A pretreatment device includes a pretreatment portion, a reception portion, a processor and a memory. The pretreatment portion performs a pretreatment on a recording medium. The reception portion receives recording medium information that the recording medium has. The memory stores computer-readable instructions that, when executed by the processor, perform processes including: setting, for the pretreatment portion, pretreatment information relating to the pretreatment, on the basis of the recording medium information received by the reception portion; and causing the pretreatment portion to perform the pretreatment on the basis of the set pretreatment information.

A pretreatment device includes a pretreatment portion, a reception portion, a processor and a memory. The pretreatment portion performs a pretreatment on a recording medium. The reception portion receives recording medium information that the recording medium has. The memory stores computer-readable instructions that, when executed by the processor, perform processes including: setting, for the pretreatment portion, pretreatment information relating to the pretreatment, on the basis of the recording medium information received by the reception portion; and causing the pretreatment portion to perform the pretreatment on the basis of the set pretreatment information.

A method based on a hot press technique is used to apply a permanent pattern onto a plush synthetic fabric having a pile. The method generally involves mounting one or more top plates and one or more bottom plates onto a hot press machine, where at least one of the top or bottom plates has a raised relief pattern on its surface. The temperature of the plates is set to at least 180 C. and the top and bottom plates are then pressed together against opposite sides of a plush synthetic fabric having a pile on at least one side, the raised relief pattern engaging the side of the fabric having the pile such that the pattern of the relief is imprinted into the pile.

A method based on a hot press technique is used to apply a permanent pattern onto a plush synthetic fabric having a pile. The method generally involves mounting one or more top plates and one or more bottom plates onto a hot press machine, where at least one of the top or bottom plates has a raised relief pattern on its surface. The temperature of the plates is set to at least 180 C. and the top and bottom plates are then pressed together against opposite sides of a plush synthetic fabric having a pile on at least one side, the raised relief pattern engaging the side of the fabric having the pile such that the pattern of the relief is imprinted into the pile.

A heat press (10) including a body (11), a heat plate (18), a handle (16), a cover (12), a control compartment (14) and an insulation portion (25). The body (11) includes a first end (1) and a second end (2). The heat plate (18) is located proximate the first end (1) of the body (11) and is configured to engage ironable materials (3). The handle (16) is located proximate the second end (2) of the body (11) and is configured to withstand forces (4) from a user. The cover (12) covers a portion of the body (11) and the handle (16). The control compartment (14) includes an electrical circuit (15), controls (19) and a display (17). The control compartment (14) is spaced away from and is at least indirectly electrically coupled to the heat plate (18). The insulation portion (25) is positioned between the control compartment (14) and the heat plate (18). The insulation portion (25) includes a first layer of insulating material (26).

A flat knitting machine mangling device with position varying with gap size is provided. The flat knitting machine mangling device includes a driving element, a fixing base disposed on a cam supporting base, a sliding base disposed to correspond to the fixing base, a limiting block combined with the fixing base and limiting the sliding base to only slide relative to the cam supporting base, a mangling sheet supporting arm and a mangling sheet disposed on the mangling sheet supporting arm. The driving element is started when a knock-over bit cam makes a displacement stroke. The sliding base is provided with a guide block and makes a regulation stroke relative to the cam supporting base when the driving element is started. The guide block drives the mangling sheet to move to change a mangling position when the sliding base makes the regulation stroke.

A flat knitting machine mangling device with position varying with gap size is provided. The flat knitting machine mangling device includes a driving element, a fixing base disposed on a cam supporting base, a sliding base disposed to correspond to the fixing base, a limiting block combined with the fixing base and limiting the sliding base to only slide relative to the cam supporting base, a mangling sheet supporting arm and a mangling sheet disposed on the mangling sheet supporting arm. The driving element is started when a knock-over bit cam makes a displacement stroke. The sliding base is provided with a guide block and makes a regulation stroke relative to the cam supporting base when the driving element is started. The guide block drives the mangling sheet to move to change a mangling position when the sliding base makes the regulation stroke.

A method for knitting a three-dimensional fabric with variable thickness through a flat knitting machine includes the following steps: moving two cam groups and driving a plurality of knitting needles to knit a first piece of knitting by a starting cam system; moving the two cam groups and driving the plurality of knitting needles to knit a second piece of knitting by a middle cam system; and moving the two cam groups and driving the plurality of knitting needles to knit a supporting yarn by two tail cam systems respectively. The tail cam systems control each of a plurality of knock-over bit cams to move according to a gap size corresponding to a knitting length of the supporting yarn, so as to promptly change a thickness of the three-dimensional fabric along the length change of the supporting yarn.

A heat press (10) including a body (11), a heat plate (18), a handle (16), a cover (12), a control compartment (14) and an insulation portion (25). The body (11) includes a first end (1) and a second end (2). The heat plate (18) is located proximate the first end (1) of the body (11) and is configured to engage ironable materials (3). The handle (16) is located proximate the second end (2) of the body (11) and is configured to withstand forces (4) from a user. The cover (12) covers a portion of the body (11) and the handle (16). The control compartment (14) includes an electrical circuit (15), controls (19) and a display (17). The control compartment (14) is spaced away from and is at least indirectly electrically coupled to the heat plate (18). The insulation portion (25) is positioned between the control compartment (14) and the heat plate (18). The insulation portion (25) includes a first layer of insulating material (26).

A kind of woven cloth and a method able to integrally form a three-dimensional pattern on the woven cloth and its finished product in the present invention is to prepare a kind of woven cloth composed of lots yarns, and each yarn is made from several monofilaments, which respectively have an outer circumference coated with a thermoplastic polymer layer. After the woven cloth is hot pressed in a mold that is preformed with a three-dimensional pattern, the woven cloth will produce a corresponding three-dimensional pattern through compressing or hot melting of the thermoplastic polymer layer. Through above-mentioned method, the woven cloth can be integrally formed with a three-dimensional pattern, able to simplify manufacturing process, lower cost, increase strength and avoid disengaging and breaking apart of the woven cloth and able to be produced fully automatically.