Glass cleaning device for hospital door and window
Technical Field
The invention relates to the field of cleaning of hospital door and window glass, in particular to a device for cleaning the hospital door and window glass.
Background
Along with the development of society, the living standard of people improves, people have higher requirements for devices used by hospitals, the hospitals are necessary environments for doctors and patients to work and treat, along with the continuous activity of the doctors and the patients in the hospitals, a plurality of stains are generated on window glass in the hospitals, the stains not only affect the beauty, but also affect the light collection degree in the hospitals and the learning effect of the doctors and the patients, so the hospitals can regularly hold the large cleaning activities, but the manual cleaning is time-consuming and labor-consuming during the cleaning, the body needs to be detected out when the outside glass is cleaned, the potential safety hazard exists, the existing device has single function, the manpower cannot be well released, and the hospital door and window glass cleaning device is very necessary to design in order to meet the market demand.
Disclosure of Invention
The invention aims to solve the problems and designs a cleaning device for window glass of a hospital door.
The technical scheme of the invention is that the hospital door and window glass cleaning device comprises a bearing plate, wherein a cleaning mechanism is arranged on the front surface of the bearing plate, and the cleaning mechanism comprises a rectangular box body arranged on the front surface of the bearing plate, a rectangular opening processed on the lower surface of the rectangular box body, a group of slide rails arranged on the upper surface in the rectangular box body, an electric trolley arranged on each slide rail, a first mounting block arranged on the lower surface of each electric trolley, a first circular groove processed at the center of the lower surface of each first mounting block, a hydraulic cylinder arranged in each first circular groove and with a downward telescopic end, a first square mounting frame arranged on the telescopic end of each hydraulic cylinder, a first electric push rod arranged on the inner lower surface of each first square mounting frame and with a horizontal telescopic end, a second square mounting frame arranged on the telescopic end of each first electric push rod, a second electric push rod with a lower surface and a telescopic end in the horizontal direction arranged in each second mouth-shaped mounting frame, an L-shaped mounting plate arranged on the telescopic end of each second electric push rod, a rotating motor with a rotating end in the horizontal direction arranged on each L-shaped mounting plate, a third mouth-shaped mounting frame arranged on the rotating end of each rotating motor, a third electric push rod with a lower surface and a telescopic end in the horizontal direction arranged in each third mouth-shaped mounting frame, a fourth mouth-shaped mounting frame arranged on the telescopic end of each third electric push rod, a micro linear motor with a lower surface and a telescopic end in the horizontal direction arranged in each fourth mouth-shaped mounting frame and a T-shaped mounting plate arranged on the telescopic end of each micro linear motor, wherein the side surface of the bearing plate is provided with a mains supply interface, and the lower surface of the rectangular box body and the side of the rectangular opening are provided with connecting rods, the utility model discloses a miniature electric vehicle, including connecting rod, controller power connection end, controller output end, pneumatic cylinder, electric putter, rotating electrical machines, No. two electric putter, No. three electric putter and miniature linear electric motor, the connecting rod lower surface is equipped with vertical mounting panel, vertical mounting panel front surface is equipped with the controller, controller power connection end is connected with commercial power interface through the wire, the controller output end is connected with electronic dolly, pneumatic cylinder, electric putter, rotating electrical machines, No. two electric putter.
The controller is in the model of MAM-200.
And the rear surface of each T-shaped mounting plate is provided with a brush layer matched with the T-shaped mounting plate.
The controller is sleeved with a protective cover.
The bearing plate both sides surface all is equipped with a set of fixed plate, every fixed plate front surface all processes and has a set of screw hole.
The lower surface in the rectangular box body is provided with a placing table, and the upper surface of the placing table is provided with a sponge protective layer.
And the edge of the rectangular opening is hinged with an electronic shutter.
The device for cleaning the window glass of the hospital door, which is manufactured by the technical scheme of the invention, has the advantages of simple operation, low maintenance cost, semi-automatic cleaning treatment, high cleaning speed, manpower liberation, cleaning efficiency improvement, potential safety hazard reduction, convenient use and strong novelty.
Drawings
FIG. 1 is a schematic view of a hospital door and window cleaning apparatus according to the present invention;
FIG. 2 is a side view of a hospital door window cleaning apparatus according to the present disclosure;
FIG. 3 is a top view of an outer pane of a hospital door window cleaning apparatus according to the present invention;
FIG. 4 is a side view of a hospital door window cleaning apparatus of the present invention shown in an inoperative position;
in the figure, 1, a bearing plate; 2. a rectangular box body; 3. a slide rail; 4. an electric trolley; 5. a first mounting block; 6. a hydraulic cylinder; 7. a first square mounting rack; 8. a first electric push rod; 9. a second square mounting rack; 10. a second electric push rod; 11. an L-shaped mounting plate; 12. a rotating electric machine; 13. a third square mounting rack; 14. a third electric push rod; 15. a fourth square mounting rack; 16. a micro linear motor; 17. a T-shaped mounting plate; 18. a mains supply interface; 19. a connecting rod; 20. a vertical mounting plate; 21. a controller; 22. a brush layer; 23. a protective cover; 24. a fixing plate; 25. a threaded hole; 26. a placing table; 27. a sponge protective layer; 28. electronic shutter.
Detailed Description
The invention is described in detail below with reference to the accompanying drawings, and as shown in fig. 1-4, the device for cleaning the window glass of the hospital door comprises a bearing plate (1), wherein a cleaning mechanism is arranged on the front surface of the bearing plate (1), the cleaning mechanism comprises a rectangular box body (2) arranged on the front surface of the bearing plate (1), a rectangular opening processed on the lower surface of the rectangular box body (2), a group of sliding rails (3) arranged on the inner upper surface of the rectangular box body (2), electric trolleys (4) arranged on each sliding rail (3), a first mounting block (5) arranged on the lower surface of each electric trolley (4), a first circular groove processed at the center of the lower surface of each first mounting block (5), hydraulic cylinders (6) arranged in each first circular groove and with downward telescopic ends, a first mouth-shaped mounting frame (7) arranged on the telescopic ends of each hydraulic cylinder (6), and a second mounting frame (7) arranged on the telescopic ends of, The electric push rod (8) with the lower surface and the telescopic end in the horizontal direction is arranged in each first-mouth-shaped mounting frame (7), the second-mouth-shaped mounting frame (9) with the telescopic end in the first-mouth-shaped mounting frame (8), the second-mouth-shaped mounting frame (10) with the lower surface and the telescopic end in the second-mouth-shaped mounting frame (9) in the horizontal direction, the L-shaped mounting plate (11) with the telescopic end in the second-mouth-shaped mounting frame (10), the rotating motor (12) with the rotating end in the horizontal direction arranged on each L-shaped mounting plate (11), the third-mouth-shaped mounting frame (13) with the rotating end in the horizontal direction arranged on the rotating end of each rotating motor (12), the third-mouth-shaped mounting frame (14) with the lower surface and the telescopic end in the third-mouth-shaped mounting frame (13), the fourth-mouth-shaped mounting frame (15) with the telescopic end in the third-mouth-shaped mounting frame (14), Set up in every four mouthful of shape mounting bracket (15) interior lower surface and flexible end and constitute jointly for miniature linear electric motor (16) of horizontal direction and T shape mounting panel (17) of setting on the flexible end of every miniature linear electric motor (16), loading board (1) side surface is equipped with commercial power interface (18), rectangle box (2) lower surface just is located rectangle opening one side and is equipped with connecting rod (19), connecting rod (19) lower surface is equipped with vertical mounting panel (20), vertical mounting panel (20) front surface is equipped with controller (21), controller (21) power connection end is connected with commercial power interface (18) through the wire, controller (21) output pass through the wire respectively with electric dolly (4), pneumatic cylinder (6), electric putter (8), rotating electrical machines (12), No. two electric putter (10), The third electric push rod (14) is connected with the micro linear motor (16); the type of the controller (21) is MAM-200; the rear surface of each T-shaped mounting plate (17) is provided with a brush layer (22) matched with the T-shaped mounting plate; the controller (21) is sleeved with a protective cover (23); a group of fixing plates (24) are arranged on the surfaces of the two sides of the bearing plate (1), and a group of threaded holes (25) are formed in the front surface of each fixing plate (24); a placing table (26) is arranged on the inner lower surface of the rectangular box body (2), and a sponge protective layer (27) is arranged on the upper surface of the placing table (26); and an electronic shutter (28) is hinged to the edge of the rectangular opening.
The cleaning mechanism is characterized by comprising a rectangular box body arranged on the front surface of the bearing plate, a rectangular opening machined in the lower surface of the rectangular box body, a group of slide rails arranged on the inner upper surface of the rectangular box body, an electric trolley arranged on each slide rail, a first mounting block arranged on the lower surface of each electric trolley, a first circular groove machined in the center of the lower surface of each first mounting block, a hydraulic cylinder arranged in each first circular groove and with a downward telescopic end, a first mouth-shaped mounting frame arranged on the telescopic end of each hydraulic cylinder, a first electric push rod arranged in each first mouth-shaped mounting frame and with a horizontal telescopic end, a second mouth-shaped mounting frame arranged on the telescopic end of each first electric push rod, a second electric push rod arranged in each second mouth-shaped mounting frame and with a horizontal telescopic end, a first electric push rod arranged in the lower surface of each first electric push rod, a second electric push rod arranged in each second mouth-shaped mounting frame and with, The device comprises L-shaped mounting plates arranged on the telescopic end of each second electric push rod, a rotary motor arranged on each L-shaped mounting plate, a third square-shaped mounting frame arranged on the rotary end of each rotary motor, a third electric push rod arranged on the inner lower surface of each third square-shaped mounting frame and with the telescopic end in the horizontal direction, a fourth square-shaped mounting frame arranged on the telescopic end of each third electric push rod, a miniature linear motor arranged on the inner lower surface of each fourth square-shaped mounting frame and with the telescopic end in the horizontal direction, and a T-shaped mounting plate arranged on the telescopic end of each miniature linear motor, wherein a mains supply interface is arranged on the side surface of each bearing plate, a connecting rod is arranged on one side of the rectangular opening on the lower surface of the rectangular box body, a vertical mounting plate is arranged on the lower surface of the connecting rod, a controller is arranged on the front surface of the vertical mounting plate, and a controller, the controller output end is connected with the electric trolley, the hydraulic cylinder, the first electric push rod, the rotating motor, the second electric push rod, the third electric push rod and the micro linear motor through the wires respectively.
In the embodiment of the technology, a group of fixed plates are arranged on the surfaces of two sides of the device, a group of threaded holes are processed on the surface of each fixed plate, the device is fixed on a wall above glass through the threaded holes, a power supply is connected, a controller extending down by pressing a connecting rod is pressed, the device is started, an electronic shutter on the lower surface of the device is opened, an electric trolley slides on a slide rail to be above a rectangular opening, then a hydraulic cylinder in a first mounting block on the lower surface of the electric trolley stretches downwards to drive a first mouth-shaped mounting frame on a stretching end to move downwards to stretch the first mouth-shaped mounting frame outside the device, a first electric push rod is arranged in the first mouth-shaped mounting frame horizontally, a second mouth-shaped mounting frame on the stretching end moves forwards, a second electric push rod in the second mouth-shaped mounting frame stretches horizontally left and right to drive an L-shaped mounting plate on the stretching end to move left and right, a rotating motor with, the third electric push rod in the third mouth-shaped mounting frame on the rotating end of the rotating motor horizontally stretches back and forth to drive the fourth mouth-shaped mounting frame on the stretching end to move, the miniature linear motor in the fourth mouth-shaped mounting frame horizontally stretches back and forth to drive the T-shaped mounting frame on the stretching end to move, then a brush layer on the rear surface of the T-shaped mounting frame can clean the glass, after the glass is cleaned, the device stretches back and forth, then the first electric push rod in the first mouth-shaped mounting frame horizontally stretches back and forth to drive the second mouth-shaped mounting frame on the stretching end to move, so that the second mouth-shaped mounting frame stretches out and draws back to the outside, then the rotating motor rotates 180 degrees to rotate the T-shaped mounting frame to contact the outer side of the glass, then the cleaning is continued, after the cleaning, the device stretches back and draws back, the telescopic answering device is placed on the placing table, then the electronic stop door is closed, the device operation is complete.
The technical scheme only represents the preferable technical scheme of the invention, and certain changes which can be made by a person skilled in the art to some parts of the technical scheme all represent the principle of the invention and belong to the protection scope of the invention.