The present invention provides a textile dryer having a housing defining a chamber having an infeed and an outfeed. A separation wall extends through the chamber to create a first zone having a first ambient condition and a second zone having a second ambient condition. A first conveyor extends through the first zone and a second conveyor extends through the second zone. A controller is provided to allow an operator to independently select the speed and direction of the first conveyor and the second conveyor, and to independently select the physical conditions of the first ambient condition and the second ambient condition, and to maintain these settings during the operation of the dryer.

The present invention provides a textile dryer having a housing defining a chamber having an infeed and an outfeed. A separation wall extends through the chamber to create a first zone having a first ambient condition and a second zone having a second ambient condition. A first conveyor extends through the first zone and a second conveyor extends through the second zone. A controller is provided to allow an operator to independently select the speed and direction of the first conveyor and the second conveyor, and to independently select the physical conditions of the first ambient condition and the second ambient condition, and to maintain these settings during the operation of the dryer.

A dryer for an electrode substrate of a rechargeable battery according to an exemplary embodiment of the present invention includes: a drying oven for drying an electrode substrate by feeding the electrode substrate to an inlet and discharging it through an outlet; fixed guide rolls provided at a distance from each other between the inlet and the outlet to guide the electrode substrate; lifting guide rolls ascended or descended at one side of the respective fixed guide rolls to guide the moving electrode substrate; driving rolls disposed to correspond to locations of the lifting guide rolls; and a shuttle moving toward the outlet from the inlet.

A dryer for an electrode substrate of a rechargeable battery according to an exemplary embodiment of the present invention includes: a drying oven for drying an electrode substrate by feeding the electrode substrate to an inlet and discharging it through an outlet; fixed guide rolls provided at a distance from each other between the inlet and the outlet to guide the electrode substrate; lifting guide rolls ascended or descended at one side of the respective fixed guide rolls to guide the moving electrode substrate; driving rolls disposed to correspond to locations of the lifting guide rolls; and a shuttle moving toward the outlet from the inlet.

The purpose of the present invention is to provide a drying device capable of preventing entanglement of a hollow fiber membrane in a drying chamber and preventing diameter reduction and flattening of the hollow fiber membrane. This drying device includes the drying chamber having a heating means disposed therein, a guide roll that causes at least two hollow fiber membranes (A) to travel inside the drying chamber, and at least two winding bobbins disposed outside the drying chamber. The drying device simultaneously dries at least two hollow fiber membranes (A) in the drying chamber while winding one hollow fiber membrane (A) on one winding bobbin. A rotation speed control means is attached separately to each of the at least two winding bobbins.

The purpose of the present invention is to provide a drying device capable of preventing entanglement of a hollow fiber membrane in a drying chamber and preventing diameter reduction and flattening of the hollow fiber membrane. This drying device includes the drying chamber having a heating means disposed therein, a guide roll that causes at least two hollow fiber membranes (A) to travel inside the drying chamber, and at least two winding bobbins disposed outside the drying chamber. The drying device simultaneously dries at least two hollow fiber membranes (A) in the drying chamber while winding one hollow fiber membrane (A) on one winding bobbin. A rotation speed control means is attached separately to each of the at least two winding bobbins.

A web handling system is disclosed. The web handling system includes first dancer rollers coupled to engage and move a web of a print medium in a forward and backward direction upon stopping a printing operation and allow forward motion during the printing operation.

A web handling system is disclosed. The web handling system includes first dancer rollers coupled to engage and move a web of a print medium in a forward and backward direction upon stopping a printing operation and allow forward motion during the printing operation.

A method of manufacturing an electrode for a battery and a system for drying an electrode are disclosed and the system is used to manufacture an electrode. The system for drying an electrode includes a coil disposed along a movement route for an electrode. The electrode includes a base layer made of metal and an electrode active material applied onto the base layer. An electric current may be applied to the coil.

A method of manufacturing an electrode for a battery and a system for drying an electrode are disclosed and the system is used to manufacture an electrode. The system for drying an electrode includes a coil disposed along a movement route for an electrode. The electrode includes a base layer made of metal and an electrode active material applied onto the base layer. An electric current may be applied to the coil.