Large-scale indoor degassing unit
Technical Field
The invention relates to the field of disinfection, in particular to a large indoor disinfection device.
Background
Indoor disinfection, namely, the indoor disinfection is carried out by spraying at each corner by using some disinfection tools, so that indoor bacteria are eliminated, and the indoor cleanness is ensured.
Traditional disinfection mode is exactly to utilize some instruments that spray the antiseptic solution, the manual work is carried, spray, perhaps use modes such as some illumination, eliminate the bacterium, to the great place in some spaces, such mode is not suitable very much, the manual work sprays intensity ratio great, shine and waste more electric resources, it is not thorough to the disinfection in some corners, the manual work sprays the antiseptic solution, especially bottled with some cylinders, the antiseptic solution that needs to press is said, intensity is great, and the time is still long, efficiency is not high, consequently in order to solve these circumstances, it is very necessary to design a neotype device that bears the disinfection bottle.
Disclosure of Invention
The invention aims to solve the problems and designs a large indoor disinfection device.
The technical scheme of the invention is that the large indoor disinfection device comprises a circular base, wherein a circular hollow box is fixedly connected to the upper surface of the circular base, a pressing disinfection mechanism is arranged on the upper surface of the circular hollow box, a moving mechanism is arranged on the lower surface of the circular base, and the pressing disinfection mechanism comprises a first circular groove formed in the center of the upper surface of the circular hollow box, a second rotary bearing embedded in the first circular groove, a vertical rotary circular shaft arranged in the second rotary bearing, a fixed circular ring sleeved at one fourth of the vertical rotary circular shaft, a plurality of horizontal support rods A embedded on the side surface of the fixed circular ring, a hollow cylinder sleeved on the plurality of horizontal support rods A, a plurality of circular gaskets fixedly connected to the edge of the lower surface of the hollow cylinder, and a group of fastening screws arranged between each circular gasket and the lower surface of the hollow cylinder, A movable frame fixedly connected with the lower surface of each circular gasket, a group of horizontal short cylinders embedded on the two opposite side surfaces in each movable frame, rolling wheels sleeved on each group of horizontal short cylinders, a circular groove arranged on the upper surface of the circular hollow box and matched with the rolling wheels, a plurality of vertical strip-shaped grooves arranged on the side surfaces of the hollow cylinders, a sliding track arranged in each vertical strip-shaped groove, a sliding block arranged in each sliding track, a plurality of second circular grooves arranged on the upper surface of the circular hollow box and matched with the sliding blocks, a disinfection bottle bearing base embedded in each second circular groove, a plurality of sliding block vacuum suckers embedded on the inner lower surface of each disinfection bottle bearing base, folded fixed rods embedded on the front surface of each disinfection bottle bearing base and overlapped with the corresponding disinfection bottle bearing base, and a circular buckle cover sleeved on one end surface of each folded fixed rod and matched with the corresponding disinfection bottle bearing base, The support device comprises vertical bulges embedded on the lower surface of each circular buckle cover, arc-shaped pushing pads sleeved on the lower end surfaces of the vertical bulges, support stand columns embedded on the upper surfaces of the sliding blocks, support plates sleeved on the upper surfaces of the support stand columns, a handheld pressing frame fixedly connected to the upper surfaces of the support plates, elastic soft layers sleeved on the handheld pressing frame, and foot pressing mechanisms arranged on the lower surfaces of the support plates and positioned on the outer sides of the support stand columns.
The foot pressing mechanism is composed of a group of arc supporting pieces fixedly connected to the edge of the lower surface of the supporting plate, a group of second strip-shaped grooves formed in the lower surface of each arc supporting piece, a horizontal round rod embedded at one end in each second strip-shaped groove, a folded round hook sleeved on each horizontal round rod, a fixed arc belt sleeved on the folded round hook, an arc pedal shell sleeved on each fixed arc belt, and a group of anti-skid protrusions fixedly connected to the upper surface of the U.S. arc pedal shell.
The moving mechanism is composed of two groups of strip-shaped gaskets arranged on the lower surface of the circular base, a group of supporting round rods embedded on the lower surface of each strip-shaped gasket, two groups of horizontal cylinders embedded on the side surface of each supporting round rod, compression springs sleeved on each supporting round rod and in lap joint with the two corresponding groups of horizontal cylinders, a fixing shell sleeved on each compression spring, three folded supporting rods embedded on the inner side surface of each fixing shell, a fixing ring fixedly connected to one end face of each three folded supporting rod, a rotating bearing embedded in each fixing ring, a rotating round rod arranged in each rotating bearing, and a rotating universal wheel sleeved on each rotating round rod.
The side surface of the circular base is embedded with two groups of horizontal plates H, each group of horizontal plates H is embedded with an N-shaped frame, each N-shaped frame is fixedly connected with an arc-shaped pushing handle, and each arc-shaped pushing handle is sleeved with a rubber gasket to jointly form the structure.
The number of the horizontal support rods A is 5-8, and the horizontal support rods A are positioned on the same circumference.
The number of the plurality of circular gaskets is 4-6, and the diameter of each circular gasket is larger than the wall thickness of the hollow cylinder.
The number of the vertical strip-shaped grooves is 6-8, and the vertical strip-shaped grooves are positioned on the same circumference at equal angles.
The circular hollow box and the hollow cylinder are both made of high-density polyethylene.
The longitudinal section of the movable frame is H-shaped.
The round hollow box is internally embedded with a group of support rods Y.
The large indoor disinfection device manufactured by the technical scheme of the invention has the advantages of convenient operation, good pressing effect, great reduction of labor intensity, more bearing quantity, convenient walking and good corner cleaning effect.
Drawings
FIG. 1 is a schematic view of a large indoor sterilization apparatus according to the present invention;
FIG. 2 is an enlarged view of a portion of the press sterilization mechanism of the present invention;
FIG. 3 is an enlarged view of a portion of the foot-pressing mechanism of the present invention;
FIG. 4 is an enlarged partial view of the arcuate footrest housing of the present invention;
FIG. 5 is an enlarged view of a portion of the moving mechanism of the present invention;
FIG. 6 is a partial top plan view of a large indoor sterilization unit according to the present invention;
in the figure, 1, a circular base; 2. a circular hollow box; 3. a second rotating bearing; 4. vertically rotating the circular shaft; 5. fixing the circular ring; 6. a horizontal support bar A; 7. a hollow cylinder; 8. a circular gasket; 9. tightening the screw; 10. moving the frame; 11. a horizontal short cylinder; 12. a rolling wheel; 13. a sliding track; 14. a slider; 15. a sterilization bottle carrying base; 16. a vacuum chuck; 17. a folded fixing rod; 18. a circular buckle cover; 19. a vertical protrusion; 20. an arc-shaped pushing pad; 21. supporting the upright post; 22. a support plate; 23. holding the pressing frame by hand; 24. an elastic soft layer; 25. an arc support sheet; 26. a horizontal round bar; 27. a folded round hook; 28. fixing the arc-shaped belt; 29. an arc-shaped pedal shell; 30. a strip-shaped gasket; 31. a support round bar; 32. a horizontal cylinder; 33. a compression spring; 34. a stationary case; 35. a folded support bar; 36. a first rotating bearing; 37. rotating the round bar; 38. rotating the universal wheel; 39. a horizontal plate H; 40. an N-shaped frame; 41. the arc-shaped pushing handle; 42. a rubber gasket; 43. a support bar Y; 44. and (4) anti-skid bulges.
Detailed Description
The invention is described in detail below with reference to the accompanying drawings, and as shown in fig. 1-6, the large-scale indoor disinfection device comprises a circular base (1), a circular hollow box (2) is fixedly connected to the upper surface of the circular base (1), a pressing disinfection mechanism is arranged on the upper surface of the circular hollow box (2), a moving mechanism is arranged on the lower surface of the circular base (1), and the pressing disinfection mechanism comprises a first circular groove formed in the center of the upper surface of the circular hollow box (2), a second rotary bearing (3) embedded in the first circular groove, a vertical rotary circular shaft (4) arranged in the second rotary bearing (3), a fixed circular ring (5) sleeved at one fourth of the vertical rotary circular shaft (4), a plurality of horizontal support rods a (6) embedded on the side surface of the fixed circular ring (5), a hollow cylinder (7) sleeved on the plurality of horizontal support rods a (6), and a moving mechanism arranged on the lower surface of the circular base (1), A plurality of circular gaskets (8) fixedly connected at the edge of the lower surface of the hollow cylinder (7), a group of set screws (9) arranged between each circular gasket (8) and the lower surface of the hollow cylinder (7), a moving frame (10) fixedly connected at the lower surface of each circular gasket (8), a group of horizontal short cylinders (11) embedded on two opposite side surfaces in each moving frame (10), rolling wheels (12) sleeved on each group of horizontal short cylinders (11), circular grooves which are formed on the upper surface of the circular hollow box (2) and matched with the rolling wheels (12), a plurality of vertical strip-shaped grooves formed on the side surfaces of the hollow cylinder (7), sliding rails (13) arranged in each vertical strip-shaped groove, sliding blocks (14) arranged in each sliding rail (13), a plurality of second circular grooves which are formed on the upper surface of the circular hollow box (2) and matched with the sliding blocks (14), A disinfection bottle bearing base (15) embedded in each second round groove, a plurality of vacuum suckers (16) embedded on the inner lower surface of each disinfection bottle bearing base (15), a folded fixing rod (17) embedded on the front surface of each sliding block (14) and lapped with the corresponding disinfection bottle bearing base (15), a round buckle cover (18) sleeved on one end surface of each folded fixing rod (17) and matched with the corresponding disinfection bottle bearing base (15), a vertical bulge (19) embedded on the lower surface of each round buckle cover (18), an arc pushing pad (20) sleeved on the lower end surface of each vertical bulge (19), a supporting upright post (21) embedded on the upper surface of each sliding block (14), a supporting plate (22) sleeved on the upper surface of a plurality of supporting upright posts (21), a hand-holding frame (23) fixedly connected on the upper surface of the supporting plate (22), a plurality of vacuum suckers (16) embedded on the inner lower surface of each disinfection bottle bearing base (15), a, The elastic soft layer (24) sleeved on the hand holding pressing frame (23) and the foot pressing mechanism which is arranged on the lower surface of the supporting plate (22) and is positioned on the outer side of the plurality of supporting upright columns (21) are formed together; the foot pressing mechanism is composed of a group of arc supporting pieces (25) fixedly connected to the edge of the lower surface of the supporting plate (22), a group of second strip-shaped grooves formed in the lower surface of each arc supporting piece (25), a horizontal round rod (26) embedded in one end of each second strip-shaped groove, a folded round hook (27) sleeved on each horizontal round rod (26), a fixed arc belt (28) sleeved on the folded round hook (27), an arc pedal shell (29) sleeved on each fixed arc belt (28) and a group of anti-skid protrusions (44) fixedly connected to the upper surface of the American arc pedal shell (29); the moving mechanism consists of two groups of strip-shaped gaskets (30) arranged on the lower surface of the circular base (1), a group of supporting round rods (31) embedded on the lower surface of each strip-shaped gasket (30), two groups of horizontal cylinders (32) embedded on the side surface of each supporting round rod (31), compression springs (33) sleeved on each supporting round rod (31) and lapped with the two corresponding groups of horizontal cylinders (32), and a fixed shell (34) sleeved on each compression spring (33), three fold-shaped support rods (35) embedded on the inner side surface of each fixed shell (34), a fixed circular ring (5) fixedly connected to one end surface of each three fold-shaped support rods (35), a first rotating bearing (36) embedded in each fixed circular ring (5), a rotating circular rod (37) arranged in each first rotating bearing (36), and a rotating universal wheel (38) sleeved on each rotating circular rod (37); two groups of horizontal plates H (39) are embedded on the side surface of the circular base (1), N-shaped frames (40) are embedded on each group of horizontal plates H (39), an arc-shaped pushing handle (41) is fixedly connected to each N-shaped frame (40), and a rubber gasket (42) is sleeved on each arc-shaped pushing handle (41) to form the structure; the number of the horizontal supporting rods A (6) is 5-8, and the horizontal supporting rods A (6) are positioned on the same circumference; the number of the plurality of circular gaskets (8) is 4-6, and the diameter of each circular gasket (8) is larger than the wall thickness of the hollow cylinder (7); the number of the vertical strip-shaped grooves is 6-8, and the vertical strip-shaped grooves are positioned on the same circumference at equal angles; the circular hollow box (2) and the hollow cylinder (7) are both made of high-density polyethylene; the longitudinal section of the moving frame (10) is H-shaped; a group of support rods Y (43) are embedded in the circular hollow box (2).
The embodiment is characterized in that a second rotating bearing in a first round groove at the center of the upper surface of a round hollow box can better drive a fixed ring on a vertical rotating round shaft to rotate, a horizontal support rod A on the side surface of the fixed ring can better support a hollow cylinder, a set screw on a round gasket at the edge of the lower surface of the hollow cylinder can be better fixed, a rolling wheel on a horizontal short cylinder on a moving frame at the lower surface of the round gasket can be better moved, a sliding block in a sliding track in a vertical strip-shaped groove on the side surface of the hollow cylinder can be better moved, a disinfection bottle bearing base in a second round groove can be better bearing a base, a vacuum chuck at the lower surface of the disinfection bottle bearing base can be better fixed, and a folded fixing rod which is lapped with the corresponding disinfection bottle bearing base can be better fixed by the sliding block, the supporting upright post of sliding block upper surface can be better supports the backup pad, what the frame can be better pressed to holding of backup pad upper surface presses the press frame moves, and an operation is more convenient, presses the effect better, great reduction intensity of labour, and the quantity that bears is more, and it is convenient to walk, clears up better device to the corner.
In the embodiment, a second rotating bearing in a first round groove at the center of the upper surface of a round hollow box can better drive a fixed ring on a vertical rotating round shaft to rotate, a horizontal support rod A on the side surface of the fixed ring can better support a hollow cylinder, a set screw on a round gasket at the edge of the lower surface of the hollow cylinder can be better fixed, a rolling wheel on a horizontal short cylinder on a moving frame at the lower surface of the round gasket can better move, a sliding block in a sliding track in a vertical strip-shaped groove on the side surface of the hollow cylinder can better move, a disinfection bottle bearing base in a second round groove can better bear a base, a vacuum chuck at the lower surface of the disinfection bottle bearing base can better fix, and a folded fixing rod which is lapped with the corresponding disinfection bottle bearing base can better fix the sliding block, support plate that the support post of sliding block upper surface can be better, holding of backup pad upper surface presses pressing the frame can be better press and move, horizontal round bar on the arc backing sheet of backup pad lower surface edge drives the book shape circle and colludes and rotate, the fixed arc area that the book shape circle was colluded is responsible for fixedly, the pedal casing of arc on the fixed arc area can be trampled with the foot, the non-slip raised of the pedal casing upper surface of arc plays skid-proof effect, the device removes through rotating the universal wheel, unusual convenient and fast, the transport of manpower has been saved.
Example 2: the disinfection bottle bearing base can be replaced by bases of air fresheners and other cylinder bottles, the supporting effect can be achieved, the disinfection bottle bearing base can adapt to different fields, and other structures are the same as those of the disinfection bottle bearing base in embodiment 1.
The technical solutions described above only represent the preferred technical solutions of the present invention, and some possible modifications to some parts of the technical solutions by those skilled in the art all represent the principles of the present invention, and fall within the protection scope of the present invention.