A medium carrying device includes a carrying part that carries a continuous print medium, a detection part that includes a light emitting part and a light receiving part arranged sandwiching a carrying path, and that detects the print medium carried on the carrying path according to a light amount that is received by the light receiving part, and a control part that controls operations of the carrying part and the detection part, wherein the control part sets a first emitted light amount of the emitted light of the light emitting part used in image formation to the print medium by performing a light amount measurement using the light emitting part and the light receiving part in a state where the print medium is carried to a first position, and sets a threshold light amount that is used in detecting a boundary position between the first region and the second region by the detection part through performing another light amount measurement by obtaining a receiving light amount of the light receiving part with the first emitted light amount and by determining the threshold light amount based on the receiving light amount in a state where the print medium is carried from the first position to another second position.

A medium carrying device includes a carrying part that carries a continuous print medium, a detection part that includes a light emitting part and a light receiving part arranged sandwiching a carrying path, and that detects the print medium carried on the carrying path according to a light amount that is received by the light receiving part, and a control part that controls operations of the carrying part and the detection part, wherein the control part sets a first emitted light amount of the emitted light of the light emitting part used in image formation to the print medium by performing a light amount measurement using the light emitting part and the light receiving part in a state where the print medium is carried to a first position, and sets a threshold light amount that is used in detecting a boundary position between the first region and the second region by the detection part through performing another light amount measurement by obtaining a receiving light amount of the light receiving part with the first emitted light amount and by determining the threshold light amount based on the receiving light amount in a state where the print medium is carried from the first position to another second position.

Refers to the present invention, a device (1) that will be fabricated with appropriate material, with several dimensions, to be adapted to a computerized numeric platform, for the structural glazing process, which is a technique of fixing the glass and the frame, through application of the high adhesion double-sided tape between them, the structure remains hidden on the inner side, in two basic steps, one being application and cutting of the high adhesion double-sided tape over the glass sheet, and the other is (applying) correct pressure on them, for the purpose of replacing the current manual process.

The film dispenser includes a folding box (51) having an outer guide wall (55) and an inner guide wall (65) which both have a guide gap (53, 63), and a cutting device (1) which is configured to be displaced in a cutting direction (S) in a manner guided in the two guide gaps (53, 63) at the two guide walls (55, 65).

The film dispenser includes a folding box (51) having an outer guide wall (55) and an inner guide wall (65) which both have a guide gap (53, 63), and a cutting device (1) which is configured to be displaced in a cutting direction (S) in a manner guided in the two guide gaps (53, 63) at the two guide walls (55, 65).

The present disclosure provides a lightweight, portable and detachable dispenser for reeled products such as tape, wrapping paper, aluminum foils and likes. The dispenser comprises a base portion that is lodged in the inner circumference part of roll and provides an anchoring support to the dispenser, and a top portion that lies over and above the outer circumference of the roll to allow the free end of the reeled product to pass through it and rest on a raised area to which a cutting means is attached. Top portion and the cutting means enable dispenser to be used in two different modes wherein in first mode the reeled product is cut from top side and in the second mode it is cut from bottom side. Thus, the disclosed dispenser allows universal application and improves efficiency of dispensing.

The present disclosure provides a lightweight, portable and detachable dispenser for reeled products such as tape, wrapping paper, aluminum foils and likes. The dispenser comprises a base portion that is lodged in the inner circumference part of roll and provides an anchoring support to the dispenser, and a top portion that lies over and above the outer circumference of the roll to allow the free end of the reeled product to pass through it and rest on a raised area to which a cutting means is attached. Top portion and the cutting means enable dispenser to be used in two different modes wherein in first mode the reeled product is cut from top side and in the second mode it is cut from bottom side. Thus, the disclosed dispenser allows universal application and improves efficiency of dispensing.

A robot system capable of separating an adhesive member from a cover material and sticking the adhesive member on an object without a complicated setting. A robot system including a sticking mechanism configured to clamp and stick an adhesive member on an object and a supply mechanism capable of supplying the adhesive member, wherein the sticking mechanism includes a robot hand configured to clamp and release the adhesive member and a robot arm configured to move the robot hand; and the supply mechanism is separate from the sticking mechanism, supplies the adhesive member in a state that the adhesive member is stuck to a cover material, and separates the cover material from the adhesive member.

A robot system capable of separating an adhesive member from a cover material and sticking the adhesive member on an object without a complicated setting. A robot system including a sticking mechanism configured to clamp and stick an adhesive member on an object and a supply mechanism capable of supplying the adhesive member, wherein the sticking mechanism includes a robot hand configured to clamp and release the adhesive member and a robot arm configured to move the robot hand; and the supply mechanism is separate from the sticking mechanism, supplies the adhesive member in a state that the adhesive member is stuck to a cover material, and separates the cover material from the adhesive member.

This disclosure relates to a device for producing adhesive labels, in particular in a self-service area, for example of a drug store. The device comprises a printer for printing a printing pattern based on user inputs onto an adhesive film, a cutting apparatus for cutting the adhesive film along a specified cutting pattern which can be selected by a user, and a transferring apparatus for automatically transferring the printed adhesive film from the printer to the cutting apparatus, wherein the transferring apparatus comprises a first moving unit for automatically moving the printed adhesive film in a forward direction from the printer to the cutting apparatus. A control apparatus controls the automatic transfer of the printed adhesive film from the printer to the cutting apparatus.