or the like to discharge the glass film from the inside of the glass tube.

In this state, when the motor 51 is operated to retract the reciprocating body 50 at a proper speed, that is, at a speed considering the rotational speed of the glass tube 1, the bite member 61 is moved to the glass tube 1). The fluorescent film peeling portion 61a of the bite member 61 peels the fluorescent film adhering to the bite member 61 from the glass tube 1 while the bite member 61 comes out of the end portion of the glass tube 1 as described above. Therefore, when the fluorescent film peeling portion 61a of the bite member 61 is completely removed from the end portion of the glass tube 1, all the fluorescent film 1a formed on the inner surface of the glass tube end is peeled off.

In this process, the fluorescent film 1a is automatically removed by the rotation of the glass tube 1 and the transfer of the bite member 61, so that the operation can be completed easily in a short time. When the lever member 60 is pressed by the cylinder 54, the fluorescent film separator 61a of the bite member 61 is pressed against the glass tube 1, Even if the pressing force applied to the lever member 60 is not constant or the center axis of the glass tube 1 does not coincide with the rotation center axis CL of the rotating body, The film can be uniformly removed, and scratches on the inner surface of the glass tube can be effectively prevented.

Since the above-mentioned bite member can be manufactured by simply processing a piano steel wire or the like, it can be manufactured at a low cost, and its life is also much longer than that of the brush described above. Further, the fluorescent film on the inner surface of the glass tube whose diameter is reduced to, for example, about 2 mm can be easily removed.

In this embodiment, as the means for rotating the rotating body 30, that is, the glass tube 1, the power of the motor 35 is transmitted to the rotating body through the pulley and the belt. However, A configuration in which the power of the motor is transmitted to the rotating body by a plurality of gears instead of the pulleys and the belts may be adopted within a range that does not deviate from the features of the invention.

Likewise, the means for moving the reciprocating body 50 is not limited to the above-described motor and ball screw, and another configuration, for example, a combination of a motor and a rack and a pinion may be employed.

The pneumatic chuck as the means for fixing the glass tube to the rotating body need not always have the same configuration as that of the pneumatic chuck of the present embodiment, The configuration may be applied for chucking of the glass tube. Furthermore, it is needless to say that the pneumatic chuck is not necessarily used as the glass tube fixing means, and other kinds of chucking means may be employed.

In the present embodiment, the pulley portion 31 is described as being integrally formed with the rotating body 30, but it is also possible to make the pulley member separately machined in consideration of workability fixed to the rotating body by welding or the like .

As described above, the apparatus for removing a fluorescent film of a glass tube for a fluorescent lamp according to the present invention is characterized in that the fluorescent substance film is removed from the glass tube by the bite member by moving the bite member in the axial direction of the glass tube in tight contact with the glass tube while rotating the glass tube Therefore, the fluorescent film removing operation can be performed easily, quickly, and uniformly.

Claims (7)

To remove the fluorescent film formed on the inner surface of the end portion of the glass tube for a fluorescent lamp, Frame, A rotating body rotatably installed in the frame, A glass tube fixing means for fixing the glass tube with respect to the rotating body in a state in which the center axis thereof coincides with the rotation center axis of the rotating body; Rotating means for rotating the rotating body, A reciprocating moving body provided on the frame so as to be able to move forward and backward toward an end of the glass tube fixed to the rotating body, Reciprocating means for reciprocating the reciprocating member; A lever member installed at the end of the reciprocating member so as to be movable along the radial direction of the glass tube, A bite member fixed to an end of the lever member and capable of entering into an end portion of the glass tube according to forward movement of the reciprocating member and having a fluorescent film peeling portion for peeling off the fluorescent film, And means for driving the lever member so that the fluorescent film peeling portion of the bite that has entered the end of the glass tube is in close contact with the inner surface of the glass tube. The apparatus according to claim 1, A pulley portion formed on the rotating body, A motor provided in the frame, A pulley fixed to an output shaft of the motor, A pulley fixed to an output shaft of the motor, and a belt engaged with a pulley portion of the rotating body to transmit power of the motor to the rotating body. The glass tube fixing device according to claim 1, A housing fixed to the rotating body, A plurality of pressing members which are installed in the housing so as to be able to move forward and backward with respect to a rotational center axis of the rotating body and disposed at predetermined angular intervals around the rotational center axis of the rotating body; And a spring for elastically biasing the respective pressing members in a direction to advance the rotation center axis, Wherein the pressing members are configured to elastically press the glass tube sandwiched therebetween by the spring to fix the glass tube. The method of claim 3, And a cushioning member is attached to a surface of each pressing member which is in contact with the glass tube. The method according to claim 1, The reciprocating means A ball screw rotatably mounted on the frame and screwed to the reciprocating member, And a motor for rotating the ball screw. The apparatus for removing a fluorescent film of a glass tube for a fluorescent lamp. The method according to claim 1, Wherein the bite member is elastically deformable. The method according to claim 1, Further comprising a stopper for positioning the glass tube fixed to the rotating body.