A melter for preparing a molten medium, in particular for preparing a molten adhesive, has a housing and a melting tank formed within the housing. The melter further has a filling opening for introducing the medium to be melted. The melter further has a wall section which encircles the filling opening. The melter further has an insulating body which encircles the filling opening and covers the wall section. The insulating body is elastically deformable for use in such a melter.

An article of manufacture, such as a weighted blanket, a cushioning element, or the like, includes an elastomeric element that includes elongated elements that follow nonlinear, partially overlapping paths and voids between adjacent portions of the elongated elements. Such an elastomeric element may define a weighted layer of a weighted blanket, a cushioning layer of a cushioning element of the like. The elastomeric element may be secured directly to a substrate, such as a fabric layer. Alternatively, an adhesion layer may secure the elastomeric element to the substrate. An adhesion layer may cover only a portion of the substrate. A cover may be provided over the elastomeric element. Together, the cover and the substrate may contain the elastomeric element.

A melter for preparing a molten medium, in particular for preparing a molten adhesive, has a housing and a melting tank formed within the housing. The melter further has a filling opening for introducing the medium to be melted. The melter further has a wall section which encircles the filling opening. The melter further has an insulating body which encircles the filling opening and covers the wall section. The insulating body is elastically deformable for use in such a melter.

The invention includes a gas supplier for discharging a gas into a space sandwiched between a substrate and a shielding plate by supplying the gas to a gas discharge nozzle provided in the shielding plate to form a flow of the gas from a central part toward a radially outer side of the substrate. This gas supplier is controlled such that a flow velocity of the gas into a discharge space at a peripheral edge part of the substrate becomes larger than zero.

An adhesive dispensing system for applying liquid adhesive to a substrate using different nozzles with the same manifold is disclosed. The adhesive dispensing system includes a manifold having a body, a first clamp configured to engage the body of the manifold, a second clamp configured to engage the body of the manifold, and a nozzle. The first and second clamps secure the nozzle to the body of the manifold. The body of the manifold has a first contact surface that engages the first clamp and a second contact surface that engages the second clamp and the nozzle, where the second contact surface is angularly offset from the first contact surface.

A method for operating a double-action piston pump of an application system for applying a fluid medium to a substrate, wherein the piston pump has a piston which is movable between a first reversal point and a second reversal point for delivering the fluid medium, wherein on reaching the first reversal point and the second reversal point, the movement direction of the piston is reversed, wherein during an output period, the fluid medium is output by means of an output device, and during an interruption period, an output of the fluid medium by means of the output device is interrupted, wherein during the interruption period, the movement direction of the piston is reversed, wherein on reversal of the movement direction during the interruption period, the piston is situated at an intermediate position between the first reversal point and the second reversal point.

A melter for preparing a molten medium, in particular for preparing a molten adhesive, has a melting tank that has a melting chamber for receiving and melting a medium to be melted. The melter has a heating device for heating the melting chamber. The melting chamber has an upper chamber section and a lower chamber section. The melting tank has a dispensing opening that can be fluidly connected to a delivery device for delivering the molten medium. The melting tank further has a drain opening. The dispensing opening and the drain opening open into the lower chamber section. The melter further has a closure body for closing the drain opening. In a closed position, the closure body closes the drain opening and an end section of the closure body projects into the lower chamber section.

The invention relates to an arrangement (200) comprising a storage tank (100), a heating device (1) configured to heat the storage tank (100), said heating device (1) comprising: a casing (10) defining an internal volume, said internal volume having a main chamber (14), said storage tank (100) being arranged at least partially in the main chamber (14), a heating element (20) arranged in the internal volume, a blower (30) configured to create a flow by sucking gaseous fluid from at least the upper part (10a) and to deliver sucked gaseous fluid in the main chamber (14);

wherein a suction duct (40) extends in the internal volume, the blower fan (30) being arranged in said suction duct (40),

characterized in that the arrangement (200) further comprises a guiding sleeve element (50) arranged in the main chamber (14) forming a peripheral space (51) around the storage tank (100) in order to speed up the flow and optimize the heat transfer(100).

A process for hot application of an adhesive composition (80) on a support (96), by means of a nozzle (50) applying the adhesive composition (80), a line (88) supplying the nozzle (50) with the adhesive composition (80) to be applied in fluid form, a mixer (30) positioned in the line (88) for the homogeneous mixture of the main components of the adhesive composition before its application; the applied adhesive composition (80) including a silylated prepolymer, a compatible tackifying resin; the adhesive composition having a cross-linking catalyst; the process involving: supplying the line (88) with the silylated prepolymer separated from the cross-linking catalyst, the mixing of the cross-linking catalyst with the main components by the mixer (30), the hot application of the mixed adhesive composition (80) onto a support (96).

An improvement to surface marking devices for pumping and circulating melted thermoplastic material to various surfaces including roads, parking lots and the like is provided. The pump for melted thermoplastic is comprised of a cold section and a hot section. The hot section is connected to a fluid or electric motor, or alternatively, an internal combustion engine for providing rotation to the pump. The connection to provide rotation to the hot section is through the cold section, which is spaced away from the hot section and connected with shafting to provide rotation to the hot section. A heating jacket is secured to the hot section for transferring heat from an external source to the hot section. The spacing between the hot and cold sections provides the ability to rebuild the hot section of the pump without removal from the cold section and without removal from the vehicle to which it is attached.