KR100863564B1 - A arm device - Google Patents

Abstract

An arm apparatus is provided to prevent separation of a belt from a belt pulley by adjusting a width of a belt pulley guard. A deck unit(100) includes a pincette for picking up a wafer and mounting the wafer into a process device and a transfer device. A shaft unit(200) fixes and supports rotatably the deck unit. The shaft unit includes a shaft frame(202), a motor(203) fixed to the shaft frame, a power transmission shaft fixed rotatably to the shaft frame to transmit the totatory power of the motor to the deck unit by using a belt, and three fixing shafts installed radially on the shaft frame to surround the power transmission shaft.

Description

Arm device {A Arm Device}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a wafer arm device of a semiconductor manufacturing facility, and more particularly to an arm device for feeding and retrieving a wafer into a processing device and to moving a wafer, in particular, a cancer device in a high speed operation and repeat operation by firmly supporting and fixing a tweezers of the arm device It relates to an arm device to ensure a smooth operation by minimizing the tilting of the.

Recently, with the rapid development of the information communication field and the popularization of information media using high-density integrated circuits such as computers, semiconductor devices are also rapidly developing, and the equipment for producing them is also developing accordingly.

In general, semiconductor devices are manufactured by depositing and patterning thin films that perform various functions on the wafer surface to form various circuit geometries. The semiconductor device is subjected to various processes such as an impurity ion implantation process, a thin film deposition process, a patterning process, and a planarization process, and a preparation process for carrying out the process is additionally performed between these processes.

The semiconductor device manufacturing process is performed in a clean environment such as a clean room, and the wafer is transferred to each of the systematically installed equipments. For this purpose, the wafer is stored in a conveying means such as a cassette or a cartridge and conveyed, and the wafer is introduced into the process equipment by separate equipment, for example, an arm apparatus, for input and discharge to each equipment.

The cancer device is designed and used in accordance with the characteristics of each device to supply the wafers to the speed and efficiency of semiconductor device manufacturing equipment stably and quickly. However, such a cancer device frequently damages the wafer because the wafer is rapidly loaded into the processing device and recovered. In the case of a wafer, since microstructures, nanometer structures, or films are formed on the wafer, damages such as impacts and scratches caused by the cancer device lead to defects of the wafer, which directly leads to economic losses.

In general, the damage to the wafer by the arm device is caused by the tilting of the tweezers to pick up the wafer during the construction of the arm device, in particular, the arm device, and the wafer is often dropped due to the inability to accurately pick up the wafer. . In other words, the arm device is a device having a large number of moving parts, which causes strong vibration of the tweezers when each movable part does not operate smoothly. Therefore, the tweezers directly cause damage to the wafer or the wafer picked up by the tweezers It may be damaged by vibration. In addition, since the arm device has many moving parts and is frequently driven for a long time by high speed, the arm device consumes a lot of moving parts, and defects often occur accordingly. Especially in the case of arm devices, the devices that transmit the rotational force to the motor and the components driven by the motor are frequently damaged by wear. This stops the operation of the arm device unintentionally, thereby acting as a factor that inhibits the operation of both the semiconductor device manufacturing apparatus. In particular, in the case of the arm device, the operation stop due to the deviation of the track of the belt using the belt-type power transmission device for transmitting the rotational force is a big problem.

Accordingly, an object of the present invention is to securely support and fix the tweezers of the arm device, in particular, the arm device, which moves the wafer into and out of the processing device, and to ensure smooth operation by minimizing the tilting of the arm device during high speed and repetitive operation. It is to provide an arm device.

In addition, another object of the present invention is to provide a belt pulley with a pulley width of more than one third on the power transmission shaft to prevent the pulley from being disengaged from the motor shaft for power transmission so that the belt pulley is disengaged from the motor shaft. It is to provide a cancer device to prevent the operation stop of the cancer device generated by.

Cancer device according to the present invention to achieve the above object

In the wafer arm device for transferring the wafer,

A deck portion having a tweezers for picking up the wafer and mounting the picked up wafer to a processing apparatus and a transfer means; And a shaft portion rotatably fixing and supporting the deck portion, wherein the shaft portion is fixed to the shaft frame, a motor fixed to the shaft frame, and radially fixed on the shaft frame, and coupled to a bottom of the deck portion. Two fixing shafts, the power transmission shafts rotatably fixed to the shaft frame and receiving rotational force from the motor by a belt.

The end of the power transmission shaft is coupled to the belt pulley, the belt pulley has a belt rail to which the belt is caught, and a belt guide formed to protrude from the edge of the belt rail than the belt rail surface, the belt guide is the power transmission shaft It is formed to hold more than one third of the width.

The arm device according to the present invention firmly supports and secures the tweezers of the arm device, in particular, the arm device, in which the wafer is inserted into and recovered from the processing device and moves the wafer, thereby minimizing the tilting of the arm device during high-speed operation and repetitive operation. It becomes possible to guarantee.

In addition, the arm device according to the present invention provides a belt pulley in which the belt pulley belt guard width is at least more than 1/3 of the belt width to prevent the belt from being pulled out of the belt pulley for power transmission so that the belt pulley It becomes possible to prevent the operation stop of the cancer apparatus which arises by leaving.

Other features and operations of the present invention in addition to the above objects will become apparent from the embodiments described below with reference to the accompanying drawings.

The detailed description set forth below in connection with the appended drawings is made with the intention of describing preferred embodiments of the invention, and does not represent the only forms in which the invention may be practiced. It should be noted that the same and equivalent functions included in the spirit or scope of the present invention may be achieved by other embodiments.

Certain features disclosed in the drawings are enlarged for ease of description, and the drawings and their components are not necessarily drawn to scale. However, those skilled in the art will readily understand these details.

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

1 is a perspective view showing an arm device according to the present invention, Figure 2 is a plan view showing a deck plate connecting the deck portion and the shaft portion of the configuration of FIG. 3 is a perspective view illustrating an example of casing the shaft part of FIG. 1, and FIG. 4 is a side view illustrating the motor and the belt pulley installed under the shaft part of FIG. 1.

1 to 4, the arm device according to the present invention includes a deck portion 100 and a shaft portion 200.

The deck unit 100 serves to insert and retrieve a wafer (not shown) into the processing apparatus. To this end, the deck part 100 is fixed and supported by the shaft part 200, and is coupled to the shaft part 200 to enable rotational movement on the shaft part 200. The deck unit 100 picks up a wafer from a cassette (or a cartridge), mounts the wafer after the process is completed in the cassette, and puts the picked up wafer into the processing apparatus. To this end, the deck unit 100 is configured to include a tweezers (102: 102a, 102b) for the pickup and mounting of the wafer and the deck 101 to provide an environment for the temporary storage and tweezers operation of the picked up wafer. In addition, the deck 101 is coupled to the second motor 103 for providing power for the operation of the tweezers (102).

The shaft part 200 fixes and supports the deck part 100 to enable the deck part 100 to be operated by rotation, and assists the transfer of the wafer through this. The shaft portion 200 is coupled to the deck plate 104 which is located below the deck portion 100 by a coupling means such as pins, bolts, screws. In addition, the deck plate 104 may be formed with a plurality of holes 105 for coupling with the shaft portion 200 as shown in FIG. The shaft part 200 is installed to be divided into a fixed shaft and a power transmission shaft. Each shaft 201: 201a to 201d is fixedly installed by the shaft frame 202, of which the power transmission shaft 201d is rotatably installed through the shaft frame 202, and the penetrated portion is a belt. Coupled to the pulley 204. As shown, the fixing shafts 201a to 201c radially have at least three shafts 201a to 201c fixed to the shaft frame 202 and coupled with the deck part 100 to support the deck part 100. Done. In addition, the shaft frame 202 is further provided with a first motor 203 and the belt pulley 204, the first motor 203 and the belt pulley 204 is the power for the rotation of the deck portion 100 And transmit it to the power transmission shaft 201d. The fixing shafts 201a to 201c have at least three shafts 201a to 201c arranged in a triangular or radial manner so that even if a lateral force occurs according to the operation of the deck part 100, the deck 100 may be stably supported to smoothly work. It is possible to make this work.

Referring to FIG. 4 separately, the belt pulley 204 of the present invention has a wider belt guide 207. The belt 206 is placed on the head 205 of the motor 203 and the belt pulley 204 which is disposed at an approximately horizontal position thereof and whose shaft is coupled to the power transmission shaft 201d. The belt 206 moves in an endless track as the motor head 205 rotates, thereby transmitting the rotational force to the belt pulley 204. The belt pulley 204 is formed in the form having a belt rail 208 and the belt guide 207 to allow the belt 206 to perform a stable track motion. The belt rail 208 forms a band with the surface in contact with the belt 206 so that power transmission by the belt 206 is smoothly performed. Meanwhile, the belt guide 207 is formed to protrude relative to the belt rail 208, thereby preventing the belt 206 from being separated from the belt rail 208. When the belt guide 207 is narrow in width, separation of the belt 206 occurs frequently. That is, when a part of the belt 206 is caught by the belt guide 207 during rotation, a part of the belt 206 protruding out of the belt guide 207 by bending is bent, and this phenomenon is intensified and the belt 206 Departures occur. However, when the width of the belt guide 107 is widened as in the present invention, even when the belt 206 is caught, the bending phenomenon of the belt 206 can be prevented, and the belt 206 itself can be prevented by tension. It is possible to make it return onto the belt rail 208. The belt guide 207 is not limited in width, but securing approximately one third or more of the width of the power transmission shaft 201d is effective to prevent the belt 206 from being separated. However, the width of the belt guide 207 can be set differently according to the conditions such as the tension, type, and shape of the belt 206.

1 is a perspective view of the arm device according to the present invention.

Figure 2 is a plan view showing a deck plate connecting the deck portion and the shaft portion of the configuration of Figure 1;

3 is a perspective view showing an example of casing the shaft portion of FIG.

Figure 4 is a side view showing the motor and the belt pulley installed in the lower shaft portion of FIG.

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

100: deck 101: deck

102: tweezers 103: second motor

104: deck plate 105: hole

200: shaft portion 201: shaft

202: shaft frame 203: first motor

204: belt pulley 205: motor head

206: belt 207: belt guide

208: rail

Claims (2)

In the wafer arm device for transferring the wafer, A deck portion having a tweezers for picking up the wafer and mounting the picked up wafer to a processing apparatus and a transfer means; And And a shaft portion rotatably fixing and supporting the deck portion. The shaft portion Shaft frame, A motor fixed to the shaft frame, A power transmission shaft rotatably fixed to the shaft frame and receiving a rotational force from the motor by a belt and transmitting the rotational force to the deck part; An arm device comprising three fixing shafts fixed radially on the shaft frame to be coupled to the bottom of the deck part with the power transmission shaft at the center and surrounding the power transmission shaft; . The method of claim 1, The end of the power transmission shaft is coupled to the belt pulley, The belt pulley has a belt rail on which the belt is caught and a belt guide formed to protrude from the edge of the belt rail than the belt rail surface. And the belt guide is formed to hold a width of 1/3 or more of the width of the power transmission shaft.

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