KR20090070387A - An apparatus for transmitting a wafer cassette and a method of transmitting the wafer cassette - Google Patents

Abstract

An apparatus for transmitting a wafer cassette and a method of transmitting the wafer cassette are provided to control the height of a cassette by installing a sensor on a gripper arm and using a output of the sensor. A gripper arm(10) catches a cassette carrier, sense horizontal state of a gripper arm, and output a result while a sensor is installed on a creation part of the gripper arm. A controller receives the sensed signal from the sensor and outputs a control signal for determining the slope of an apparatus and maintaining horizontal state of it. A height control device(20) is installed at a lower part of the apparatus and controls the height of the apparatus according to a control signal.

Description

An apparatus for transmitting a wafer cassette and a method of transmitting the wafer cassette}

The present invention relates to semiconductor equipment, and more particularly, to a cassette transfer apparatus used for transferring semiconductor wafers.

Equipment for processing semiconductor wafers requires a very clean environment. If small particles, gases, or electrostatic charges are included when transferring or storing the semiconductor wafer, the semiconductor wafer equipment or the semiconductor wafer may be damaged. On the other hand, it is costly to maintain a highly clean environment in a large space where wafer processing is carried out, so a SMIF system has been developed that can load / unload wafers into semiconductor wafer equipment by using a confidential wafer transfer container.

SMIF system is a peripheral device for semiconductor equipment that performs the semiconductor wafer manufacturing process. SMIF stands for Standard Mechanical Interface, and it is used to prevent artificial mistakes during atmospheric control and process processing in a clean room, etc. It is a system used to insert or eject stored cassette carriers into semiconductor equipment.

This SMIF device will be described with reference to the accompanying drawings. 1 is a schematic cross-sectional view showing a gripper arm device of a conventional SMIF device. As shown, the SMIF apparatus includes an SMIF pod 1 having an wafer cassette 5 therein, an SMIF port 2 having an entrance / load for loading / unloading the wafer cassette 5, and an SMIF pod 1 formed therein. A vertical transfer plate (3) for transferring the wafer cassette (5) to the SMIF port (2) or vice versa, and a wafer cassette (5) transferred downward by the vertical transfer plate (3) as a unit process equipment. It consists of a gripper arm 4 for loading / unloading.

In the prior art, the wafer cassette is transferred by holding the wafer cassette with a gripper arm of the SMIF device, which is a wafer cassette transfer device. At this time, the drive shaft of the gripper arm is on one side, and the opposite side of the drive shaft is gradually inclined when used for a long time. Therefore, when grasping the wafer cassette, rather than holding it horizontally, the wafer cassette is grasped and moved, which exposes it to danger. There is also a sensor on both sides of the gripper arm to detect whether or not the cassette is mounted, and an error occurs frequently in the detection of the loaded wafer cassette due to the height difference caused by the tilting of the gripper arm.

An object of the present invention is to provide a cassette conveying apparatus and a conveying method having a function of compensating for a phenomenon in which a gripper arm is inclined by a wafer cassette weight.

Another object of the present invention is to provide a cassette conveying apparatus and a conveying method which can increase the durability of the cassette conveying apparatus.

It is still another object of the present invention to provide a cassette conveying apparatus and a conveying method capable of preventing a sensor error of a gripper arm which may be caused by the weight of a cassette carrier.

Still another object of the present invention is to provide a cassette conveying apparatus and a conveying method capable of reducing a failure rate.

Still another object of the present invention is to provide a cassette conveying apparatus and a conveying method capable of eliminating the inconvenience that a worker must directly check that the gripper arm is inclined.

It is still another object of the present invention to provide a cassette conveying apparatus and a conveying method which can prevent the risk that the gripper arm may be inclined by the cassette carrier weight.

Still another object of the present invention is to provide a cassette conveying apparatus and a conveying method capable of preventing a wafer breakage accident in the event of danger.

The cassette conveying apparatus and the conveying method according to the present invention are characterized by attaching a sensor to the gripper arm and adjusting the height of the cassette conveying apparatus by using the output value of the sensor.

Another feature of the cassette feeder according to the present invention is that it has a configuration that can automatically level the cassette feeder horizontally.

A detailed configuration feature of the cassette transport apparatus according to the present invention includes a gripper arm for holding a cassette carrier; At least one sensor provided at a predetermined portion of the gripper arm to detect whether the gripper arm is horizontal and output a result; A control unit which receives a detection signal provided from the sensor and outputs a control signal for determining the inclination of the equipment and maintaining the level; Is installed on the bottom of the equipment is a point made of a height adjusting device for adjusting the height of the entire equipment in accordance with the control signal of the control unit.

Another detailed configuration of the cassette feeder according to the present invention is characterized in that the height adjustment device is configured by installing four motors at each corner bottom of the equipment.

Another detailed feature of the cassette conveying apparatus according to the present invention is that the height adjusting device is composed of a hydraulic solenoid operated by hydraulic pressure.

Another detailed configuration feature of the cassette conveying apparatus according to the present invention is that the signal exchange between the sensor, the control unit and / or the height adjusting device is in the form of a radio.

Cassette transfer method according to the invention comprises the steps of loading a cassette carrier on the gripper arm; Detecting a horizontal change of the gripper arm by using a sensor configured at a predetermined portion of the gripper arm; Analyzing the output signal of the sensor characterized in that it comprises the step of driving the height adjustment device configured in the lower portion of the cassette transfer device.

The cassette conveying apparatus and the cassette conveying method using the same according to the present invention have the following effects.

First, by using a sensor installed in the gripper arm, it is possible to adjust the level of the device by real-time compensation function for the gripper arm tilting phenomenon.

Secondly, by maintaining the cassette feeder horizontal in real time, the durability of the cassette feeder can be increased.

Third, it is possible to eliminate the inconvenience that the operator must directly check that the gripper arm is inclined.

Fourth, it is possible to prevent the risk that the gripper arm can be tilted by the cassette carrier weight and the wafer breakage caused by it.

Hereinafter, a cassette transfer apparatus and a transfer method according to the present invention will be described with reference to the accompanying drawings.

In the following description, a description of a general wafer cassette transfer operation will be omitted. Since the present invention is to maintain the horizontal level of the SMIF according to whether the gripper arm is horizontal when transferring the wafer cassette, a description thereof will be mainly provided, and the transfer operation will only be described schematically. The wafer cassette housed in the SMIF pod is transported downward by a vertical transfer plate driven by the driving means and placed in the SMIF port. The gripper arm moves horizontally along the guide rail installed in the SMIF port and is loaded into the unit processing equipment through the entrance of the SMIF port. In addition, in the reverse order, the wafer cassette is unloaded from the unit processing equipment and stored in the SMIF pod of the SMIF device.

Figure 2 is a block diagram showing the components for implementing the main operation in the cassette transport apparatus of the present invention. The cassette conveying apparatus according to the present invention includes at least one sensor provided at a predetermined portion (preferably at each corner) of the gripper arm for holding the cassette carrier to detect whether the gripper arm is horizontal and output the result ( 10) and a control unit 110 for receiving a detection signal provided from the sensor 10 and outputting a control signal for determining the inclination of the equipment and maintaining a level, and installed at the bottom of the equipment according to the control signal of the controller. It comprises a height adjusting device (preferably a motor) 20 to adjust the height of the entire equipment.

3 is an exemplary view showing that the sensors 10 are installed at each corner of the gripper arm 4 in the cassette transport apparatus according to the present invention. Each sensor is a sensor for detecting a tilt, and a tilt sensor or a gyro sensor may be used. The sensor detects whether the gripper arm is horizontal and converts it into an electrical signal and outputs it. On the other hand, the output signal of the sensor may be output in the form of a wired or wireless, the wireless output unit may be provided for wireless output. The output signal of the sensor is transmitted in a wired or wireless form to a controller (not shown) that controls the entire SMIF 100. The controller analyzes the signal provided from the sensor and detects how much the device is tilted in which direction.

Figure 4 is an exemplary view showing the height adjustment device 20 provided on the lower end of the device for horizontal adjustment in the cassette transport apparatus according to the present invention. Signal transmission between the sensor and the control unit may be performed in a wired or wireless form. The height adjusting device 20 is located at the lower end of the device, it is also possible to adjust the height of the device by using a motor that rotates in accordance with the electricity supply or a method using a hydraulic solenoid. At least three or more motors or hydraulic solenoids are used to adjust the height of the device, preferably four at each corner.

The conveying method using the cassette conveying apparatus which consists of such a structure is as follows. First, the gripper arm is used to hold the cassette carrier. As described above, the cassette carrier loaded on the gripper arm may be loaded or unloaded into the SMIF device. That is, it may be unloaded from the SMIF pod through the gripper arm to the unit processing equipment, or vice versa, and may be unloaded from the unit processing equipment and received into the SMIF pod of the SMIF device.

A sensor configured at the gripper arm predetermined portion detects a horizontal change of the gripper arm and outputs the electrical signal. Of course, this signal is output in the form of wired or wireless.

The controller receives and analyzes the output signal of the sensor. According to the analysis result, the height adjustment device configured in the lower part of the cassette feeder is controlled in consideration of the inclination state. That is, the sensor of the gripper arm detects the tilt of the SMIF or cassette, converts the difference into an electrical signal, and transmits the difference to the height or leveling motor of the device to automatically adjust the height of the SMIF device. adjust).

1 is a schematic cross-sectional view showing a gripper arm device of a conventional SMIF device.

Figure 2 is a block diagram showing the components for implementing the main operation in the cassette transport apparatus of the present invention.

Figure 3 is an exemplary view showing that the sensors are installed in each corner of the gripper arm (gripper arm) in the cassette transport apparatus according to the present invention.

Figure 4 is an exemplary view showing the height adjustment device provided on the lower end of the device for horizontal adjustment in the cassette transport apparatus according to the present invention.

Claims (8)

A gripper arm for holding a cassette carrier; At least one sensor provided at a predetermined portion of the gripper arm to detect whether the gripper arm is horizontal and output a result; A control unit which receives a detection signal provided from the sensor and outputs a control signal for determining the inclination of the equipment and maintaining the level; And a height adjusting device installed at the bottom of the equipment and adjusting the height of the entire equipment according to the control signal of the controller. The cassette conveying apparatus of claim 1, wherein the height adjusting device comprises four motors located at each corner. The cassette conveying apparatus of claim 1, wherein the height adjusting device is composed of at least four hydraulic solenoids. The cassette transport apparatus of claim 1, wherein the output signal of the sensor is transmitted to the controller in a wireless form. Loading a cassette carrier on the gripper arm; Detecting a horizontal change of the gripper arm by using a sensor configured at a predetermined portion of the gripper arm; And analyzing the output signal of the sensor to drive a height adjusting device configured under the cassette feeder. The cassette transport method according to claim 5, wherein the output signal of the sensor is output in a wireless form. 6. The cassette conveying method of claim 5, wherein the height adjusting device comprises an electric motor. 6. The cassette transport method according to claim 5, wherein the height adjusting device is composed of a hydraulic solenoid.

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