An automated container cutting apparatus configured to cut various sized rectilinear containers without unnecessary costs or lack of transportability. The automated container cutting apparatus includes a right angle transfer conveyor that positions a container in a first cutting position. The apparatus also includes a cutting mechanism configured to cut the container on two adjacent edges while in the first cutting position. The cutting mechanism further includes two cutting elements supported at right angles to one another for horizontally cutting a container on two adjacent edges.

A method for fabricating an optical waveguide comprises: providing a sample of lithium niobate doped with magnesium oxide and having at least one grating of periodic domain inversion defined therein; applying a layer of metallic zinc to a surface of the sample over the at least one grating using sputter deposition; heating the sample in an atmosphere of pure oxygen to cause the zinc to indiffuse into the lithium niobate to form a waveguiding layer of increased refractive index under the surface of the sample; and using a dicing blade to cut two substantially parallel channels along a length direction of the at least one grating, to define a ridge waveguide between the two channels.

A method for fabricating an optical waveguide comprises: providing a sample of lithium niobate doped with magnesium oxide and having at least one grating of periodic domain inversion defined therein; applying a layer of metallic zinc to a surface of the sample over the at least one grating using sputter deposition; heating the sample in an atmosphere of pure oxygen to cause the zinc to indiffuse into the lithium niobate to form a waveguiding layer of increased refractive index under the surface of the sample; and using a dicing blade to cut two substantially parallel channels along a length direction of the at least one grating, to define a ridge waveguide between the two channels.

A cutter unit includes a cutter holder, a cradle, a cutter lever, a cradle lever, and a transmitting portion. The cradle faces the cutter holder and movable between a full-cut position and a half-cut position. The cutter lever is configured to be contactable with the cutter holder. The cradle lever is configured to be contactable with the cradle. The transmitting portion is configured to move the cutter lever and the cradle lever in interlocking relation therebetween. The transmitting portion is configured to shut off transmission of movement of the cutter lever to the cradle lever in accordance with only operation to the cutter lever out of the cutter lever and the cradle lever while the transmitting portion is configured to transmit movement of the cradle lever to the cutter lever in accordance with only operation to the cradle lever out of the cutter lever and the cradle lever.

A strand of connected elastics is disclosed. The strand includes a series of elastic bands and a series of connecting portions that connect the series of elastic bands to each other. The connecting portions may have configurations that enable them to broken when separation and use of an elastic from an end of the strand is desired. Methods for manufacturing and using strands of connected elastics are also disclosed.

A strand of connected elastics is disclosed. The strand includes a series of elastic bands and a series of connecting portions that connect the series of elastic bands to each other. The connecting portions may have configurations that enable them to broken when separation and use of an elastic from an end of the strand is desired. Methods for manufacturing and using strands of connected elastics are also disclosed.

Provided is a tape printing apparatus including a recessed portion having an open first side, a mounting portion lid that opens and closes the recessed portion, a support target portion that extends from a bottom surface of the recessed portion to the first side, and a cantilever support portion that is provided on a second side of the support target portion opposite to the first side and supports the support target portion in a cantilever manner. The mounting portion lid is provided with a lid-side support portion that supports an end on the first side of the support target portion when the mounting portion lid is closed.

A cutter unit includes a cutter holder, a cradle, a cutter lever, a cradle lever, and a transmitting portion. The cradle faces the cutter holder and movable between a full-cut position and a half-cut position. The cutter lever is configured to be contactable with the cutter holder. The cradle lever is configured to be contactable with the cradle. The transmitting portion is configured to move the cutter lever and the cradle lever in interlocking relation therebetween. The transmitting portion is configured to shut off transmission of movement of the cutter lever to the cradle lever in accordance with only operation to the cutter lever out of the cutter lever and the cradle lever while the transmitting portion is configured to transmit movement of the cradle lever to the cutter lever in accordance with only operation to the cradle lever out of the cutter lever and the cradle lever.

A method of manufacturing an article of apparel having dynamic vent-slits includes providing a fabric having a first surface and a second surface, forming a plurality of slits in a repeating fashion on the fabric, wherein a spacing between two adjacent slits in linear alignment is less than a length of a slit in non-linear alignment with the two slits and that is offset from the two slits such that the slit in non-linear alignment overlies the spacing between the slits in linear alignment, and the slit in non-linear alignment is parallel to the slits in linear alignment. The method further includes forming the fabric into at least part of the article of apparel. The slits may be positioned in one or more groupings, or aligned in different directions to open in response to different directions of stretch or movement, to provide dynamic ventilation.

A method of manufacturing an article of apparel having dynamic vent-slits includes providing a fabric having a first surface and a second surface, forming a plurality of slits in a repeating fashion on the fabric, wherein a spacing between two adjacent slits in linear alignment is less than a length of a slit in non-linear alignment with the two slits and that is offset from the two slits such that the slit in non-linear alignment overlies the spacing between the slits in linear alignment, and the slit in non-linear alignment is parallel to the slits in linear alignment. The method further includes forming the fabric into at least part of the article of apparel. The slits may be positioned in one or more groupings, or aligned in different directions to open in response to different directions of stretch or movement, to provide dynamic ventilation.