A cutting machine for window coverings is disclosed, which includes a worktable, a first cutting device, and a caliper. An abutting member and at least one series of extending graduation marks are provided on a table surface of the worktable. The caliper includes at least one internal gauge point and at least one external gauge point. By making the internal gauge point or the external gauge point of the caliper point at a scale value of the series of extending graduation marks which matches a height of a window opening, and by cutting the slats, the resultant slats are adapted to be installed to the window opening. In addition, a distance between a surface of the first cutting device which bears the slats and the table surface of the worktable is short, which makes the stacked slats can be cut in a substantially horizontal way.

An automatic sizing cutting device includes a conveyance unit, a measuring device, a rotary cutter arranged downstream of the conveyance unit so as to oppose a band-shaped member and having a cutting blade on an outer circumferential surface thereof, a die roller which is arranged on a side of the band-shaped member opposite to the rotary cutter and which rotates in a direction opposite to a rotation direction of the rotary cutter; and an elastic member which urges the die roller toward the rotary cutter. The rotary cutter is controlled to rotate in accordance with a conveyed length of the band-shaped member measured by the measuring device, and is controlled such that circumferential speeds of the rotary cutter and the die roller when the cutting blade of the rotary cutter cuts the band-shaped member are equal to a conveying speed of the band-shaped member.

An automatic sizing cutting device includes a conveyance unit, a measuring device, a rotary cutter arranged downstream of the conveyance unit so as to oppose a band-shaped member and having a cutting blade on an outer circumferential surface thereof, a die roller which is arranged on a side of the band-shaped member opposite to the rotary cutter and which rotates in a direction opposite to a rotation direction of the rotary cutter; and an elastic member which urges the die roller toward the rotary cutter. The rotary cutter is controlled to rotate in accordance with a conveyed length of the band-shaped member measured by the measuring device, and is controlled such that circumferential speeds of the rotary cutter and the die roller when the cutting blade of the rotary cutter cuts the band-shaped member are equal to a conveying speed of the band-shaped member.

A size positioning device applied to a window covering cutting apparatus includes a manual operating member, a limit assembly and a position detecting device. The limit assembly can be driven by the manual operating member to move. The position detecting device can detect a position of the limit assembly and generate a position detecting value. According to the position detecting value, a signal processing circuit of the window covering cutting apparatus generates adjusted position information and target position information, and displays the adjusted position information on an output device. The manual operating member is adjusted according to the adjusted position information to move the limit assembly until the adjusted position information equals to the target position information, after which a cutting device cuts a first end of the window covering. Thereby, a risk of cutting the window covering to a wrong size due to miscalculation by users is reduced.

A window covering cutting apparatus includes a supporting base, a mounting base, a cutting device, a size positioning device, an input device, an output device, a storage device and a signal processing circuit. The signal processing circuit calculates acquired information including product information, a mounting mode, cutting size information and a position detecting value to generate adjusted position information and target position information, and displays them on the output device. The size positioning device is adjusted until the adjusted position information equals to the target position information, after which the signal processing circuit sets the cutting device to cut the window covering to the required size. Since a correct cutting position of the window covering is obtained by the calculation of the signal processing circuit, a risk of cutting the window covering to a wrong size due to miscalculation by users is reduced.

A window covering cutting apparatus includes a supporting base, a mounting base, a cutting device, a size positioning device, an input device, an output device, a storage device and a signal processing circuit. The signal processing circuit calculates acquired information including product information, a mounting mode, cutting size information and a position detecting value to generate adjusted position information and target position information, and displays them on the output device. The size positioning device is adjusted until the adjusted position information equals to the target position information, after which the signal processing circuit sets the cutting device to cut the window covering to the required size. Since a correct cutting position of the window covering is obtained by the calculation of the signal processing circuit, a risk of cutting the window covering to a wrong size due to miscalculation by users is reduced.

A data carrier with detachable parts, a method of forming a data carrier comprising a primary card body, a data carrier puncher for removing detachable parts of data carriers, and a method of removing a form changing part from a data carrier using a puncher are disclosed. The data carrier with detachable parts comprising: a primary card body having a first size; a form changing part disposed within the primary card body and having a second size, the form changing part connected to the primary card body by at least one fixing portion, and the form changing part configured to be removed from the primary card body by breaking the at least one fixing portion; an integrated circuit component embedded in the form changing part; and at least one notch disposed at a first position on a first end of the primary card body.

A data carrier with detachable parts, a method of forming a data carrier comprising a primary card body, a data carrier puncher for removing detachable parts of data carriers, and a method of removing a form changing part from a data carrier using a puncher are disclosed. The data carrier with detachable parts comprising: a primary card body having a first size; a form changing part disposed within the primary card body and having a second size, the form changing part connected to the primary card body by at least one fixing portion, and the form changing part configured to be removed from the primary card body by breaking the at least one fixing portion; an integrated circuit component embedded in the form changing part; and at least one notch disposed at a first position on a first end of the primary card body.

A soft good dispensing device includes a loading zone, one or more rollers, and a cutting mechanism. The loading zone is configured to receive a soft good supply. The one or more rollers are configured to automatically unwind a desired quantity of a soft good from the soft good supply. The cutting mechanism is configured to automatically separate the desired quantity of the soft good from the soft good supply. The cutting mechanism includes a rotary cutting blade and a rotatable blade adjustment mechanism. The rotary cutting blade is configured to cut the soft good as the rotary cutting blade travels relative to an unwound portion of the soft good. The rotatable blade adjustment mechanism is coupled to the rotary cutting blade and operable to extend the rotary cutting blade from the cutting mechanism and retract the cutting blade into the cutting mechanism.

A soft good dispensing device includes a loading zone, one or more rollers, and a cutting mechanism. The loading zone is configured to receive a soft good supply. The one or more rollers are configured to automatically unwind a desired quantity of a soft good from the soft good supply. The cutting mechanism is configured to automatically separate the desired quantity of the soft good from the soft good supply. The cutting mechanism includes a rotary cutting blade and a rotatable blade adjustment mechanism. The rotary cutting blade is configured to cut the soft good as the rotary cutting blade travels relative to an unwound portion of the soft good. The rotatable blade adjustment mechanism is coupled to the rotary cutting blade and operable to extend the rotary cutting blade from the cutting mechanism and retract the cutting blade into the cutting mechanism.