A glass bottle cutter based on electric heating comprises a base. A rotary bracket and a heating and cutting seat are disposed at two ends of an upper surface of the base respectively. A motor is disposed in the rotary bracket, and a rotating shaft of the motor is disposed outside the rotary bracket and is provided with a support plate. An adhesive pad allowing the bottom of a glass bottle to cling thereto is disposed on a surface of the support plate. A heating tube is disposed on an upper surface of the heating and cutting seat. The base is provided with a power access port and an internal circuit mainboard. The motor, the heating tube and the power access port are all electrically connected to the circuit mainboard.

A method of manufacturing a tip for use with smokable substances. A tube is rotated while applying heat in a horizontal and vertical direction to an end of the tube. The heated end is squeezed with rollers and while a rotating t-shaped plug is inserted into the heated end of the tube. The rollers and t-shaped plug are removed and a scoring wheel is applied to the tube to create a scratch. Then heat is applied to the scratch. An end of the tube is clamped with a rotating chuck and water is sprayed at the scratch to create a thermal shock which separates the tube into two pieces. Heat is applied to a section of one end of the pieces. Tapered rollers are applied to the heated section to taper a diameter of the piece along the heated section.

A method of manufacturing a tip for use with smokable substances. A tube is rotated while applying heat in a horizontal and vertical direction to an end of the tube. The heated end is squeezed with rollers and while a rotating t-shaped plug is inserted into the heated end of the tube. The rollers and t-shaped plug are removed and a scoring wheel is applied to the tube to create a scratch. Then heat is applied to the scratch. An end of the tube is clamped with a rotating chuck and water is sprayed at the scratch to create a thermal shock which separates the tube into two pieces. Heat is applied to a section of one end of the pieces. Tapered rollers are applied to the heated section to taper a diameter of the piece along the heated section.

A method of manufacturing a tip for use with smokeable substances. A tube is rotated while applying heat to a section. The heated section is squeezed with tapered rollers and a pivoting rod is inserted. The rollers and rod are removed and heat is again applied. The heated portion is squeezed a second time with the tapered rollers and the rod is reinserted. The rollers and rod are removed and heat is again applied. The heated portion is again squeezed with the tapered rollers and the pivoting rod is again reinserted. The rollers and rod are removed and heat is applied to the end of the tube. The tube is scored above the end to form a scored line. Heat is applied to the scored line. Water is sprayed onto the scored line to split the tube into two pieces. Heat is applied to the tube at the split end.

A method of manufacturing a tip for use with smokeable substances. A tube is rotated while applying heat to a section. The heated section is squeezed with tapered rollers and a pivoting rod is inserted. The rollers and rod are removed and heat is again applied. The heated portion is squeezed a second time with the tapered rollers and the rod is reinserted. The rollers and rod are removed and heat is again applied. The heated portion is again squeezed with the tapered rollers and the pivoting rod is again reinserted. The rollers and rod are removed and heat is applied to the end of the tube. The tube is scored above the end to form a scored line. Heat is applied to the scored line. Water is sprayed onto the scored line to split the tube into two pieces. Heat is applied to the tube at the split end.

A cleaving assembly and a method for cleaving a glass body having a face at a desired angle greater than 0 degrees are disclosed. The assembly comprises a laser device for emitting a laser beam, a rotating device, and a positioning fixture. The rotating device has a head that rotates about a central axis that is orthogonal to the laser beam. The positioning fixture is operatively mounted to the head and centered axially along the central axis and is also rotatably driven by the rotating device. The positioning fixture has a tapered surface that is transverse to the central axis and that supports the glass body at a predetermined angle relative to the central axis. Rotation of the positioning fixture about the central axis when the glass body is exposed to the laser beam, cleaves the face of the glass body at the desired angle due to the glass body being supported transverse to the central axis.

A method for processing a workpiece using a pulsed laser beam includes beam shaping of the laser beam to form an elongated focus zone in the material of the workpiece. The beam shaping is carried out by using an arrangement of diffractive, reflective and/or refractive optical assemblies. The beam shaping includes focus-forming beam shaping to cause beam portions to enter at an entry angle to a beam axis of the laser beam for forming the elongated focus zone along the beam axis in the workpiece by way of interference, and phase-correcting beam shaping to counteract any influence of the interference by entrance of the laser beam into the workpiece. The method further includes setting beam parameters of the laser beam so that the material of the workpiece is modified in the elongated focus zone.

Embodiments of the present method of laser cutting a laser wavelength transparent glass article comprises feeding at least one glass article to a pulsed laser assembly having at least one pulsed laser, wherein the pulsed laser defines a laser beam focal line with a length of 0.1-100 mm, the glass article being comprised of two end sections, and at least one lateral surface disposed lengthwise between the end sections. The method further comprises laser cutting at least one perforation line onto the lateral surface of the glass article while there is relative motion between the glass article and the pulsed laser and separating the glass article along the at least one perforation line to yield a laser cut glass article.

A bottle cutter has a body having two generally arcuate components connected to each other by straight parallel members permitting one component to slide relative to the other component between an open, non-cutting position and a closed, cutting position. Each arcuate component includes a plurality of an inwardly facing rollers that facilitate rotation of a bottle held by the bottle cutter in the closed, cutting position. A cutting wheel disposed on one of the two components cuts, or at least scores, the bottle as the bottle is rotated. If the bottle is only scored, separation of the top and bottom portions of the bottle may be effected using hot and cold water to induce differential thermal stresses in the glass. The edge may be finished or polished using sandpaper or any other suitable abrasive material.

A bottle cutter has a body having two generally arcuate components connected to each other by straight parallel members permitting one component to slide relative to the other component between an open, non-cutting position and a closed, cutting position. Each arcuate component includes a plurality of an inwardly facing rollers that facilitate rotation of a bottle held by the bottle cutter in the closed, cutting position. A cutting wheel disposed on one of the two components cuts, or at least scores, the bottle as the bottle is rotated. If the bottle is only scored, separation of the top and bottom portions of the bottle may be effected using hot and cold water to induce differential thermal stresses in the glass. The edge may be finished or polished using sandpaper or any other suitable abrasive material.