In various embodiments multi-component systems for the protection of spray booth surfaces and the suppression of dust are provided. In certain embodiments the multi-component system for the temporary protection of a paint spray booth and the suppression of dust comprises a first component comprising a liquid that when applied to a surface of said paint booth dries to form a peelable film; and a second component comprising a liquid that when applied to a surface of said paint booth or to said film, forms a tacky coating that adheres dust particles. In certain embodiments the system further comprises a third component comprising a liquid that when applied to a surface of said paint booth or to said film, forms a tacky coating that adheres dust particles, wherein the composition of said third component is different than the composition of said second component. In certain embodiments the system further comprises a non-woven material configured for application to a floor of a spray booth.

A method of manufacturing a nano antenna is provided. The method includes forming a material layer on a substrate, defining a portion of the material layer, forming an adhesion layer on the defined portion of the material layer, forming a nano antenna material layer on the adhesion layer, and removing the adhesion layer to thereby manufacture the nano antenna.

A film peeling machine movement assembly is disclosed in the embodiments of the disclosure, including: a film peeling machine provided with a frame having a first portion and a second portion; a first engaging component connected with one of the first portion and the second portion of the frame; and a first moving device provided with a first moving component and a first side engaging component connected with the first moving component for engagement with the first engaging component for moving the film peeling machine along a first path by the first moving component. The film peeling machine movement assembly of the embodiments of the disclosure is applied, so as to grasp and to move the film peeling machine automatically such that the film peeling machine is moved into and out of a replacement chamber and moved into an operational position automatically.

A film peeling machine movement assembly is disclosed in the embodiments of the disclosure, including: a film peeling machine provided with a frame having a first portion and a second portion; a first engaging component connected with one of the first portion and the second portion of the frame; and a first moving device provided with a first moving component and a first side engaging component connected with the first moving component for engagement with the first engaging component for moving the film peeling machine along a first path by the first moving component. The film peeling machine movement assembly of the embodiments of the disclosure is applied, so as to grasp and to move the film peeling machine automatically such that the film peeling machine is moved into and out of a replacement chamber and moved into an operational position automatically.

A film-applying machine includes a bracket, a mechanical arm, an application apparatus, and a storage apparatus. The storage apparatus includes a storage mechanism, a driving mechanism, and a first rolling mechanism. The storage mechanism includes a supporting frame mounted to the bracket, and a storage assembly adjustably coupled to the supporting frame. The driving mechanism includes a supporting member and a driving assembly. The supporting member couples with the supporting frame. The driving assembly includes a driving member coupled to the supporting member and a first transmission belt coupled to the driving member. The first rolling mechanism includes a pressing plate and a plurality of rollers. An end of the pressing plate couples with the first transmission belt, and another end is coupled to the supporting frame. The rollers are rotatably mounted on the pressing plate.

Obtained from a thermoplastic film (1), having the outer side (1A) with corona treatment and distributes breakable lines (2), between which segments (3A-3N) are configured, each of which includes a signaling mark (4) of the zero position of each package, a first layer of medium adhesion adhesive (5), two (second and third) layers of high adhesive adhesion (6A) and (6B), between which is that breakable line (2); It also includes a protective/guide strip (7) that extends over the two layers of high-adhesion adhesives (6A) and (6B), where one of its ends is permanently glued, while its opposite end is folded into a hook (8) which, in turn, is siliconized on the face that fits over the high-adhesion adhesive layer (6B).

Obtained from a thermoplastic film (1), having the outer side (1A) with corona treatment and distributes breakable lines (2), between which segments (3A-3N) are configured, each of which includes a signaling mark (4) of the zero position of each package, a first layer of medium adhesion adhesive (5), two (second and third) layers of high adhesive adhesion (6A) and (6B), between which is that breakable line (2); It also includes a protective/guide strip (7) that extends over the two layers of high-adhesion adhesives (6A) and (6B), where one of its ends is permanently glued, while its opposite end is folded into a hook (8) which, in turn, is siliconized on the face that fits over the high-adhesion adhesive layer (6B).

Interleavant particles for location between adjacent stacked glass sheets that include an organic polymer core with an outer coating comprising rosin. The organic polymer core has a softening point greater than 60 C., a solubility in water of less than 2 g/L, a compressive strength of at least 3 MPa and a volumetric mass density less than 1.6 g/cm.sup.3. A composition, methods of producing the particles and stacking glass sheets, use of the particles to space the glass sheets and a stack of glass sheets. In one method, a solid organic polymer core and a solid outer coating material are combined by high shear mixing wherein the outer coating material has a lower melting point than the core material and the high shear mixing is effective to melt the outer coating material and to effect coating thereof onto the solid organic polymer core.

Interleavant particles for location between adjacent stacked glass sheets that include an organic polymer core with an outer coating comprising rosin. The organic polymer core has a softening point greater than 60 C., a solubility in water of less than 2 g/L, a compressive strength of at least 3 MPa and a volumetric mass density less than 1.6 g/cm.sup.3. A composition, methods of producing the particles and stacking glass sheets, use of the particles to space the glass sheets and a stack of glass sheets. In one method, a solid organic polymer core and a solid outer coating material are combined by high shear mixing wherein the outer coating material has a lower melting point than the core material and the high shear mixing is effective to melt the outer coating material and to effect coating thereof onto the solid organic polymer core.