A method for manufacturing panels includes at least the step of covering one or more side edges of a relevant panel, and moving the panel with its respective side edge relatively beyond an application device. The application device includes at least one nozzle, positioned in the plane of the panel when viewed at an angle of less than 90° to the corresponding side edge. A floor panel includes a covered side edge.

A heat pump dispenser includes a housing having a handle portion and a barrel portion. A feeder section is coupled to the handle portion. The feeder section includes a feeder mechanism and a dispensing trigger assembly operably coupled to the feeder mechanism. The feeder mechanism includes a gear assembly having a drive gear operably engaged to a plunger housed in the barrel portion. The trigger assembly includes a trigger having a ratchet portion. The ratchet portion selectively engages and rotates the drive gear to move the plunger toward a dispensing opening provided in the barrel portion and into engagement with an adhesive/filler stick. The feeder mechanism is selectively actuated by the dispensing trigger assembly to advance the adhesive/filler stick into a heater section of the barrel portion.

A glue application device is provided for the application of glue to a short side of a plate-shaped workpiece. Such a glue application device can be included in a coating machine.

The present invention concerns the provision of a novel glue application apparatus for controllably depositing glue on the mating surfaces of door components in a manner that provides adequate glue coverage while preventing the deposition of excessive amounts of glue. The glue application apparatus includes multiple glue dispensers having uniquely configured glue dispensing nozzles that are uniquely positioned at various angles to accommodate mating surfaces of different profiles.

A cross-laminated timber processing equipment comprises a longitudinal board loading mechanism, a transverse board loading mechanism, an adhesive spraying mechanism, laying cars, presses, a transfer car, and an unloading car. The longitudinal board loading mechanism lays longitudinal boards on a laying car at an assembly station, and the transverse board loading mechanism lays transverse boards on the laying car. The longitudinal boards and the transverse boards are perpendicularly and alternately laid layer by layer. The adhesive spraying mechanism is provided above the assembly station, and sprays an adhesive on the upper surfaces of assembled boards. The transfer car moves back and forth between a conveying station and an idle press through the assembly station, carries the laying cars and the assembled boards, and feeds the laying cars and the assembled boards into the presses for compaction. The unloading car moves back and forth between a press completing compaction and an unloading station, and conveys an idle laying car to the assembly station. Compared with other international similar equipment, this equipment can implement fully-automatic cross-laminated timber processing and production, and has low apparatus cost, high production capacity, high processing efficiency, and a great leading advantage.

A glued rod insert (GRI) for use in mass timber construction comprising a generally cylindrical collar having: an internal concentric threaded bore for receiving a threaded rod, circumferential ridges or ribs on the exterior for securely seating within a hole drilled in wood, and a relief channel for excess glue. A method using the glued rod insert (GRI) to install threaded rods in wood components in mass timber construction.

A cross-laminated timber processing equipment comprises a longitudinal board loading mechanism, a transverse board loading mechanism, an adhesive spraying mechanism, laying cars, presses, a transfer car, and an unloading car. The longitudinal board loading mechanism lays longitudinal boards on a laying car at an assembly station, and the transverse board loading mechanism lays transverse boards on the laying car. The longitudinal boards and the transverse boards are perpendicularly and alternately laid layer by layer. The adhesive spraying mechanism is provided above the assembly station, and sprays an adhesive on the upper surfaces of assembled boards. The transfer car moves back and forth between a conveying station and an idle press through the assembly station, carries the laying cars and the assembled boards, and feeds the laying cars and the assembled boards into the presses for compaction. The unloading car moves back and forth between a press completing compaction and an unloading station, and conveys an idle laying car to the assembly station. Compared with other international similar equipment, this equipment can implement fully-automatic cross-laminated timber processing and production, and has low apparatus cost, high production capacity, high processing efficiency, and a great leading advantage.

The glue injecting apparatus is configured for use with an adhesive. The glue injecting apparatus is configured for use in injecting the adhesive to a mortise and tenon joint. The glue injecting apparatus comprises a pedestal, a reservoir, a pump, and a nozzle assembly. The reservoir contains the adhesive. The pedestal supports the reservoir above a supporting surface. The pump: 1) attaches the nozzle assembly to the reservoir; and, 2) generates a pressure differential, which is used for transporting the adhesive through the nozzle assembly to the mortise and tenon joint. The nozzle assembly is a flexible structure capable of supporting a fluid under pressure.

A heat pump dispenser includes a housing having a handle portion and a barrel portion. A feeder section is coupled to the handle portion. The feeder section includes a feeder mechanism and a dispensing trigger assembly operably coupled to the feeder mechanism. The feeder mechanism includes a gear assembly having a drive gear operably engaged to a plunger housed in the barrel portion. The trigger assembly includes a trigger having a ratchet portion. The ratchet portion selectively engages and rotates the drive gear to move the plunger toward a dispensing opening provided in the barrel portion and into engagement with an adhesive/filler stick. The feeder mechanism is selectively actuated by the dispensing trigger assembly to advance the adhesive/filler stick into a heater section of the barrel portion.

Doors, systems and methods of making the same are described, including use of an adhesive that is capable of achieving green strength in a predetermined time, including for exemplary automated embodiments, to prevent movement of the components relative to each other.