KR20080023858A - Join structure brush of removing apparatus for manufacturing fluorescent lamp - Google Patents

Abstract

A brush coupling device of a remaining fluorescent material remover is provided to facilitate a brush replacement process by directly connecting a fixing chuck with a connecting shaft. A brush joint device of a remaining fluorescent material remover includes a fixing chuck(110), a coupling member(120), and a connection shaft(130). A brush is detachably coupled with one side of the fixing chuck. The coupling member is protruded from the fixing chuck. A magnet is buried in the coupling member. The connection shaft is rotated by a rotation force from the outside and coupled with the coupling member by the magnet. A fixing pin is formed on outer periphery of the coupling member. The connection shaft includes a coupling groove corresponding to the fixing pin. When the fixing pin is coupled with the coupling groove, idle rotation of the fixing chuck is prevented during rotation of the connection shaft.

Description

Join Structure Brush of Removing Apparatus for Manufacturing Fluorescent Lamp

1 is a side view showing a device of a conventional fluorescent substance applying apparatus.

Figure 2a or Figure 2b is a schematic diagram showing a state in which the fluorescent material is applied to the inner surface of the conventional glass tube and some fluorescent material is removed.

Figure 3 is a perspective view showing a conventional fluorescent material removing unit.

Figure 4 is a schematic diagram showing the operating state of the conventional fluorescent substance residue removal device.

Figure 5 is a cross-sectional view showing a brush coupling device of the fluorescent substance residue removal device of the present invention.

Figure 6 is a cross-sectional view showing another embodiment of the fluorescent material removing unit according to the present invention.

Figure 7 is a cross-sectional view showing the operating state of the fluorescent substance residual removal apparatus according to the present invention.

<Description of the symbols for the main parts of the drawings>

10: fluorescent material removing unit 20: glass tube rotating part

110: fixed chuck 112: screw portion

120 connection member 122 magnet

124: fixing pin 130: connecting shaft

132: insertion hole 134: coupling groove

140: brush 150: rotation means

The present invention relates to a device for removing fluorescent residues, and more particularly, to a brush coupling device of a device for removing fluorescent residues, which prevents the brush from idling while preventing the detachment of the brush when the fluorescent material is removed from the lamp. will be.

LCD devices, which are being spotlighted in flat panel display devices, include non-light emitting devices that do not emit light by themselves, and thus include a backlight device that provides a separate light source.

In such a backlight device, a fluorescent lamp having a diameter of several mm is used. Cold fluorescent lamps (Cold Cathode Fluorescent Lamp) and external electrode fluorescent lamps (External Electrode Fluorescent Lamp) are used as the fluorescent lamps.

In the general apparatus of the cold cathode fluorescent lamp, a long glass tube and two electrodes attached to both ends thereof are provided, and the two electrodes are connected by leads formed at both ends of the glass tube. In addition, a fluorescent material is coated on the inner wall of the glass tube, and the inner space of the glass tube is filled with a mixed gas which generates and discharges an electric field.

The external electrode fluorescent lamp is a device in which both ends of the glass tube are sealed and both ends of the lamp are formed to form an electrode. The external electrode fluorescent lamp discharges gas by forming an electric field in the glass tube by the external electrode. In addition, a fluorescent material is coated on the inner wall of the glass tube. The inner space of the glass tube is filled with a mixed gas such as mercury, argon and neon.

Therefore, the manufacturing process of the fluorescent lamp necessarily involves the process of applying a fluorescent material on the inner surface of the glass tube. This fluorescent material coating process is performed using a fluorescent material coating device for the uniformity of the coating film and the speed of the coating operation.

As shown in FIG. 1, the conventional fluorescent substance applying apparatus 1 includes a rotary plate 30, a fixed plate 40, a central shaft 50, a vacuum suction unit 60, a hot air injection unit 70, and a rotary plate. It consists of a drive means (80).

The rotating plate 30 is a component that rotates while fixing the upper end of the glass tube (G). In the fluorescent material coating process, the glass tube is rotated at regular time intervals to perform a detailed process. That is, the glass tube is loaded, the loaded glass tube is moved to the fluorescent substance tank, the fluorescent substance is sucked and applied, and the glass tube coated with the fluorescent substance is moved to the next position and dried. At this time, the process of inhaling and applying the fluorescent material is completed in one step, but the process of drying the coated fluorescent material proceeds while continuously moving to the remaining process positions. Therefore, the rotating plate 30 serves to move the glass tube (G) to each process position at regular time intervals. The rotating plate 30 is provided with a head 32 for holding and moving the glass tube (G). The head 32 proceeds with each process while biting and moving four or more glass tubes at a time.

The fixing plate 40 is disposed in parallel to the lower side of the rotating plate 30, the component is provided with a fluorescent material tank 42. While the rotating plate 30 is a component that rotates at regular time intervals, the fixing plate 40 maintains a fixed state. The fixing plate 40 is provided with various detailed components such as the fluorescent substance tank 42.

The central shaft 50 serves to couple the rotating plate 30 and the fixed plate 40. The rotating plate 30 and the fixed plate 40 are spaced at regular intervals and maintained in parallel. Therefore, the rotating plate 30 and the fixing plate 40 are coupled in a state in which the central shaft 50 supports the rotating plate 30 located above.

In addition, the vacuum suction unit 60 is coupled to the upper portion of the glass tube (G) that rotates through the rotating plate 30 serves to absorb the fluorescent material by sucking the air inside the glass tube. In order to apply the fluorescent material to the glass tube, the lower end of the glass tube is immersed in the fluorescent material tank containing the fluorescent material, and the upper part of the glass tube is sucked in the air inside the glass tube, and the fluorescent material is sucked into the glass tube due to the pressure difference. Fluorescent material is applied to the inner surface. Therefore, the vacuum suction unit 60 is connected to the upper portion of the glass tube while the glass tube is contained in the fluorescent material tank to suck air in the glass tube.

The hot air injector 70 injects hot air into and out of the glass tube G which is fixed and rotated by the rotating plate 10. After the fluorescent material is applied to the inside of the glass tube by the vacuum suction part 60, the fluorescent material coated with the hot air injecting part 70 is dried. That is, the liquid in the fluorescent material is applied to the surface of the glass tube by the vacuum suction unit 60, the hot air injecting portion 70 by spraying the hot air into and out of the glass tube by the moisture in the fluorescent material applied to the glass tube By vaporizing the fluorescent material is dried. As shown in FIG. 1, the hot air injector 70 includes an inner supply part 70a and an outer supply part 70b. The inner supply unit 70a injects hot air into the glass tube, and the outer supply unit 70b injects hot air to the outside of the glass tube to create an overall atmosphere. At this time, the outer wall 72 is disposed to help dry the fluorescent material inside the glass tube to maintain a high temperature atmosphere around the fluorescent lamp.

The rotating plate driving means 80 is disposed below the central region of the fixed plate 40 to rotate the rotating plate 30 at a constant speed. The rotational speed of the rotating plate 30 is a very important factor with regard to the accuracy of the process. That is, the rotational speed of the rotating plate determines everything with respect to the tack time and the timing of operation of the other components to which the process is processed. As shown in FIG. 1, the rotating plate driving means 80 is disposed below the fixed plate 40. Therefore, the rotary plate 30 is connected to the rotary plate 30 through the central shaft 50 to drive the rotary plate.

As the fluorescent substance F applied to the inside of the glass tube G by the fluorescent substance applying apparatus 1, one end of the glass tube is applied to the end of the glass tube, as shown in FIG. 2A. By the way, the end portion of the glass tube (G) is a portion to which the electrode is coupled should not be applied fluorescent material in a section of a certain length from the end of the glass tube. Therefore, as shown in Figure 2b, the process of removing it for a certain section of the fluorescent material once applied is required.

The conventional fluorescent substance residue removing apparatus 90 for removing the unnecessary fluorescent substance is composed of a fluorescent lamp fixing portion 92 and a fluorescent substance removing portion 94 as shown in FIG. Here, the fluorescent lamp fixing part 92 serves to fix by biting the glass tube (G). In other words, the glass tube is fixed so as not to move during the removal process of the fluorescent material. Of course, the fluorescent lamp fixing unit 92 may rotate the fluorescent lamp at a low speed in the reverse direction of the rotation direction of the fluorescent material removing unit in the state of the door to facilitate the removal of the fluorescent material.

As shown in FIG. 3, the fluorescent substance removing unit 94 enters the glass tube G to remove some of the fluorescent substance. The fluorescent material removing unit 94 is composed of a brush 942 for directly contacting and removing the fluorescent material of the glass tube and a rotating means 948 for rotating the brush 942. A fixing chuck 944 and a connecting shaft 946 are provided between the rotating means 948 to facilitate replacement of the brush 942.

The fixing chuck 944 makes it easy to replace the brush 942 by configuring a fixing stand 944a which is detached with a bolt at the center of the circumference of the fixing chuck so that the brush 942 can be inserted and detached. . And the other side is provided with a magnet 944b to be coupled by the magnetic force of the magnet when coupled with the connecting shaft. This is to provide a plurality of fixed chuck to which the brush is coupled to be replaced according to the replacement cycle.

The connecting shaft 946 is one side is coupled to the rotating means 948, the other side is configured to be coupled with the fixed chuck serves to rotate the brush by applying the driving force of the rotating means 948, the magnetic force of the magnet It is possible to detach the brush from the connecting shaft without a separate device using.

However, the coupling force of the fixed chuck and the connecting shaft is dependent on the magnet, so that the brush is inserted into the glass tube so that the fixed chuck is separated from the connecting shaft by the friction force inside the glass tube during high-speed rotation, or the connecting shaft is idle because the friction force is greater than the magnetic force of the magnet. There was a problem that occurred.

The present invention has been made to solve the above problems, an object of the present invention is to prevent the separation of the brush when removing the fluorescent material from the lamp and at the same time to prevent the brush from idle idle brush of the fluorescent material removal device In providing a coupling device.

The present invention has the following configuration to achieve the above object.

Brush coupling device of the fluorescent substance residue removal device of the present invention, a fixed chuck detachably coupled to one side of the brush; A connection member extending from the fixed chuck and having a magnet embedded therein; A connecting shaft rotated by a rotation force applied from the outside, and coupled to the connecting member by a magnet; the connecting member includes a fixing pin on an outer circumferential surface thereof, and the connecting shaft has a coupling groove corresponding to the fixing pin. It is characterized in that the fixing pin and the coupling groove to prevent the fixed chuck from rotating during the rotation of the connecting shaft by providing a.

In addition, the fixing chuck and the connection member; further provided with a screw portion located therebetween, so as to protrude from any one of the fixed chuck or connecting member to allow the fixing chuck and the connection member to be detached separately, the screw portion The thread is preferably formed in the direction opposite to the rotation direction of the fixed chuck.

And the brush coupling device of the fluorescent substance residual removal device of the present invention, the fixed chuck is detachably coupled to one side and the screw portion protrudes on the other side; It is coupled to the fixing chuck and the screw portion, but the connecting shaft rotates by a rotation force applied from the outside.

In addition, the screw portion is to form a screw thread in a direction opposite to the rotation direction of the fixed chuck, the screw portion is preferably to have a magnetic force to enhance the binding force when coupled with the connecting shaft.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings.

As shown in FIG. 5, the fluorescent material removing unit 10 includes a fixing chuck 110, a connecting member 120, a connecting shaft 130, and a brush 140.

The fixing chuck 110 has a groove (not shown) formed at one side along a circumferential central axis by a predetermined length, and the other side of the fixing chuck 110 extends to protrude from the fixing chuck and protrudes from the connection member 120. The magnet 122 is buried inside. And it is provided with a fixing pin 124 protruding upward on one side of the outer peripheral surface of the connection member 120. In addition, the fixing chuck 110 is formed by cutting a predetermined portion of the groove is formed into a fixed stand (not shown), and the brush 140 is coupled using a bolt so that the brush 140 can be coupled without shaking.

The connecting shaft 130 has an insertion hole 132 formed at one side thereof so that the connection member 120 is inserted to closely contact the inner surface of the insertion hole 132 with a magnetic force. When the connecting member 120 is inserted into the connecting shaft 130 by opening the coupling groove 134 connecting the inner circumferential surface of the insertion hole 132 to the outer peripheral surface of the connecting shaft, the fixing pin 124 is the coupling groove 134. ) Can be combined. And the other side of the insertion hole 132 is connected to the rotating means 150 is connected to a separate motor (not shown) to enable the rotation by the rotational force of the motor. Here, the rotating means 150 may be any one as long as the driving force of the motor can be applied to the connecting shaft, but as a preferred embodiment, a drive by a belt pulley or a chain sprocket is used.

The brush 140 is provided with a plurality of thin metal thread on the outer peripheral surface of the shaft (not shown) inserted into the fixed chuck 110 to have an outer peripheral shape, the outer circumference of the brush 140 is a glass tube (G) It is preferable to form larger than the inner peripheral surface of the. This is because, as mentioned in the prior art, the fluorescent material formed on the inner circumferential surface of the glass tube must be partially removed from the glass tube end.

On the other hand, further provided with a threaded portion 112 positioned between the fixing chuck 110 and the connecting member 120, the screw portion 112 is formed to extend and protrude from any one side of the fixed chuck or connecting member 120. And, the other side is provided with a fixed chuck and the connecting member as an independent configuration in a state in which a screw groove (not shown) to have the same pitch as the screw portion. This is to provide a plurality of the fixing chuck in a state where the connecting member is fixed on the connecting shaft so that only the fixing chuck can be easily detached. To this end, the thread 112 is preferably formed with a screw thread in the direction opposite to the rotation direction of the fixed chuck.

Referring to the coupling relationship of the present invention, first connecting the connecting shaft 130 and the separate motor using the rotation means 150, and then connecting the connection member 120 to the insertion groove 132 formed on the connecting shaft 130 Insert and combine. At this time, the fixing pin 124 provided on the outer circumferential surface of the connecting member 120 and the coupling groove 134 provided on the connecting shaft are coupled to each other, thereby preventing idling of the fixed chuck by rotation.

And by connecting the connecting member 120 using the fixed chuck 110 and the screw portion 112, the connecting member can be replaced from time to time to replace the brush 140 by only removing the fixed chuck in the state coupled to the connecting shaft, If a plurality of fixed shafts are provided and stored in a combined state with the brush, the yield of the work process can be more efficiently managed.

Hereinafter, with reference to the accompanying drawings will be described another embodiment of the present invention.

As shown in FIG. 6, the fluorescent material removing unit 10 ′ includes a fixed chuck 110 ′, a connecting shaft 130 ′, and a brush 140 ′.

The fixing chuck 110 ′ and the brush 140 ′ have the same configuration as described with reference to FIG. 5 and will not be described.

The connecting shaft 130 ′ forms a screw groove (not shown) having the same pitch as the threaded portion 112 ′ protruding from the fixed shaft 110 ′ on the central axis thereof, thereby coupling and fixing the screw portion. It is possible. In addition, the screw portion has a magnetic force through heat treatment to more securely coupled to the connecting shaft to prevent the fixed chuck from being separated by rotation or impact. Here, the thread forming direction of the screw portion is as described in the present invention.

7 shows the use state of the present invention, referring to this, first, the glass tube G is fixed to the glass tube rotating part 20. At this time, the fixing of the glass tube fixes the uncoated end when the fluorescent material is applied. Here, the glass tube rotating unit 20 is omitted because it uses the prior art. Then, the prepared fluorescent substance removing unit 10 is moved to the glass tube side, and the brush 140 is rotated using the rotating means 150 and inserted into the glass tube to remove the fluorescent substance F applied inside the glass tube. Will be. At this time, the glass tube rotating unit 20 rotates the glass tube slowly to one side, and the fluorescent substance removing unit 10 rotates at a high speed in the opposite direction to the glass tube. After removing the fluorescent material from the glass tube, remove the fluorescent substance removing part, and then remove the glass tube from the glass tube rotating part and move it for the next process.

The present invention is not limited to the embodiments described above, and various modifications and changes can be made by those skilled in the art, which are included in the spirit and scope of the present invention as defined in the appended claims.

According to the present invention, when the fluorescent material is removed from the lamp, there is an effect of preventing the brush from being idle while preventing the detachment of the brush.

In addition, by directly connecting the fixed chuck and the connecting shaft has an effect that can simplify the brush replacement.

In addition, by separately configuring the connecting member and the fixed chuck has an effect that can increase the process yield.

Claims (6)

A fixed chuck to which the brush is detachably coupled to one side; A connection member extending from the fixed chuck and having a magnet embedded therein; And a connecting shaft rotated by a rotation force applied from the outside and coupled by the connecting member and the magnet. The connecting member is provided with a fixing pin on the outer circumferential surface, the connecting shaft is provided with a coupling groove of the shape corresponding to the fixing pin to prevent the fixed chuck from rotating when the connecting shaft is rotated by the coupling of the fixing pin and the coupling groove. Brush coupling device of the fluorescent substance residue removal device, characterized in that. The method of claim 1, The fixing chuck and the connecting member are further provided with a screw portion located therebetween, so that the fixed chuck and the connecting member is detachably formed so as to protrude from any one of the fixing chuck or connecting member Brush coupling device for removing material residues. The method of claim 2, The screw unit is a brush coupling device of the fluorescent substance residue removal device, characterized in that for forming a screw thread in a direction opposite to the rotation direction of the fixing chuck. A brush is detachably coupled to one side and a fixed chuck on which the screw part protrudes; And a coupling shaft coupled to the fixing chuck and the screw but rotating by a rotation force applied from the outside. The method of claim 4, wherein The screw unit is a brush coupling device of the fluorescent substance residue removal device, characterized in that for forming a screw thread in a direction opposite to the rotation direction of the fixing chuck. The method of claim 5, wherein And the screw portion has a magnetic force so as to reinforce a binding force when combined with the connecting shaft.

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