Disclosed is an apparatus for conveying glass panels contains a conveying device including a feed conveyor and a removal conveyor, and also a region with a processing station. A lifting device for glass panels is provided upstream of the processing station and a lowering device for glass panels is provided downstream of the processing station, wherein a linear-conveying device is provided between the lifting device and the lowering device. It is thus possible for glass panels to be moved, by raising action, linear movement and lowering action, around a first component located in the region in the processing station, the second component therefore passing the first component. During the passing operation, the second component always remains in the conveying plane, which is the same as the plane of the second component.

Provided is a substrate inverting device that can reverse the front and back of a substrate without causing damage and that can suppress a decrease in work efficiency due to inverting the substrate. A substrate inverting device that inverts the front and back of a substrate comprise: a rectangular frame shaped casing that encloses the circumference of a substrate to be inverted; a first holding unit that is joined to one edge of the casing so as to be able to rotate and that holds the substrate from the front side; a second holding unit that is joined to another edge of the casing facing the one edge so as to be able to rotate and that holds the substrate from the back side; and a support unit that supports the casing so that same can rotate about an axis in the horizontal direction while the substrate is held by the first holding unit and second holding unit.

The invention relates to a device and to a method for safely and quickly transferring new glass sheets from the production line to a transport vehicle, having the following features; a) a glass-sheet roller conveyor (8) having a glass-rack gripping and stacking device (7) for receiving glass sheets (9) from a production line, b) two parallel running rails (12) extending centrically at a right angle toward the glass-sheet roller conveyor (8), an underfloor energy supply rail (24) being arranged in the region between the running rails (12), c) at least one glass-rack carriage (3), which moves on the running rails (12) and which has at least one glass rack (4, 6) lying on said glass-rack carriage, a glass rack (4, 6) being able to be loaded with obliquely positioned glass sheets (9) and the glass racks (4, 6) being fixed in the oblique position by means of a pivoting device (14), and d) a rotary device (2) arranged in the course of the running rails for rotating a glass-rack carriage (3) by 180 degrees for loading one glass-rack carriage (3) at a time.

An insulating glass unit (IGU) assembly line comprising a registration station capable of interleaving double and triple pane IGUs in accordance with an IOU production schedule. Visual indicators or prompts instruct operators at the assembly line in configuring a sequence of IGUs. Triple pane IGUs are assembled with minimal contamination of a center glass lite. A non-contact Bernoulli pad is used to lift a glass lite off from a horizontal or vertical support that conveys it from a glass washer to the registration station. Each of multiple pads has a capacity to lift approximately seven to ten pounds. Use of multiple pads per glass sheet or lite allows lites having dimensions up to 70 by 100 inches (assuming glass thickness of one quarter inch) to be assembled.

When being sealed, insulating glass blanks (5) are held in a sealing station (2) gripped at the base by grippers (17) of a gripper arrangement (16) and/or by suction heads (15) and rest at the top against a roller beam (7) fitted with rollers (8). As the insulating glass blank (5) is sealed, only the nozzle (11) of a sealing assembly (10) moves along the outer edge of the insulating glass blank (5), which is stationary during the sealing process. When the lower edge of an insulating glass blank (5) is sealed, grippers (17) engaging the lower edge are released and move away downwards. Sealed insulating glass is removed from the sealing station (2) by a removal robot (24) onto the side opposite the sealing assembly (10), moved to a temporary store and placed therein on A-bearing supports (29) and fan frames (30) sorted according to production lots.

A six-part conveyor system sharing a common line of dependency for the streamlined manufacturing of windows allowing both sides of the window to be easily worked on without the need for users to lift and move the window from one segment of a conveyor system to another. The window manufacturing conveyor line is designed to streamline the manufacture of windows. This system and method allows a user to easily move glass panels, speeding up productivity and provide efficiency by putting holding clips on glass in a first station, applying fast drying sealant to a tipped piece of glass in a second station, and moving to a final station where the glass window is prepared for shipping wherein the shipping cart is moved into position around the final station and window is lowered onto the cart.

An apparatus for pre-assembly of an electrically connected array of solar panels for a solar canopy including a substantially planar base member for resting on a horizontal surface, a substantially planar support member for horizontally aligning side-by-side and horizontally supporting a plurality of solar panels and a support member extending upward from the base member; a track member disposed proximate a bottom portion of the support member attached to or integral with the support member or base member for vertically aligning side-by-side and vertically supporting a plurality of solar panels when a side edge portion of the solar panels rests on the track member; and at least two arm members pivotally attached proximate to opposing ends of the base member or support member.

A transport device has a position detection portion, a holding portion attached to an arm, a driving portion to drive the holding portion and the arm, and a control portion. A control portion controls the position detection portion and the driving portion to perform, as one cycle, a procedure to detect a position of a parcel, select parcels based on a predetermined condition, and set priority for the selected parcels, and a procedure to refer to a result of the detection, and cause the holding portion to take out one or more parcels from the accumulation portion in accordance with the priority to transport the parcels to a predetermined location, and excludes, from parcels to be taken out, a second parcel that is present within a predetermined distance from a first parcel and has priority lower than the priority of the first parcel, during the one cycle.

A diagnostic system of a substrate transfer hand including a base part coupled to a hand tip portion of a robot arm and a substrate holding part coupled to the base part to hold a substrate, includes a camera which is secured to the base part and takes an image of the substrate holding part; and a diagnostic device which obtains image information of the image taken by the camera and diagnoses normality of the substrate holding part based on the image information.

Apparatus and method for transferring a substrate are disclosed. The substrate transfer apparatus includes: a substrate conveyance assembly disposed between a mechanical arm and a wafer stage, the substrate conveyance assembly including a substrate loading conveyor and a substrate unloading conveyor parallelly arranged in a first direction, each of the substrate loading conveyor and the substrate unloading conveyor configured for transferring a substrate between the wafer stage and the mechanical arm along a second direction perpendicular to the first direction; an integral frame; and a transition air suspension assembly fixed to the integral frame at the end thereof proximal to the wafer stage, the transition air suspension assembly being able to engage with either of the substrate loading conveyor and the substrate unloading conveyor for producing an air film to levitate the substrate during the conveyance of the substrate by the substrate loading conveyor or the substrate unloading conveyor.