KR0175080B1 - A coil inspecting jig of optical pickup actuator - Google Patents

Abstract

The present invention is a coil inspection apparatus of an optical pickup actuator comprising a fixing means (120) for fixing and applying power to the bobbin (110) and an inspection jig (140) that affects the bobbin (110). The bobbin 110 is installed to check the resistance of the focusing coil 114 and the tracking coil 116 and to observe the flow of the bobbin 110 in the radial direction and the optical axis direction, thereby tracking the tracking coil 116 of the bobbin 110. ) And the installation of the focusing coil 114 is to quickly and simply measure.

Description

Coil Inspection Jig of Optical Pickup Actuator

1 is a plan view of an optical pickup actuator,

2 is a coil inspection jig of a conventional optical pickup actuator.

3 is a side cross-sectional view showing the fixing means of the coil inspection jig according to the present invention,

4 is a cross-sectional view of the coupling state of the coil inspection jig according to the present invention,

5 is a perspective view of the coupling state of the coil inspection jig according to the present invention.

* Explanation of symbols for main parts of the drawings

110: bobbin 112: coil PC

114: focusing coil 116: tracking coil

120: fixing means 121: body

122: projection groove 124: locking jaw

126: power projection 128: jam jaw

130: spring 132: terminal hole

134: terminal line 140: inspection jig

141; Base 142: Inner Support

144: outer support 146: magnet

The present invention relates to a device for measuring an installation state of a tracking coil and a focusing coil installed in a bobbin of an optical pickup actuator. In particular, the present invention provides a device for fixing a bobbin, applying a current, and influencing a magnetic field on the bobbin to provide a tracking coil and focusing. The present invention relates to a coil inspection jig of an optical pickup actuator for easily measuring a coil installation state.

In general, the optical pickup actuator is installed vertically below the disc, which is an optical recording medium of various optical disc players such as a mini disc player (MDP), a compact disc player (CDP), or a laser disc player (LDP). While moving, it detects the desired track position on the disc. At the detected track position, the laser light is incident on the pit recorded on the disc surface, and then the reflected light is detected through the optical system. It is a device to play content.

As shown in FIG. 1, the optical pickup actuator includes a plate 10 positioned at a lower portion and a bobbin 20 installed at the plate 10.

A pair of inner yokes 12 are formed in place on the plate 10, and a pair of outer yokes 14 are formed outside the outer yokes 14, and a predetermined distance is spaced apart from the outer yokes 14. The second yoke 16 is formed on the outer side in the longitudinal direction of the plate 10.

In addition, a magnet 15 is fixedly installed on an inner surface of the outer yoke 14.

In addition, an objective lens 24 for focusing a disk reflection surface is provided above the laser passing hole 22 of the bobbin 20 provided in the plate 10, and an inner yoke () is provided on the bobbin 20. A focusing coil 26 is inserted into the fluid 12 and controls the movement of the objective lens 24 in the optical axis direction, and the objective lens 24 is radially radiated on both outer surfaces of the focusing coil 26. A tracking coil 28 for controlling the furnace movement is provided.

In addition, a coil PC 30 to which the tracking coil 28 and the focusing coil 26 are attached is provided at both sides of the bobbin 20, and the coil PC 30 is provided with a focusing coil 26 and a tracking coil 28. Suspension wires 34 which transmit the input and output signals of the servo system and support the swing of the bobbin 20 and attenuate the vibrations during an impact from the outside are bonded.

In addition, the second yoke 16 is provided with a holder gel 36 for supporting the wire 34, and a suspension PCB 38 for receiving input and output signals of a servo system outside the holder gel 36. ) Is installed.

In the above configuration, the center of gravity of the driving force of the coil and the center of gravity of the bobbin 20 coincide with each other when the optical pickup actuator is driven, so that one focusing coil 26 and the tracking coil 28 mounted inside the bobbin 20 are matched. The bobbin 20 is sufficiently moved by the Lorentz driving force of the magnet 15.

Referring to the operation of the optical pickup actuator configured as described above in detail as follows.

As shown in FIG. 1, the photo detector on the optical system detects the focusing and tracking states at the recording pit of the laser beam. Here, when the focusing and tracking state is detected and the correction is necessary, the servo system transmits an electrical signal to the PC. The focusing coil 26 and the tracking coil 28, which are installed at the center of gravity in the bobbin 20 by the electrical signals transmitted from the PCB to the coil PC 30 through the wire 34, have a magnetic flux with the magnet 15. The result is a Lorentz driving force.

Then, when a current is applied to the focusing coil 26 and the tracking coil 28 through the wire 34, the magnet 15 mounted on the inner surfaces of the tracking coil 28, the focusing coil 26, and the outer yoke 14. Lorentz driving force is generated in the liver to drive the bobbin 20. At this time, the inner yoke 12 is fitted to the center of gravity of the bobbin 20 so that the focusing coil 26 is flowed so that the center point of the driving force of the coil and the center of gravity of the bobbin 20 as the movable part when the bobbin 20 is driven. This will match.

In addition, the coil PC 30 attached to the side portion of the bobbin 20 has a portion welded by soldering to connect the wires connected to the focusing coil 26 and the tracking coil 28 with the four wires 34. It is formed in four places.

Meanwhile, in the process of manufacturing the optical pickup actuator, the resistance of the tracking coil 28 and the focusing coil 26 is measured to check whether the flow of electricity is properly applied to the tracking coil 28 and the focusing coil 26. Will be tested.

Conventionally, the tracking coil 28 and the focusing coil are placed against a soldering portion formed in the coil PC 30 by using a digital tester probe to measure the resistance of the tracking coil 28 and the focusing coil 26. The resistance of (26) was measured.

However, as described above, a method of measuring the resistance of the tracking coil 28 and the focusing coil 26 by using a conventional digital tester should accurately bring a probe needle to the soldering portion of the coil PC 30, Since the spacing of the sites is very narrow, shorts are likely to occur, and resistance values are not accurately measured.

In order to solve such a problem, the patent application No. 37979 (name: coil resistance measuring device of optical pickup actuator, application date: October 30, 1995), which was filed by the present applicant, is an optical pickup actuator tracking coil. And the resistance value of the focusing coil was simply and conveniently measured without a short using a resistance measuring jig in which the bobbin is placed on the upper surface.

Hereinafter will be described in detail with reference to the accompanying drawings the configuration of the invention.

As shown in FIG. 2, the tracking jig 40 includes a measuring jig 40 having a settling groove 42 on which the bobbin 20 is settled, a focusing coil 26 soldering portion, and a tracking coil 28 soldering portion. And a resistance measuring member 50 for measuring the resistance of the focusing coil 26.

The measuring jig 40 has installation grooves 44 formed on both sides of the settling groove 42, and a terminal hole 60 is formed outward from the installation groove 44.

In addition, the resistance measuring member 50 is inserted and installed to have elasticity in the installation groove 44 formed in the measuring jig 40, the terminal line 60 connected to the resistance measuring member 50 is the measuring jig ( 40 is connected to the outside through the terminal hole (60).

In addition, the end of the resistance measuring member 50 is formed in a rounded shape so as to easily contact the focusing coil 26 soldering portion and the tracking coil 28 soldering portion of the coil PC 30.

Hereinafter, the operation and effects of the resistance measuring device configured as described above will be described in detail.

To measure the resistance values of the focusing coil 26 and the tracking coil 28 of the bobbin 20, hold the bobbin 20 and insert the bobbin 20 into the settling groove 42 formed on the measuring jig 40. Then, the four resistance measuring members 50 are in contact with the focusing coil 26 soldering portion and the tracking coil 28 soldering portion formed in the coil PC 30, respectively.

At this time, the current is applied to the focusing coil 26 and the tracking coil 28 to measure the resistance, thereby inspecting the installation state of the tracking coil 28 and the focusing coil 26 provided on the bobbin 20.

In this manner, after measuring the resistance value, the bobbin 20 is pulled upward to be separated from the settling groove 42 of the measuring jig 40, and the resistance value of the other bobbin 20 is passed through the above-described method. Continue to measure continuously.

Therefore, by using the measuring jig 40 as described above, a short does not occur in measuring the resistance values of the tracking coil 28 and the focusing coil 26 of the bobbin 20, and the accurate resistance value in a stable state is obtained. You can measure it.

However, some problems arise in using the above-described measuring jig.

First, it is inconvenient to insert and remove the bobbin into the settling groove of the measuring jig. Since the settling groove of the measuring jig is formed as a square groove, it is difficult to insert and remove the bobbin into the settling groove, which increases the working time, and when the bobbin is inserted or removed using a tool, the work becomes cumbersome.

Secondly, the measuring jig measures only resistance values of the tracking coil and the focusing coil installed in the bobbin, so that the bobbin is not operated by the magnetic field of the magnet.

The present invention has been made in order to solve the above problems, using the inspection jig which is open on both sides of the bobbin and installed to be movable by the magnet, the bobbin is detachably attached to the inspection jig, tracking coil and focusing This is to measure the resistance value and operation of the coil.

The purpose of the above is to fix the bobbin of the optical pickup actuator and to apply the power in the device for measuring the installation state of the tracking coil and focusing coil, the fixing of the bobbin and applying power to the tracking coil and focusing coil of the bobbin It is achieved by providing a coil inspection jig of an optical pickup actuator comprising a means and an inspection jig in which the fixing means is installed and the bobbin fixed to the fixing means affects the magnetic field.

Hereinafter, the configuration of the present invention will be described in detail by the accompanying drawings.

According to the present invention, the fixing means 120 for fixing the bobbin 110 and applying power to the tracking coil 116 and the focusing coil 114 of the bobbin 110 and the fixing means 120 are installed and fixed. It consists of a test jig 140 for affecting the magnetic field on the bobbin 110 fixed to the means (120).

The fixing means 120 is installed on the body 121 and the body 121 for supporting both coil PC 112 and the bottom of the bobbin 110, the tracking coil 116 and the focusing coil of the coil PC 112 It consists of four power supply protrusions 126 for applying power to the 114.

In addition, both sides of the body 121 of the fixing means 120 is formed with a projection groove 122 is formed with a locking jaw 124 on the inside, the terminal hole 132 is formed on the outer side of the projection groove 122 do. In addition, the power protrusion 126 is provided with a locking protrusion 128 at the interruption, and is inserted into the protrusion groove 122, and a spring 130 that gives elasticity to the power protrusion 126 is inserted into the protrusion groove 122. Is installed, the terminal line 134 is connected to the power supply protrusion 126 is connected to the outside through the terminal hole 132 is installed.

In addition, the inspection jig 140 has a base 141 formed on a bottom surface thereof, and a pair of inner supporters 142 for fitting the bobbin 110 on the upper side of the base 141 is installed, and the inner supporter 142. On the outside of the) a pair of outer support 144 is formed. The magnet 146 is provided on the inner side surface of the outer support 144.

Hereinafter will be described in detail the operation and effect of the present invention.

First, by holding the portion to which the tracking coil 116 of the optical pickup actuator bobbin 110 is attached by hand, the power supply protrusion 126 installed on the body 121 of the fixing means 120 is the tracking coil of the coil PC 112. 116 and the focusing coil 114 is inserted so as to contact well. At this time, the power projection 126 is elastically supported by the bobbin 110 by the spring 130 installed in the projection groove (122).

In the above state, the fixing means 120 is moved to the inspection jig 140 to be inserted into the gap between the bobbin 110 and the focusing coil 114 on the inner support 142 of the inspection jig 140.

When power is applied to the power supply protrusion 126 of the fixing means 120 through the terminal line 134, a current is applied to the tracking coil 116 and the focusing coil 114 in contact with the power supply protrusion 126. Is flowed to take a magnetic field, according to the current applied by the fixing means 120 is inserted into the bobbin 110 under the influence of the magnetic field generated from the magnet 146 attached to the outer support 144 of the inspection jig 140. The bobbin 110 flows in the radial direction and the optical axis direction.

In this state, by connecting the terminal line 134 installed on the power projection 126 of the fixing means 120 to the resistance measuring device to measure the resistance of the tracking coil 116 and the focusing coil 114 of the bobbin 110. In addition, the bobbin 110 is able to inspect the operation of the bobbin 110 from flowing under the influence of the magnetic field generated in the magnet 146 of the inspection jig 140.

When the inspection of the installation state of the focusing coil 114 and the tracking coil 116 for one bobbin 110 is completed, the fixing means 120 into which the bobbin 110 is inserted is removed from the inspection jig 140. Then, the bobbin 110 is taken out by holding the tracking coil 116 of the bobbin 110 by using both open sides of the fixing means 120.

At this time, since the bobbin 110 is taken out by using the open side of the fixing means 120, the bobbin 110 can be detached from the fixing means 120 quickly and conveniently.

Then, the other bobbin 110 is also installed in the inspection jig in the same manner as described above to inspect the installation state of the focusing coil 114 and the tracking coil 116.

As described above, the present invention is a coil inspection apparatus of an optical pickup actuator composed of a fixing means for fixing the bobbin and applying power and an inspection jig influencing the magnetic field on the bobbin. By applying power and inspecting the resistance of the focusing coil and tracking coil and the flow of the bobbin in the radial and optical axis directions, it is possible to quickly and easily measure the resistance and operating state of the tracking coil and focusing coil before the bobbin is assembled into the optical pick-up actuator. Has the effect.

Claims (4)

In the device for fixing the bobbin 110 of the optical pickup actuator and applying power to measure the installation state of the tracking coil 116 and the focusing coil 114, the bobbin 110 is fixed and tracking of the bobbin 110 Inspection means for affecting the magnetic field on the fixing means 120 for applying power to the coil 116 and the focusing coil 114, and the bobbin 110 is installed and fixed to the fixing means 120 Coil inspection jig of the optical pickup actuator, characterized in that consisting of a jig (140). According to claim 1, The fixing means 120 is a body 121 for supporting both coil PC 112 and the bottom surface of the bobbin 110, and is installed on the body 121 to track the coil PC 112 Coil inspection jig of the optical pickup actuator, characterized in that consisting of four power projections (126) for applying power to the coil 116 and the focusing coil (114). According to claim 2, On both sides of the body 121 of the fixing means 120 is formed with a projection groove 122 is formed with a locking jaw 124 on the inside, the terminal hole on the outside of the projection groove 122 132 is formed, the power projection 126 is a stop projection 128 is formed in the interruption is inserted into the projection groove 122, the spring 130 to give elasticity to the power projection 126 is Coil inspection jig of the optical pickup actuator is installed in the projection groove 122, characterized in that the terminal line 134 is connected to the power supply projection 126 is connected to the outside through the terminal hole 132 is installed. According to claim 1, The inspection jig 140 is a base 141 formed on the bottom, a pair of inner support 142 is installed on the upper side of the base 141 to fit the bobbin 110, and the Coil inspection jig of the optical pickup actuator, characterized in that consisting of a pair of outer support (144) formed on the outer side of the inner support (142), and a magnet (146) provided on the inner surface of the outer support (144).