The present invention provides a blank on-line water blowing device. The blank on-line water blowing device includes a frame, a lift cylinder, bearing seats A, linear bearings, guide shafts, a support, a servomotor, a lifting frame, a speed reducer, a bearing seat B, a bearing, a rotating shaft, a synchronous pulley A, a synchronous belt, a gland, a base, a base plate, a flange, springs, copper sleeves, floating columns, an air supply pipe, air amplifiers and a mounting rack. The blank on-line water blowing device provided by the present invention can meet the requirement of blank water blowing, and meanwhile, has the characteristics of simple structure, convenience in manufacturing, stable performance and capability of meeting the precision machining requirement.

A dryer for a textile web includes a drying chamber having at least one air-permeable drum arranged in the drying chamber to rotate, wherein the drum includes an end face constituting an axially arranged suction side, the textile web is wrapable at least partially around the drum and heated drying air is flowable through the textile web. A hot gas source provides heated gas. A ventilator forms a suction draft via the suction side of the drum with drying air from inside of the drum and drying air that recirculates back into the drying chamber. At least one hot gas feeding ring encloses the suction draft and is configured to permit the hot gas from the hot gas source to flow essentially completely into the suction draft.

A hybrid drying apparatus including: a bed portion having a horizontally disposed top surface; an object-to-be-dried supplying portion configured to spread an object to be dried on the top surface of the bed portion; and a driving unit configured to rotate and drive the bed portion or the object-to-be-dried supplying portion, wherein the object to be dried supplied from the object-to-be-dried supplying portion is spread on the top surface of the bed portion while the bed portion or the object-to-be-dried supplying portion is rotated, and the top surface of the bed portion is heated in such a manner that a lower portion of the bed portion is primarily heated so that the bed portion is used to dry the object to be dried coated on the top surface of the bed portion by the object-to-be-dried supplying portion.

A hybrid drying apparatus including: a bed portion having a horizontally disposed top surface; an object-to-be-dried supplying portion configured to spread an object to be dried on the top surface of the bed portion; and a driving unit configured to rotate and drive the bed portion or the object-to-be-dried supplying portion, wherein the object to be dried supplied from the object-to-be-dried supplying portion is spread on the top surface of the bed portion while the bed portion or the object-to-be-dried supplying portion is rotated, and the top surface of the bed portion is heated in such a manner that a lower portion of the bed portion is primarily heated so that the bed portion is used to dry the object to be dried coated on the top surface of the bed portion by the object-to-be-dried supplying portion.

A substrate processing method includes a substrate holding step of horizontally holding a substrate, a substrate rotating step of rotating the substrate held horizontally around a rotational axis along a vertical direction, a liquid-film forming step of forming a liquid film of a first organic solvent that is used to process an upper surface of the substrate on the upper surface of the substrate by supplying the first organic solvent to the upper surface of the substrate held horizontally, a vapor supplying step of supplying a vapor of a second organic solvent to a space between a facing surface of a heater unit that has the facing surface facing a lower surface of the substrate held horizontally and the lower surface of the substrate, a substrate heating step of heating the substrate being in a rotational state by means of the vapor of the second organic solvent in parallel with the substrate rotating step and the liquid-film forming step, and a substrate drying step of, after the substrate heating step, excluding the liquid film of the first organic solvent from the substrate held horizontally and drying the upper surface of the substrate in a state in which the rotation of the substrate is stopped and the substrate is in contact with the heater unit.

A garbage disposal unit is disclosed. The garbage disposal unit includes a cabinet. The garbage disposal unit further includes a crushing unit that is located in the cabinet and that is configured to crush garbage. The garbage disposal unit further includes a housing body that is located in the cabinet. The garbage disposal unit further includes an inlet port that is configured to guide garbage discharged from the crushing unit to the housing body. The garbage disposal unit further includes an outlet port that is configured to connect an inside of the housing body to an inside of the cabinet. The garbage disposal unit further includes a dehydration unit that is located in the housing body and that is configured to dehydrate and agitate garbage by rotating. The garbage disposal unit further includes an agitation unit.

A garbage disposal unit is disclosed. The garbage disposal unit includes a cabinet. The garbage disposal unit further includes a crushing unit that is located in the cabinet and that is configured to crush garbage. The garbage disposal unit further includes a housing body that is located in the cabinet. The garbage disposal unit further includes an inlet port that is configured to guide garbage discharged from the crushing unit to the housing body. The garbage disposal unit further includes an outlet port that is configured to connect an inside of the housing body to an inside of the cabinet. The garbage disposal unit further includes a dehydration unit that is located in the housing body and that is configured to dehydrate and agitate garbage by rotating. The garbage disposal unit further includes an agitation unit.

An opening and/or closing mechanism associated with a lid, door or cover of machinery are disclosed herein. According to various embodiments, the system described comprises a lid, and a lid locking mechanism. A counterbalance, a timer, and a controller may also be utilized by the system. The system may allow for automatic starting of device operation in response to s timer expiring. The system may further allow for automatic opening of the lid in response to the timer expiring without the utilization of manual assistance.

An opening and/or closing mechanism associated with a lid, door or cover of machinery are disclosed herein. According to various embodiments, the system described comprises a lid, and a lid locking mechanism. A counterbalance, a timer, and a controller may also be utilized by the system. The system may allow for automatic starting of device operation in response to s timer expiring. The system may further allow for automatic opening of the lid in response to the timer expiring without the utilization of manual assistance.

Provided is a centrifugal drying method for a workpiece having a plurality of blind holes. The centrifugal drying method includes: installing the workpiece to a turntable in a first posture in which an opening of a first blind hole among the plurality of the blind holes faces downward; and rotating the workpiece in the first posture about a rotation axis extending in a vertical direction together with the turntable.