Discussed is a device for self-assembling semiconductor light-emitting diodes includes a substrate chuck that is provided in an assembly chamber and supports a substrate and disposes the substrate at an assembly position, wherein the substrate chuck sucks or injects a gas present between the substrate and a fluid during loading and unloading of the substrate.

Provided is a dispenser for a solution including a reservoir configured to hold a suspension of micro light-emitting diodes (LEDs) suspended in a solvent; a stirrer configured to stir the suspension in the reservoir; a discharge path including a first valve configured to control outflow of the suspension from the reservoir; a filling path including a second valve configured to control inflow of the suspension into the reservoir; a hydraulic path including a third valve configured to control a pressure inside the reservoir; and a washing path connected to the first valve and configured to input a washing fluid for washing the discharge path into the discharge path, wherein the first valve includes a multi-way valve configured to selectively connect the discharge path to one of the reservoir and the washing path.

An apparatus for manufacturing a light emitting display device includes a substrate transfer stage including a plurality of support plates arranged at an interval in a first direction, each of the plurality of support plates extending in a second direction; and at least one electric-field application module disposed on at least one side of the substrate transfer stage. The at least one electric-field application module includes a probe head including at least one probe pin; and a driver connected to the probe head to move the probe head at least up and down.

An apparatus for manufacturing a light emitting display device includes a stage, and at least one electric-field application module disposed on at least one side of the stage. The apparatus further includes at least one of: at least one printing head disposed above the stage, and a heating element disposed adjacent the stage. The at least one electric-field application module includes a probe head having at least one probe pin, and a driver connected to the probe head to move the probe head.

Discussed is a substrate chuck for allowing one surface of a substrate to be in contact with a fluid, the substrate chuck including a first frame having a hole at a central portion thereof; a second frame having a hole at a central portion thereof and disposed to overlap the first frame; and a frame transfer part configured to vertically move the second frame with respect to the first frame, wherein the first frame includes: a bottom portion at which the hole is formed; and a sidewall portion formed on a peripheral edge of the bottom portion, and wherein a height of the sidewall portion is greater than a depth at which the substrate is placed into the fluid.

Discussed is a device for self-assembling semiconductor light-emitting diodes, in which the device includes an assembly chamber having a space for accommodating a fluid; a magnetic field forming part having at least one magnet for applying a magnetic force to the semiconductor light-emitting diodes dispersed in the fluid and a moving part for changing positions of the at least one magnet so that the semiconductor light-emitting diodes move in the fluid; a substrate chuck having a substrate support part configured to support a substrate, and a vertical moving part for lowering the substrate so that one surface of the substrate is in contact with the fluid in a state in which the substrate is supported by the substrate support part; and a controller for controlling a movement of the magnetic field forming part and the substrate chuck, wherein the controller controls a depth at which the substrate is submerged in the fluid based on a degree of warping of the substrate.

Discussed is a device for self-assembling semiconductor light-emitting diodes includes a substrate chuck that is provided in an assembly chamber and supports a substrate and disposes the substrate at an assembly position, wherein the substrate chuck sucks or injects a gas present between the substrate and a fluid during loading and unloading of the substrate.

An assembly apparatus for assembling a semiconductor light emitting diode to a display panel according to an embodiment of the present disclosure includes: an assembly module including at least one magnetic member coming in contact with a surface of the display, and a magnetic member accommodator having at least one magnetic member accommodation hole; and a rotary module connected to the assembly module and configured to rotate the assembly module along an orbit on the basis of a driving force transmitted from an external driving source.

A transfer method including following steps is provided. A pick-up device having a plurality of caves is provided. A first magnetic force capable of attracting a plurality of micro-devices to move toward the caves of the pick-up device is provided. Given that the first magnetic force is provided, the pick-up device is in contact with the micro-devices, so that the micro-devices are snapped by the caves of the pick-up device. The micro-devices are transferred from the caves of the pick-up device to a receiving device. Besides, a transfer apparatus is also provided.

A cell of fluidic assembly of microchips on a substrate, including: a base having its upper surface intended to receive the substrate; a body laterally delimiting a fluidic chamber above the substrate; and a cover closing the fluidic chamber from its upper surface, wherein the body comprises first and second nozzles respectively emerging onto opposite first and second lateral edges of the fluidic chamber, each of the first and second nozzles being adapted to injecting and/or sucking in a liquid suspension of microchips into and/or from the fluidic chamber, in a direction parallel to the mean plane of the substrate.