초록 ▼

Work surface with interactive area for access to a computerized device, with application in laboratories, clean rooms, environments where there is a risk of explosion and health spaces, including controlled environment concerning aseptic conditions, chemical, thermal and/or mechanical resistance. It

Work surface with interactive area for access to a computerized device, with application in laboratories, clean rooms, environments where there is a risk of explosion and health spaces, including controlled environment concerning aseptic conditions, chemical, thermal and/or mechanical resistance. It comprises a work surface with top plate (1) and a supplementary plate (3), with normal use in a laboratory; touch detection system (2, 6), incorporated inside of a suitable enclosure (5); a screen (7) and other components inside the enclosure (5) under the work surface; supporting components (4, 8). Use on countertops, fume hoods, laboratory furniture, vertical panel, with use of aseptic materials or easy to decontaminate, or in environments with fewer restrictions, or in hospital areas, in situations where the users have to work wearing gloves and simultaneously make registers, in areas of high chemical and/or thermal loads.

대표청구항 ▼

1. A work surface for controlled laboratory environment characterized in that it comprises: a. a top plate (1) comprising glass or other rigid material that is transparent, non-porous, and chemically resistant;b. a touch detection plate, in particular multi-touch (2), disposed under the top plate (1

1. A work surface for controlled laboratory environment characterized in that it comprises: a. a top plate (1) comprising glass or other rigid material that is transparent, non-porous, and chemically resistant;b. a touch detection plate, in particular multi-touch (2), disposed under the top plate (1);c. a supplementary plate (3) comprising glass, resin or other material that is rigid, non-porous, and chemically resistant said supplementary plate (3) disposed under, and serving as support for, said top plate (1);d. a screen (7), placed under the touch detection plate (2);e. an enclosure (5) substantially sealed to the supplementary plate, said enclosure containing therein the touch detection plate (2) and the screen (7);f. a supporting structure (4, 8) of the work surface supporting the enclosure (5) and disposed between the enclosure (5) and the supplementary plate (3),wherein the supplementary plate (3) is configured to receive the touch detection plate (2), and said supplementary plate (3) is placed in the area under the top plate (1) not covered by the touch detection plate (2). 2. The work surface for controlled laboratory environment according to claim 1, wherein the enclosure (5) comprises a fan (10) for active recirculation of air from inside the enclosure which promotes dissipation of heat. 3. The work surface for controlled laboratory environment according to claim 2, wherein the enclosure (5) comprises an air filter (11) associated to said fan, the fan (10) and the filter being placed in an opening of said enclosure (5). 4. The work surface for controlled laboratory environment according to claim 3, wherein the top plate (1) is glass or polycarbonate, in particular laminated glass, chemically enriched glass for greater resistance, or tempered glass. 5. The work surface for controlled laboratory environment according to claim 3, wherein said fan (10) is placed in an opening of the enclosure (5) and is adapted for extracting air from inside the enclosure (5) to the outside of the enclosure (5) through the opening of said enclosure (5). 6. The work surface for controlled laboratory environment according to claim 3, wherein the supplementary plate (3) is made of glass, resin, phenolic resin, medium density wood fiber board (MDF), high density wood fiber board (HDF), polycarbonate, polyester or acrylic, or derivatives thereof, in particular clusters of polyester or acrylic with inert particles. 7. The work surface for controlled laboratory environment according to claim 2, wherein the supplementary plate (3) is made of glass, resin, phenolic resin, medium density wood fiber board (MDF), high density wood fiber board (HDF), polycarbonate, polyester or acrylic, or derivatives thereof, in particular clusters of polyester or acrylic with inert particles. 8. The work surface for controlled laboratory environment according to claim 2 that comprises a space between said touch detection plate (2) and said screen (7), so that the airflow caused by said fan (10) crosses this space. 9. The work surface for controlled laboratory environment according to claim 8, wherein the enclosure (5) comprises an air filter (11) associated to said fan, the fan (10) and the filter being placed in an opening of said enclosure (5). 10. The work surface for controlled laboratory environment according to claim 8, wherein said fan (10) is placed in an opening of the enclosure (5) and is adapted for extracting air from inside the enclosure (5) to the outside of the enclosure (5) through the opening of said enclosure (5). 11. The work surface for controlled laboratory environment according to claim 8, wherein the supplementary plate (3) is made of glass, resin, phenolic resin, medium density wood fiber board (MDF), high density wood fiber board (HDF), polycarbonate, polyester or acrylic, or derivatives thereof, in particular clusters of polyester or acrylic with inert particles. 12. The work surface for controlled laboratory environment according to claim 2, wherein said fan (10) is placed in an opening of the enclosure (5) and is adapted for extracting air from inside the enclosure (5) to the outside of the enclosure (5) through the opening of said enclosure (5). 13. The work surface for controlled laboratory environment according to claim 12, wherein the top plate (1) is glass or polycarbonate, in particular laminated glass, chemically enriched glass for greater resistance, or tempered glass. 14. The work surface for controlled laboratory environment according to claim 12, wherein the supplementary plate (3) is made of glass, resin, phenolic resin, medium density wood fiber board (MDF), high density wood fiber board (HDF), polycarbonate, polyester or acrylic, or derivatives thereof, in particular clusters of polyester or acrylic with inert particles. 15. The work surface for controlled laboratory environment according to claim 1, wherein the supplementary plate (3) is made of glass, resin, phenolic resin, medium density wood fiber board (MDF), high density wood fiber (HDF), polycarbonate, polyester or acrylic, or derivatives thereof, in particular clusters of polyester or acrylic with inert particles. 16. The work surface for controlled laboratory environment according to claim 1, wherein a top plate (1) covers the entire top of the work surface, so that there are no cracks or roughness on its top. 17. The work surface for controlled laboratory environment according to claim 1, wherein the top plate (1) has a thickness of 12 mm, in particular up to 8 mm. 18. The work surface for controlled laboratory environment according to claim 1, wherein the top plate (1) and the supplementary plate (3) have a joint thickness of 8 to 30 mm. 19. The work surface for controlled laboratory environment according to claim 1, wherein the thickness of the top plate (1) and the supplementary plate (3), as well as a sensibility of the touch detection plate (2) are such that they detect touches of fingers wearing gloves. 20. The work surface for controlled laboratory environment according to claim 1 that comprises material substantially smooth, without sharp edges, without visible holes and without unfilled holes.