DE19736251A1 - Device for removing a fluorescent film on the glass tube of a fluorescent lamp - Google Patents

Abstract

An apparatus for removing a fluorescent film on a glass tube (1) for a fluorescent lamp is constructed to remove the fluorescent film formed on the inner surface at both ends of the glass tube (1) by moving a bit member (61) closely adhered to the glass tube in an axial direction of the glass tube (1) while rotating the glass tube (1). The glass tube (1) is rotated by a motor (35) via a belt (37) while being held in an air chuck (40). The bit member (61) is movable towards the tube on a body (50) driven by a motor (51) along a ball screw, and is pivotable under the action of a cylinder (54).

Description

The invention relates to a device for removal of a fluorescent film attached to the inner peripheral surface trained both ends of the glass tube of a fluorescent lamp det.

When manufacturing a fluorescent lamp, a Fluorescent film formed in that on the inner Circumferential surface of the glass tube a phosphor material ge is layered. After the work process of training of the fluorescent film on the inner peripheral surface of the glass tube is completed, the fluorescent film must be attached to the Ends of the glass tube are removed to cover the ends of the glass seal the tube tightly. To the fluorescent film on everyone To remove the end of the glass tube has been used by a Be Servant a brush with a variety of elasti bristles inserted into one of the ends of the glass tube and then the brush is rotated in a direction that the  Rotation of the glass tube is opposite, causing the Fluorescent film is removed by passing through the Bristles of the brush is cut.

In such a conventional method but it takes a lot of time to close the fluorescent film remove, the fluorescent film also not evenly is removed or the inner surface of the glass tube can be damaged because the removal of the fluorescent film depends heavily on the feeling of the operator. The brush Furthermore, does not last long, so it is often replaced must become. If the glass tube continues to a through is small of 2 mm, the fluorescent film must over a Specially made brush can be removed, which for the Small diameter is suitable, which increases the cost.

The invention is therefore intended to provide a device for Removing the fluorescent film from a glass tube for one Fluorescent lamp are created, which is designed that they're the fluorescent film that's on the inner circumference area at the ends of the glass tube of the fluorescent lamp formed, remove easily, quickly and evenly can.

For this purpose, the device for Ent comprises remove a fluorescent film on the inside surface one end of a glass tube for a fluorescent lamp is a frame, a rotating body that forms is rotatably mounted over the frame, a glass tube fixing device for fixing the glass tube with respect of the rotating body in such a state that the middle axial line of the glass tube with the middle rota axial axis of the rotating body coincides, one Rotating device for rotating the rotating body, one floating body that over the frame like that is arranged to be at the end of the rotating body set glass tube to and from the  end can move back and forth device for reciprocating the reciprocating moving body, a lever element, one end of which floating body is attached so that it can move in the radial direction of the glass tube Knife element, on the free end of a fluorescent film Removal part for removing the fluorescent film out is formed, which is attached to one end of the lever element and that can enter one end of the glass tube, and a device for driving the lever element, that the fluorescent film removal part of the knife element, that has entered the end of the glass tube, close to the Inside surface of the glass tube sits.

The following is based on the associated drawing particularly preferred embodiment of the invention described in more detail. Show it

Fig. 1 is a schematic sectional view of the exporting approximately example of the fluorescent film removing apparatus,

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

Fig. 3 is a schematic sectional view of the device shown in Fig. 1 according to a movement of its reciprocates reciprocating body

Fig. 4 is an enlarged sectional view schematically showing a knife element in the state of the device shown in Fig. 3, and

Fig. 5 shows the state in which after the removal of a fluorescent film, the reciprocating body withdraws from the state of the device shown in Fig. 4.

The device shown in FIGS. 1 and 2 for removing a fluorescent film from a glass tube for a fluorescent lamp has a frame 10 , a hollow, rotating body 30 which is rotatably mounted above the frame 10 , and a rotating device for rotating the rotating body 30 on. A hollow support body 11 is attached to the upper outer surface of the frame 10 . The rotating body 30 is rotatably inserted into the holding body 11 in that a bearing 11 a is arranged on the holding body 11 . The rotary device for rotating the rotating body 30 has a drive wheel 31 , which is formed on the rotating body 30 , a motor 35 which is attached to the frame 10 , a drive wheel 36 , which is fixed on an output shaft 35 a of the motor 35 sits, and a belt 37 which extends between the driven wheel 31 and the drive wheel 36 .

The fluorescent film removing device further has a glass tube fixing device for fixing the glass tube 1 to the rotating body 30 such that the central axial line of the glass tube 1 coincides with the axial line (CL) of the rotating center of the rotating body 30 . A reciprocating body 50 is further mounted so that it can move back and forth in the glass tube 1 which is fixed with respect to the rotating body 30 .

The glass tube fixing device comprises a compressed air chuck 40 which is coaxially attached to the rotating body 30 . The compressed air chuck 40 contains a housing 41 , which is fastened to the rotating body 30 by welding, and a plurality of clamping jaws 42 , which are attached to the housing 41 radially and symmetrically. The jaws 42 are centered at certain angular intervals around the central rotational axial line (CL) of the rotating body 30 . Since each clamping jaw is resiliently biased 42 in the direction of the mitt sized Rotationsaxiallinie (CL) of the rotating body 30 by a spring 43, then the jaws 42 sit when a glass tube 1 is arranged between the clamping jaws 42, elastically close at the outer circumference of the glass tube 1 due to the action of the spring 43 , whereby the glass tube 1 is fixed. If a negative pressure in the room 40 a in the housing 41 is generated by a vacuum pump 45 , then the springs 43 are pressed together by the negative pressure so that the jaws 42 from the middle rotation axis line (CL) of the rotating body 30 pull back. As shown in Fig. 2, it is preferred that a buffer member 42 a, for example made of a spongy material is attached to the contact surface of the jaws 42 to the glass tube 1 to effectively a hard stop or damage to the glass tube 1 by the Avoid clamping jaws 42 .

The reciprocating body 50 is slidably combined with a guide rod 14 . The guide rod 14 , the ends of which are attached to two brackets 12 and 13, which are mounted at a certain distance from each other on the upper outer surface of the frame 10, is mounted parallel to the central axis of rotation (CL) of the rotating body 30 . The reciprocating body 50 can thus move back and forth along the guide rod 14 from the end portion of the glass tube 1 defined by the air chuck 40 . There are also a motor 51 and a ball screw 52 which are combined with the reciprocating body 50 via a screw to drive the reciprocating body 50 . The motor 51 is attached to the bracket 12 which holds one end of the guide rod 14 . One end of the ball screw 52 is rotatably combined with the carrier 13 which supports the other end of the guide rod, and the other end of the ball screw 52 is fixed to the output shaft of the motor 51 .

A hinge pin 60 a is attached to the back and forth body 50 and a lever member 60 is rotatably combined with the hinge pin 60 a. When the Hebelele element 60 is rotated, its free end is moved in the radial direction of the glass tube 1 , which is fixed with respect to the rotating body 30 . A knife element 61 is attached to the free end of the lever element 60 . Preferably, the knife element 61 consists of a high-quality elastic material, for example piano wire with high elasticity. When the reciprocating body moves 50 to the end portion of the glass tube 1 , the free end of the knife member 61 is inserted into the end of the glass tube 1 . A fluorescent film removal part 61 a is formed at the free end of the knife element 61 , which enters the end portion of the glass tube 1 , as was described above.

The rotating device for the lever element 60 has a cylinder 54 and a spring 65 . The cylinder 54 for rotating the lever member 60 down is arranged on a bracket 53 which is attached to the upper outer surface of the reciprocating body 50 . A front end of a rod 54 a of the cylinder 54 contacts the upper part of the lever element 60 . The spring 65 is stretched when the lever member 60 is moved down by the cylinder 54 . Since the spring 65 is a tension spring, the ends of which are attached to the reciprocating body 50 and the lever element 60 , when the work of the cylinder 54 is interrupted, the lever element 60 is returned, that is, by the restoring force upwards pivoted.

The device which continuously maintains a fixed position of the glass tube 1 with respect to the rotating body 30 by means of the compressed air chuck 40 comprises a stop 72 which is connected to the rod 71 of a cylinder 70 which is attached to the frame 10 and which in one direction perpendicular to the central axis of rotation (CL) of the rotating body is moved by the work of the cylinder 70 .

The following is the removal process a fluorescent film from the inner surface at the end portion  using a glass tube for a fluorescent lamp a fluorescent film removal device with the above described structure explained.

If first the space 40 a in the housing 41 of the compressed air feed 40 is evacuated by the work of the vacuum pump 45 , the jaws 42 are moved in one direction away from the central rotational axial line (CL) of the rotating body 30 while the springs 43 are compressed . In this state, when the stopper 72 , which is fixed to the rod 71 , is placed in the raised position due to the work of the cylinder 70 , as shown by a broken line in Fig. 1, the glass tube 1 is in the end of the rotating body 30 is inserted, on which the driven wheel 31 is formed. The glass tube 1 is inserted further until its front end passes through the jaws 42 and comes into contact with the stop 72 . If thereafter, due to an interruption of the work of the vacuum pump 45, the negative pressure in the space 40 a in the housing 41 of the compressed air chuck 40 is released, the clamping jaws 42 are moved in the direction of the central rotational axial line (CL) of the rotating body 30 by the restoring force of the springs 43 so that they press against the outer peripheral surface of the glass tube 1 , thereby holding the glass tube 1 with respect to the rotating body 30 . When the glass tube 1 is fixed in this manner, the stopper 72 is lowered by the work of the cylinder 70 as shown by a solid line in FIG. 1 to open the end of the glass tube 1 . Thereafter, the motor 51 is rotated so that the ball screw 52 , which is combined with the output shaft of the motor 51 , is rotated and the reciprocating body 50 , which is screwed with the ball screw 52 , toward the end of the glass tube 1 moved forward along the guide rod 14 . The lever member 60 , which is combined with the reciprocating body 50 , and the Messerele element 61 , which is attached to one end of the lever member 60 , accordingly approach one end of the glass tube 1 , as shown in Fig. 3 , so that the phosphor film removal part 61 a of the knife element 61 occurs over a certain distance in the end portion of the glass tube 1 , as shown by a broken line in Fig. 4 is.

If in this state the rod 54 a is moved forward by the work of the cylinder 54 , the lever element 60 , which is in contact with the end of the rod 54 a, pivots downward about the articulation pin 60 a, as indicated by a solid line in FIG. 4 is shown. The free end of the knife element 61, which is at one end of the lever is placed, therefore likewise pivots downwardly and the phosphor film removal part 61 a of the knife element 61 is seated elastically close to the phosphor film 1 a, which is at the in the glass tube 1 inner face formed.

If the fluorescent film removal part 61 a of the measuring element 61 rests elastically and close to the fluorescent film 1 a on the inner surface of the glass tube 1 , the motor 35 is rotated. When the motor 35 rotates, the rotating force of the motor 35 is transmitted to the rotating body 30 via the drive wheel 36 , the belt 37 and the driven wheel 31 , so that the rotating body 30 and the glass tube 1 attached to it rotate about the central rotational axial line ( CL) of the rotating body 30 . In this way, the fluorescent film removal part 61 a of the knife element 61 , which sits close to the fluorescent film 1 a, begins to cut the fluorescent film 1 a in the glass tube 1 . During this operation, a device such as a blower can remove the cut fluorescent film from the inside of the glass tube by blowing air into the glass tube 1 .

At this time, when the reciprocating body 50 is moved back at an appropriate speed taking into account the rotating speed of the glass tube 1 by the work of the motor 51 , the knife member 61 slides out of the end portion of the glass tube 1 . While the knife element 61 slides out of the end portion of the glass tube as described above, the fluorescent film removing part 61 a of the knife element 61 removes the fluorescent film from the glass tube 1 . Thus, when the fluorescent film removal part 61 a of the knife element 61 is completely slid out of the end portion of the glass tube 1 , the fluorescent film 1 a, which was formed on the inner surface at the end of the glass tube 1 , is completely removed.

Since by means of the device for removing a fluorescent film described above, the fluorescent film 1 a is automatically removed by the rotation of the glass tube 1 and the insertion of the knife element 61 , the process of removing the fluorescent film can be completed in a short time without any problems. Further, since the blade is element 61 of a material having excellent elasti's properties, when DAS Hebelele element is acted upon by the cylinder 54 60, the fluorescent film removal part 61 a of the blade member 61 ela cally close to the phosphor film 1 a on the inside surface the glass tube 1 pressed. Thus, even if the pressure on the lever member 60 is not constant or the central axial line of the glass tube 1 does not coincide with the central rotational axis line (CL) of the rotating body, the fluorescent film can be removed evenly and damage to the inner surface of the glass tube can be effectively avoided the. The knife element described above also has an extraordinarily long life compared to a brush and is associated with relatively low manufacturing costs, since a material such as a piano wire with high elasticity is simply processed. The fluorescent film on the inner surface of a glass tube, which for example has a diameter of only 2 mm, can also be removed in a simple manner.

In the above-described embodiment, a belt drive was used to transmit the driving force of the motor 35 to the rotating body to rotate the rotating body 30 , that is, the glass tube 1 . However, gears or other constructions can be used instead of a belt drive to transmit the driving force of the motor to the rotating body.

Similarly, the motor and ball screw are not the only means for moving the reciprocating body 50 . For example, a combined construction of a motor, a rack and a pinion can be used.

Likewise, it is not necessary that the compressed air chuck as a device for fixing the glass tube to the rotie renden body the structure of the above embodiment Has. Different types of compressed air chucks can be used in pas can be used for clamping the glass tube. Furthermore, a compressed air feed does not necessarily have to be Glass tube fixing device can be used. It is without further possible that other types of tensioners be used.

Although in the above embodiment a driven wheel 31 was formed in one piece with the rotating body 30 , a separately produced driven wheel can also be attached to the rotating body by welding or by wedging, etc.

The device for removing the fluorescent film on the glass tube of a fluorescent lamp is so ausgenbil det that the fluorescent film attached to the inner surface  both ends of the glass tube is formed, thereby removed is that a knife element that is close to the glass tube is applied, is moved in the axial direction of the glass tube, while rotating the glass tube. The operation of the Removal of the fluorescent film can therefore be done easily, quickly and run evenly.

Claims (7)

1. A device for removing a fluorescent film, which is formed on the inner surface at one end of a glass tube for a fluorescent lamp, characterized by
a frame ( 10 ),
a rotating body ( 30 ) rotatably mounted over the frame ( 10 ),
a glass tube fixing device for fixing the glass tube ( 1 ) with respect to the rotating body ( 30 ) in such a way that the central axial line of the glass tube ( 1 ) coincides with the central rotational axial line of the rotating body ( 30 ),
a rotating device for rotating the rotating body ( 30 ),
a reciprocating body ( 50 ) mounted over the frame ( 10 ) so that it is in front of and back from the end of the glass tube ( 1 ) defined with respect to the rotating body ( 30 ) can move
a reciprocating device for reciprocating the reciprocating body ( 50 ),
a lever member ( 60 ), one end of which is attached to the reciprocating body ( 50 ) so that it can move in the radial direction of the glass tube ( 1 ),
a knife element ( 61 ), at the free end of which a fluorescent film removal part ( 61 a) is formed for removing the fluorescent film, which is attached to one end of the lever element ( 60 ) and which can enter one end of the glass tube ( 1 ), and
a device for driving the lever element ( 60 ) such that the fluorescent film removal part ( 61 a) of the knife element 61, which has entered the end of the glass tube ( 1 ), sits close to the inner surface of the glass tube ( 1 ). 2. Device and claim 1, characterized in that the rotating device
a motor ( 35 ) attached to the frame ( 10 ),
a drive wheel ( 36 ) attached to the output shaft of the motor ( 35 ),
an output gear ( 31 ) formed on the rotating body ( 30 ), and
comprises a belt ( 37 ) which transmits the driving force of the motor ( 35 ) to the rotating body ( 30 ) and runs between the drive wheel ( 36 ) and the driven wheel ( 31 ). 3. Device and claim 1, characterized in that the glass tube fixing device
a housing ( 41 ) which is attached to the rotating body ( 30 ),
a plurality of jaws ( 42 ) which are placed on the housing ( 41 ) so that they can move back and forth to the central rotational axial line of the rotating body ( 30 ), and which are arranged around the central rotational axial line of the rotating body ( 30 ) are and
a spring ( 43 ) which elastically biases each jaw ( 42 ) to the central rotational axial line,
the glass tube ( 1 ), which is inserted between the clamping jaws ( 42 ), being fixed in that the spring ( 43 ) acts on it elastically. 4. The device in claim 3, characterized in that a buffer element ( 42 a) is attached to the contact surface of each jaw ( 42 ) to the glass tube ( 1 ). 5. The device in claim 1, characterized in that the reciprocating means
a ball screw ( 52 ) rotatably mounted with respect to the frame and screwed with the reciprocating body ( 50 ), and
a motor ( 51 ) for rotating the ball screw ( 52 ). 6. The device in claim 1, characterized in that the knife element ( 61 ) is elastically deformable. 7. The device in claim 1, characterized by a stop ( 72 ) which defines a position of the glass tube ( 1 ) which is fixed with respect to the rotating body ( 30 ).