KR20080111910A - Contactless power supply system - Google Patents

Abstract

A contactless power supply system capable of being used when moving semiconductor substrate or glass is provided to reduce cost and time due to malfunction by steadily maintaining a gap of a power supply cable and an induction coil. A contactless power supply system(100) is installed for transferring a semiconductor substrate and a liquid crystal inside a clean room, and comprises a fixing unit(200) and a transfer unit(300). A race rail structure(220) is installed on a rail supporter(210) using the fixing unit. A guide rail(230) is installed on the race rail structure. A fixing bar(240) is locate in an outer end of the fixing unit. A current supply unit(250) having two power supply cables(252) is installed in an inner side of the fixing unit. The transfer unit has a magnetic induction type iron core(310) in which an induction coil(314) is located between two power supply cables.

Description

Non-contact power supply unit {CONTACTLESS POWER SUPPLY SYSTEM}

1 is a plan view showing a non-contact power supply apparatus according to the present invention.

Figure 2 is a front view showing a contactless power supply according to the present invention.

Figure 3 is a side view showing a contactless power supply according to the present invention.

4 is an enlarged view of main parts according to the present invention;

※ Explanation of code for main part of drawing

100: non-contact power supply device, 200: fixing means,

210: rail support, 220: running rail structure,

230: guide rail, 240: fixed bar,

250: current supply unit, 300: transfer means,

310: magnetic induction iron core, 320: bogie,

330: roller, 340: connecting bar,

350: bracket, 360: operating part.

The present invention relates to a non-contact power supply device used to move an article such as a semiconductor substrate or glass, and more particularly, by mounting a spring and a roller in the lower portion of the trolley, The present invention relates to a non-contact power supply device such that an interval of an E-shaped induction coil can be kept constant at all times.

BACKGROUND ART In general, electronic device products such as semiconductors and liquid crystals are already known in which suspended particles in air are manufactured in an environment managed by a limited cleanliness level (generally US Federal Standard 209D), a so-called clean room.

However, as the miniaturization progresses, higher cleanliness is required and the track is placed in the clean room and the truck is driven to replace the worker. In this kind of conveying system, electric power feeding is performed in a non-contact state in order to suppress generation | occurrence | production of the wear powder by the brush etc. of a power supply apparatus.

However, in the conventional non-contact power supply, there is no problem because the electric supply line and the induction coil supplying electricity in a straight section (horizontal and vertical sections) can maintain a constant interval, while in the curved section, the electric supply line and the induction coil are affected by load and centrifugal force. As a result, the gap is not constant, causing a problem such as a malfunction of the non-contact power supply or a change in direction.

The present invention has been made to solve the above problems, the spring and the roller is mounted on the lower portion of the bogie to maintain a constant distance between the electric supply line and the E-shaped induction coil of the non-contact power supply in a straight section or curve section. The purpose is to provide a non-contact power supply.

In order to achieve the above object, a guide rail is provided on the upper surface of a rail support in a non-contact power supply device mounted to transport an article such as a semiconductor substrate or a liquid crystal into a clean room where fine dust or foreign matter is blocked. The traveling rail structure is installed on both sides, and the outer end of the fixing bar has a predetermined height while the upper inner side constitutes fixing means in which current supply parts are formed at regular intervals, and two electric supply lines are formed, and between the two electric supply lines. A magnetic induction iron core having an induction coil interposed therebetween is formed in the upper portion, a plate bogie is formed in the lower portion of the magnetic induction iron core, and rollers moving along the guide rail are installed at both sides of the lower portion of the bogie, The inner roller is fixed to the bogie through the connecting bar and the outer roller is the magnetic induction It is connected to the bracket to which the iron core is fixed to form a conveying means fixed to the bogie through the operating part also connected to the outer roller, the electric supply line of the fixing means and the induction coil of the conveying means in a straight section or curved section by the operating part It is characterized in that it has a constant interval.

Hereinafter, the configuration of the present invention with reference to the accompanying drawings, Figure 1 is a plan view showing a non-contact power supply device according to the invention, Figure 2 is a front view showing a non-contact power supply device according to the invention, Figure 3 4 is a side view illustrating a non-contact power supply device according to the present invention, and FIG. 4 is an enlarged view illustrating main parts of the present invention.

The non-contact power supply device 100 of the present invention is roughly divided into a fixing means 200 installed in a section designated as the interior of the clean room, and a conveying means 300 moving according to the power transmitted to the fixing means 200. can do.

The fixing means 200 is a rail support 210 that can be adjusted in height, the running rail structure 220 is mounted on both sides of the upper surface of the rail support 210, and is mounted on the upper inside of the running rail structure 220 Guide rail 230, fixed bar 240 mounted on the outer end of the rail support 210 with a predetermined height, and a current supply unit 250 mounted on the upper end of the fixed bar 240. It can be distinguished.

That is, the fixing means 200 is adjusted by a desired position through the height adjustment holes 260 mounted on both lower sides of the rail support 210, the running rail structure provided with a guide rail 230 on the top ( 220 is to adjust the interval in accordance with the specification of the transfer means (300).

And the fixed bar 240 fixed to the outer end of the rail support 210 is formed in consideration of the space in which the transfer means 300 is mounted, that is, the fixed bar 240 in accordance with the operating space of the operation unit to be installed later ) Will determine the width and width.

In further detail, when the distance and height between the fixing bar 240 and the operation part 360 become far, the operation of the operation part 360 is delayed, and the operation part 360 when the distance and height between them is narrow. As a result, a problem occurs in that an error occurs in a urgent manner, so that the fixing bar 240 is formed in consideration of the operation unit 360.

The current supply unit 250 that is fixedly coupled to the inner upper portion of the fixing bar 240 has two electrical supply lines 252 protruding at predetermined intervals up and down, but the interval between the electrical supply lines 252 may be rearranged. It turns out that the induction coil may be formed differently depending on the length and diameter.

The conveying means 300 mounted and moved on the fixing means 200 includes a magnetic induction iron core 310 having an induction coil and a plate-shaped bogie 320 formed under the magnetic induction iron core 310. And rollers 330a and 330b mounted on both sides of the lower side of the trolley 320 and moving along the guide rail 230, and a connection bar 340 connecting the inner roller 330a and the trolley 320. And, the magnetic induction-type iron core 310 is connected to the bracket 350 is fixed is composed of an operation unit 360 is also connected to the outer roller (330b).

The induction coil core 314 is wound around the protrusion 312 formed at the center of the self-inducing iron core 310, and one side of the bracket 350 is fixed to the bottom of the lower protrusion 316.

The trolley 320 formed at the lower portion of the magnetic induction iron core 310 is formed of a plate having a predetermined thickness, and one side of the bottom surface is connected to the inner roller 330a through the connection bar 340, and the other side is an operating part. The outer roller 330b is connected through the 360. At this time, the inner roller 330a and the outer roller 330b constitute a connection bar 340 and the operation unit 360 to be the same height.

The operating part 360 connected to the other side of the bracket 350 to which the magnetic induction iron core 310 is fixed and also connected to the outer roller 330b has a horizontal portion 361a fixed to the lower portion of the trolley 320. Fixing jigs 361 having a vertical portion 361b formed at both ends of the horizontal portion 361a, an operating rod 362 interposed between the vertical portions 361b of the fixing jig 361, and the operating rod. A transfer body 363 to which the outer roller 330b is fixed while the other side of the bracket 350 to which the magnetic induction iron core 310 is fixed and moving along the 362 is fixed, and the transfer body 363 ) And a spring 364 interposed between the one vertical portion 361b.

That is, the actuator 360 has the same distance in the straight line or the curved section on the electric supply line 252 and the induction coil 314 while the conveying body 363 moves left and right through the elasticity of the spring 364 To make it possible.

Here, the fixing jig 361 composed of the horizontal portion 361a and the vertical portion 361b may not only be formed of a bracket integrally formed as necessary, but the spring 364 may be formed of a transfer member 363. It can be formed on both sides of the.

And the operation unit 360 removes the connection bar 340 formed on the inside of the trolley 320 as necessary and reveals that the operation unit 360 can be mounted symmetrically in place.

An embodiment of the non-contact air supply apparatus 100 configured as described above is as follows.

First, the rail support 210 is installed as much as a specified height through the height adjustment hole 260, and then the running rail structure 220 having the guide rail 230 provided on the upper surface of the rail support 210 on both sides. It is installed considering the width of the transfer means (300).

In addition, after the fixing bar 240 having a predetermined height is installed at the outer end of the rail support 210, a plurality of current supply parts in which two electric supply lines 252 are formed inside the upper part of the fixing bar 240 ( When the 250 is installed on the rail support 210 at regular intervals, the configuration of the fixing means 200 is completed.

Next, a magnetic induction iron core 310 having an induction coil 314 interposed between the two electricity supply lines 252 is mounted on the upper portion, and a plate-shaped bogie 320 is disposed below the magnetic induction iron core 310. Is formed, the lower portion of the cart 320 is provided with a conveying means 300 is installed on both sides of the roller 330 to move along the guide rail 230.

At this time, the inner roller 330a is fixed to the cart 320 through the connection bar 340, the outer roller 330b is fixed to the horizontal portion 361a to the lower portion of the cart 320 and the horizontal portion 361a At both ends of the) the fixed jig (361) to which the vertical portion (361b) is fixedly coupled, the operating rod (362) interposed in the vertical portion (361b) formed on both sides of the fixing jig (361), and the operating rod A carrier 363 which moves left and right along the 362 and is fixed to the bracket 350 and the outer roller 330b to which the magnetic induction iron core 310 is fixed, and one side perpendicular to the carrier 363. The assembly of the non-contact air supply apparatus 100 is completed by fixing to the cart 320 through the operation part 360 comprised of the spring 364 interposed between the parts 361b.

In the above state, the transfer means 300 mounted on the fixing means 200 may be a semiconductor substrate accommodated on the upper surface of the trolley 320 while the roller 330 moves along the guide rail 230 in a straight section. It is to transfer the liquid crystal.

And when the transfer means 300 is too much in the curved section of the fixing means 200 in the above state of the electric supply line 252 of the fixing means 200 and the induction coil 314 of the transfer means 300 In this case, the elastic force of the spring 364 formed in the operating part 360 and the centrifugal force applied to the transfer body 363 are added to push the transfer body 363 outward.

That is, the spring 364 is fixed by moving the bracket 350 and the E-shaped iron core 310 connected to the spring 364 at the same time by using elasticity and centrifugal force when the transfer member 363 moves outward. The electricity supply line 252 of the means 200 and the guide coil 314 of the transfer means 300 will be able to have a constant interval in the curve section.

According to the present invention, through the spring and the roller of the conveying means can maintain the same distance between the electric supply line of the fixing means and the guide coil of the conveying means in the straight section or the curved section, so that the cost of accurate operation and malfunction of the non-contact power supply device This can shorten the time.

Claims (3)

In a non-contact power supply device is mounted to transfer an article such as a semiconductor substrate or liquid crystal into a clean room in which fine dust or foreign matter is blocked, On the upper surface of the rail support 210, the guide rail 230 is provided with a running rail structure 220 on both sides, the outer end of the fixing bar 240 has a predetermined height and two inside the upper Comprising the fixing means 200 is installed at regular intervals the current supply unit 250, the electric supply line 252 is formed, A magnetic induction iron core 310 having an induction coil 314 interposed between the two electricity supply lines 252 is formed thereon, and a plate-shaped bogie 320 is formed under the magnetic induction iron core 310. In addition, the roller 330 moving along the guide rail 230 is installed on both sides of the lower portion of the bogie 320, and the inner roller 330a is fixed to the bogie 320 through the connection bar 340. And the outer roller 330b is connected to the bracket 350 to which the magnetic induction iron core 310 is fixed, and the conveying means fixed to the trolley 320 through the operating part 360 connected to the outer roller 330b. 300) Non-contact, characterized in that the electric supply line 252 and the induction coil 314 of the transfer means 300 of the fixing means 200 to have a constant interval in a straight section or a curved section by the operating unit 360 Power supply. The method of claim 1, Non-contact power supply, characterized in that the operating portion 360 is mounted on the lower portion of the cart 320 is formed on both sides. The method of claim 1 or 2, wherein the operation unit 360, A fixed jig 361 to which the horizontal portion 361a is fixedly coupled to the lower portion of the trolley 320 and the vertical portion 361b is fixedly coupled to both ends of the horizontal portion 361a, An operating rod 362 interposed in vertical portions 361b formed at both sides of the fixing jig 361, A transfer member 363 which moves left and right along the operating rod 362 and the bracket 350 and the outer roller 330b to which the magnetic induction iron core 310 is fixed; Non-contact power supply characterized in that it comprises an elastic member (364) interposed between the conveying body (363) and one side vertical portion (361b).

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