CN113171480B - Sterilizing operating room equipment for andrology - Google Patents

Sterilizing operating room equipment for andrology Download PDF

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Publication number
CN113171480B
CN113171480B CN202110471043.8A CN202110471043A CN113171480B CN 113171480 B CN113171480 B CN 113171480B CN 202110471043 A CN202110471043 A CN 202110471043A CN 113171480 B CN113171480 B CN 113171480B
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plate
shaft
transmission shaft
belt
friction
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CN113171480A (en
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李冬青
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Shenzhen Tianjiao Weiye Technology Co ltd
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Shenzhen Tianjiao Weiye Technology Co ltd
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    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61LMETHODS OR APPARATUS FOR STERILISING MATERIALS OR OBJECTS IN GENERAL; DISINFECTION, STERILISATION OR DEODORISATION OF AIR; CHEMICAL ASPECTS OF BANDAGES, DRESSINGS, ABSORBENT PADS OR SURGICAL ARTICLES; MATERIALS FOR BANDAGES, DRESSINGS, ABSORBENT PADS OR SURGICAL ARTICLES
    • A61L2/00Methods or apparatus for disinfecting or sterilising materials or objects other than foodstuffs or contact lenses; Accessories therefor
    • A61L2/16Methods or apparatus for disinfecting or sterilising materials or objects other than foodstuffs or contact lenses; Accessories therefor using chemical substances
    • A61L2/18Liquid substances or solutions comprising solids or dissolved gases
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61LMETHODS OR APPARATUS FOR STERILISING MATERIALS OR OBJECTS IN GENERAL; DISINFECTION, STERILISATION OR DEODORISATION OF AIR; CHEMICAL ASPECTS OF BANDAGES, DRESSINGS, ABSORBENT PADS OR SURGICAL ARTICLES; MATERIALS FOR BANDAGES, DRESSINGS, ABSORBENT PADS OR SURGICAL ARTICLES
    • A61L2/00Methods or apparatus for disinfecting or sterilising materials or objects other than foodstuffs or contact lenses; Accessories therefor
    • A61L2/26Accessories or devices or components used for biocidal treatment
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61LMETHODS OR APPARATUS FOR STERILISING MATERIALS OR OBJECTS IN GENERAL; DISINFECTION, STERILISATION OR DEODORISATION OF AIR; CHEMICAL ASPECTS OF BANDAGES, DRESSINGS, ABSORBENT PADS OR SURGICAL ARTICLES; MATERIALS FOR BANDAGES, DRESSINGS, ABSORBENT PADS OR SURGICAL ARTICLES
    • A61L2202/00Aspects relating to methods or apparatus for disinfecting or sterilising materials or objects
    • A61L2202/10Apparatus features
    • A61L2202/15Biocide distribution means, e.g. nozzles, pumps, manifolds, fans, baffles, sprayers
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61LMETHODS OR APPARATUS FOR STERILISING MATERIALS OR OBJECTS IN GENERAL; DISINFECTION, STERILISATION OR DEODORISATION OF AIR; CHEMICAL ASPECTS OF BANDAGES, DRESSINGS, ABSORBENT PADS OR SURGICAL ARTICLES; MATERIALS FOR BANDAGES, DRESSINGS, ABSORBENT PADS OR SURGICAL ARTICLES
    • A61L2202/00Aspects relating to methods or apparatus for disinfecting or sterilising materials or objects
    • A61L2202/20Targets to be treated
    • A61L2202/24Medical instruments, e.g. endoscopes, catheters, sharps
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61LMETHODS OR APPARATUS FOR STERILISING MATERIALS OR OBJECTS IN GENERAL; DISINFECTION, STERILISATION OR DEODORISATION OF AIR; CHEMICAL ASPECTS OF BANDAGES, DRESSINGS, ABSORBENT PADS OR SURGICAL ARTICLES; MATERIALS FOR BANDAGES, DRESSINGS, ABSORBENT PADS OR SURGICAL ARTICLES
    • A61L2202/00Aspects relating to methods or apparatus for disinfecting or sterilising materials or objects
    • A61L2202/20Targets to be treated
    • A61L2202/25Rooms in buildings, passenger compartments

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  • Health & Medical Sciences (AREA)
  • Epidemiology (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Animal Behavior & Ethology (AREA)
  • General Health & Medical Sciences (AREA)
  • Public Health (AREA)
  • Veterinary Medicine (AREA)
  • Chemical & Material Sciences (AREA)
  • Chemical Kinetics & Catalysis (AREA)
  • General Chemical & Material Sciences (AREA)
  • Apparatus For Disinfection Or Sterilisation (AREA)
  • Invalid Beds And Related Equipment (AREA)

Abstract

The invention relates to a disinfection operating room device, in particular to a male disinfection operating room device which comprises a sickbed transmission linkage mechanism, a sickbed disinfection mechanism and a disinfection linkage mechanism.

Description

Sterilizing operating room equipment for andrology
Technical Field
The invention relates to a disinfection operating room device, in particular to a disinfection operating room device for andrology.
Background
When the male operating room is used, the operating room and patients and doctors in the operating room are often disinfected, most of the existing disinfection equipment cannot be independently finished, but no better disinfection operating room equipment exists in the market, so the male disinfection operating room equipment is designed.
Disclosure of Invention
The technical problem mainly solved by the invention is to provide the equipment for the male sterile operating room, the equipment can convey a sickbed and a patient on the sickbed into the operating room, the equipment can sterilize the sickbed and the patient when conveying the sickbed and the patient on the sickbed, the equipment can rotate a doctor standing on a rotating disc, the equipment can sterilize the doctor in rotation, and the equipment can sterilize the operating room.
In order to solve the technical problems, the invention relates to a disinfection operating room device, in particular to a male disinfection operating room device which comprises a sickbed conveying linkage mechanism, a sickbed disinfection mechanism and a disinfection linkage mechanism.
The sickbed conveying linkage mechanism is connected with the sickbed disinfection mechanism, and the sickbed conveying linkage mechanism is connected with the disinfection linkage mechanism.
As a further optimization of the technical scheme, the invention relates to a sterilizing operating room device for andrology, the sickbed transmission linkage mechanism comprises a device installation box, a hinged door a, a hinged door b, a sickbed, a device installation plate, a linkage groove, a connection plate a, a motor shaft a, a belt a, a conveyor belt, a connection shaft a, a connection shaft b, a bearing plate, a bearing shaft, a compression spring, a support plate, a linkage friction wheel a, a connection shaft c, a belt b, a connection shaft d, a linkage friction wheel b, a sliding limit block, a sliding block reset spring, a square box, a special-shaped pipe and a sterilizing spray head, the device installation box is connected with the hinged door a and hinged with the hinged door b, the device installation box is connected with the device installation plate, the device installation box is connected with the connection plate a, the device installation plate is connected with the connection plate a, and the mounting plate is connected with the conveyor belt in a friction way, the equipment mounting plate is connected with a bearing plate in a sliding way, the equipment mounting plate is connected with a support plate, the equipment mounting plate is connected with a connecting shaft c bearing, the equipment mounting plate is connected with a connecting shaft d bearing, the equipment mounting plate is connected with a sliding limiting groove, a linkage groove is formed on the mounting plate, a connecting plate a is connected with a motor a, the connecting plate a is connected with the connecting shaft a bearing, the connecting plate a is connected with a connecting shaft b, the motor a is connected with a motor shaft a, the motor shaft a is connected with a belt a in a friction way, the belt is connected with the connecting shaft b in a friction way, the bearing plate is connected with the support plate bearing, a compression spring is sleeved on the bearing shaft and limited on the bearing plate and the support plate, the linkage friction plate is connected with a linkage friction wheel a in a friction way, and the linkage friction wheel a is connected with the connecting shaft c, connecting axle c and belt b friction coupling, belt b and connecting axle d friction coupling, connecting axle d and linkage friction pulley b are connected, linkage friction pulley b and slip stopper friction coupling, slip stopper and slip spacing groove sliding connection, sliding block reset spring one end is connected the other end with the slip stopper and is connected with the slip spacing groove, and spacing in the one end of slip stopper and slip spacing inslot, the square chest upper end is connected the lower extreme with the equipment fixing case and is connected with the special-shaped pipe, the special-shaped pipe is connected with the disinfection shower nozzle.
As further optimization of the technical scheme, the invention relates to a disinfecting operating room device for andrology, the disinfecting mechanism for hospital beds comprises a mounting plate a, a mounting plate b, a resetting support column, a resetting spring, a mounting plate c, a micro-motion friction wheel, a first belt, a first connecting shaft, a friction wheel a, a friction wheel b, a second belt, a second connecting shaft, a friction wheel c, a third connecting shaft, a third belt, a fourth connecting shaft, a propeller, a mounting plate c, a sealing plate, a micro-pore plate, a connecting ring, a spring, a mounting plate d, a switching block, an input plate and a disinfecting liquid tank, wherein the mounting plate a is connected with the mounting plate b, the mounting plate a is in sliding connection with the connecting plate a, the mounting plate a is in friction connection with the conveyor belt, the mounting plate b is connected with the resetting support column which is in sliding connection with the mounting plate c, the resetting support column is connected with a micro-motion friction wheel bearing, the resetting support column is in sliding connection with the connecting plate a, the reset spring is sleeved on the reset support column and limited on the mounting plate b and the mounting plate c, the mounting plate c is connected with the connecting plate a, one end of the belt is in friction connection with the first connecting shaft, the other end of the belt is in friction connection with the connecting shaft a, the first connecting shaft is connected with the friction wheel a, the first connecting shaft is connected with the bearing of the connecting plate a, the friction wheel b is connected with the second connecting shaft, the second belt is in friction connection with the friction wheel c, the two second connecting shafts are connected with the bearing of the connecting plate a, the friction wheel c is connected with the third connecting shaft, the third connecting shaft is in friction connection with the third belt, the third connecting shaft is connected with the bearing of the equipment mounting box, the third belt is in friction connection with the fourth connecting shaft, the fourth connecting shaft is connected with the propeller, the fourth connecting shaft is connected with the bearing of the disinfectant tank, the mounting plate c is connected with the microporous plate, the mounting plate c is connected with the switching block, and the sealing plate is connected with the microporous plate, the micropore plate is connected with the connecting ring, micropore plate and equipment fixing case sliding connection, the connecting ring is connected with mounting panel d, connecting ring and equipment fixing case sliding connection, the spring housing on the connecting ring and spacing and equipment fixing case and mounting panel d, the groove sliding connection on switching block and the equipment fixing case, the input board is connected with the disinfection cistern, the input board is connected with the equipment fixing case, the disinfection cistern is connected with the equipment fixing case.
As a further optimization of the technical scheme, the invention relates to a male disinfection operating room device, which comprises a motor b, a motor shaft b, a belt c, a transmission shaft a, a micro-motion sliding groove, a friction wheel d, a rotary disk dustproof soft board, a support column, a micro-motion spring, a friction wheel e, a transmission shaft b, a helical gear a, a helical gear b, a transmission shaft c, a friction wheel f, a belt d, a transmission shaft d, a friction wheel g, a transmission shaft e, a transmission shaft f, a friction wheel h, a transmission shaft g, a thrust propeller a, a special-shaped pipe connecting nozzle, a belt f, a transmission shaft h, a thrust propeller b, a blowing output pipe, an output sliding pipe, an output reset spring, a first connecting plate, a second connecting plate, a third connecting plate, a fourth connecting plate, a transmission shaft i, a reciprocating output reset spring, a shielding plate a, The water pipe elbow, the reciprocating water pipe, the reciprocating nozzle, the baffle plate b and the connecting plate five, the motor b is connected with the motor shaft b, the motor b is connected with the connecting plate a, the motor shaft b is in friction connection with the belt c, the belt c is in friction connection with the transmission shaft a, the transmission shaft a is connected with the friction wheel d, the transmission shaft a is connected with the support column bearing, the transmission shaft a is connected with the connecting plate a bearing, the micro-motion sliding groove is formed in the connecting plate a, the friction wheel d is in friction connection with the transmission shaft b, the rotating disk is connected with the rotating disk dustproof soft plate, the rotating disk is connected with the support column, the rotating disk is in clearance fit with the connecting plate a, the micro-motion spring is sleeved on the support column and limited and is connected with the rotating disk and the transmission shaft a, the transmission shaft b is connected with the bevel wheel a, the transmission shaft b is connected with the connecting plate a bearing, the bevel wheel a is meshed with the bevel wheel b, and the transmission shaft c are connected with the transmission shaft c, the transmission shaft c is connected with a friction wheel f, the transmission shaft c is connected with a bearing of an equipment mounting plate, one end of a belt d is in friction connection with a transmission shaft b, the other end of the belt d is in friction connection with the transmission shaft d, the belt d is in friction connection with a friction wheel g, the transmission shaft d is connected with a connecting plate a, the friction wheel g is connected with a transmission shaft e, the transmission shaft e is in friction connection with a belt e, the transmission shaft e is connected with a bearing of an equipment mounting box, the transmission shaft e is in friction connection with the transmission shaft f, the belt e is in friction connection with a friction wheel h, the transmission shaft f is connected with a bearing of the equipment mounting box, the friction wheel h is connected with the transmission shaft g, the transmission shaft g is connected with a propeller pushing force propeller a, the transmission shaft g is connected with a disinfectant tank bearing, one end of a special-shaped pipe a is connected with an upper hole of a disinfectant tank, the other end of the disinfectant tank is connected and communicated with a special-shaped pipe through the equipment mounting box, the special-shaped pipe is connected with a spray head, the special-shaped pipe is connected with the equipment mounting plate, one end of a belt f is connected with a transmission shaft f in a friction way, the other end of the belt f is connected with a transmission shaft h in a friction way, the transmission shaft h is connected with a thrust propeller b, the transmission shaft h is connected with a disinfectant tank bearing, a blowing output pipe is connected with an output sliding pipe in a sliding way, the output sliding pipe is connected with a connecting plate III, one end of an output reset spring is connected with the blowing output pipe, the other end of the output reset spring is connected with the connecting plate III, the connecting plate I is connected with the equipment mounting plate, the connecting plate II is connected with a connecting plate IV, the connecting plate II is connected with a baffle plate A in a sliding way, the connecting plate III is connected with a water pipe elbow in a sliding way, the connecting plate III is connected with the baffle plate B in a sliding way, the connecting plate III is connected with a connecting plate V in a sliding way, one end of the transmission shaft I is connected with the connecting plate IV and the other end of the connecting plate I is connected with the connecting plate I, connecting plate four is connected with shielding plate a, and reciprocal output reset spring cover is on transmission shaft i and spacing in connecting plate one and connecting plate four, and shielding plate an is connected with connecting plate five, and water pipe elbow one end just communicates with reciprocal water piping connection, and the other end is connected with the jogged joint on the connecting plate five, and reciprocal water pipe is connected with reciprocal shower nozzle, and shielding plate b is connected with connecting plate five, five upsides of connecting plate and two sliding connection of connecting plate, downside and three sliding connection of connecting plate.
The male disinfection operating room equipment has the beneficial effects that:
according to the male disinfection operating room equipment, a sickbed and a patient on the sickbed can be conveyed into an operating room, the sickbed and the patient can be disinfected when the sickbed and the patient on the sickbed are conveyed, a doctor standing on a rotating disk can be rotated by the equipment, the doctor in rotation can be disinfected by the equipment, and the operating room can be disinfected by the equipment.
Drawings
The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.
FIG. 1 is a first schematic structural view of a sterilizing operating room device for andrology according to the present invention.
FIG. 2 is a schematic structural diagram of a male sterile operating room device according to the present invention.
FIG. 3 is a schematic structural view of a sterilizing operating room device for andrology according to the present invention.
FIG. 4 is a schematic structural view of a sterilizing operating room device for andrology according to the present invention.
FIG. 5 is a schematic structural view of a sterilizing operating room apparatus for andrology according to the present invention.
FIG. 6 is a schematic structural view of a sterilizing operating room device for andrology according to the present invention.
FIG. 7 is a schematic structural view of a sterilizing operating room device for andrology according to the present invention.
FIG. 8 is a schematic structural view of a sterilizing operating room apparatus for andrology according to the present invention.
FIG. 9 is a schematic structural view of the andrology disinfection operating room device of the present invention.
FIG. 10 is a schematic view of the construction of a sterile operating room apparatus for men according to the present invention.
FIG. 11 is a schematic view of the construction of a sterile operating room apparatus for men according to the present invention.
FIG. 12 is a schematic view of the construction of a sterile operating room apparatus for men according to the present invention.
FIG. 13 is a schematic view of the construction of a sterile operating room apparatus for men according to the present invention.
FIG. 14 is a schematic structural view of a sterilizing operating room apparatus for andrology according to the present invention.
FIG. 15 is a schematic view of the construction of a sterile operating room apparatus for men according to the present invention.
FIG. 16 is a schematic view of the construction of a sterile operating room apparatus for men according to the present invention.
FIG. 17 is a schematic view of the construction of a sterile operating room apparatus for men according to the present invention.
FIG. 18 is a schematic view of the construction of a sterile operating room apparatus for men according to the present invention.
FIG. 19 is a schematic view of the construction of a sterile operating room apparatus for men according to the present invention.
FIG. 20 is a schematic view of the construction of a sterile operating room apparatus for men according to the present invention.
FIG. 21 is a schematic view of the construction of a sterile operating room apparatus for men according to the present invention.
FIG. 22 is a schematic view of the construction of a sterile operating room apparatus for men according to the present invention.
FIG. 23 is a schematic view of the construction of a sterile operating room apparatus for men according to the present invention.
FIG. 24 is a schematic view of the construction of a sterile operating room apparatus for men according to the present invention.
FIG. 25 is a schematic view of the construction of a sterile operating room apparatus for men according to the present invention.
FIG. 26 is a schematic view of the construction of a sterile operating room apparatus for men according to the present invention.
In the figure: a sickbed transmission linkage mechanism 1; an equipment installation box 1-1; hinged door a 1-2; hinged door b 1-3; 1-4 of sickbeds; 1-5 of equipment mounting plates; 1-6 of a linkage groove; connection board a 1-7; motor a 1-8; motor shaft a 1-9; belt a 1-10; conveyor belts 1-11; connecting shaft a 1-12; connecting shaft b 1-13; pressure bearing plates 1-14; 1-15 of a bearing shaft; pressing the springs 1-16; support plates 1-17; linkage friction plates 1-18; linkage friction wheel a 1-19; connecting shafts c 1-20; belts b 1-21; connecting shafts d 1-22; linkage friction wheels b 1-23; 1-24 parts of a sliding limiting block; 1-25 of a sliding limiting groove; sliding block return springs 1-26; a hospital bed disinfection mechanism 2; mounting plate b 2-2; resetting the support columns 2-3; 2-4 of a return spring; mounting plate c 2-5; 2-6 parts of a micro friction wheel; 2-7 parts of a first belt; connecting shafts I2-8; friction wheel a 2-9; friction wheel b 2-10; 2-11 parts of a second belt; connecting shafts II 2-12; friction wheel c 2-13; connecting shafts III 2-14; 2-15 parts of a third belt; connecting shafts are four 2-16; 2-17 of a propeller; mounting plate c 2-18; sealing plates 2-19; 2-20 parts of a microporous plate; 2-21 parts of a connecting ring; 2-22 parts of spring; mounting plate d 2-23; switching blocks 2-24; input pads 2-25; 2-26 parts of a disinfectant tank; 2-27 parts of square box; special pipes 2-28; 2-29 parts of a disinfection nozzle; a disinfection linkage mechanism 3; motor b 3-1; motor shaft b 3-2; belt c 3-3; a transmission shaft a 3-4; 3-5 of a micro-motion sliding groove; friction wheel d 3-6; rotating the disc 3-7; 3-8 parts of a dustproof soft plate of the rotating disc; 3-9 of a support column; 3-10 parts of a micro spring; friction wheel e 3-11; a transmission shaft b 3-12; bevel gear a 3-13; bevel gear b 3-14; a transmission shaft c 3-15; friction wheel f 3-16; belts d 3-17; a drive shaft d 3-18; friction wheels g 3-19; a transmission shaft e 3-20; belts e 3-21; a drive shaft f 3-22; friction wheels h 3-23; a transmission shaft g 3-24; thrust propeller a 3-25; special pipes a 3-26; special pipes 3-27; the special pipe is connected with the spray heads 3-28; belts f 3-29; a transmission shaft h 3-30; thrust propeller b 3-31; blowing the output pipe 3-32; output sliding pipes 3-33; output return springs 3-34; 3-35 parts of a first connecting plate; 3-36 of a second connecting plate; connecting plates III 3-37; connecting plates four 3-38; a transmission shaft i 3-39; 3-40 parts of reciprocating output return spring; shielding plates a 3-41; 3-42 parts of a water pipe elbow; 3-43 parts of reciprocating water pipe; 3-44 of a reciprocating spray head; shielding plates b 3-45; connecting plates five 3-46.
Detailed Description
The first embodiment is as follows:
the present embodiment will be described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19, fig. 20, fig. 21, fig. 22, fig. 23, fig. 24, fig. 25, and fig. 26, and the present invention relates to a sterile operating room apparatus, and more particularly to a sterile operating room apparatus for men, which includes a bed transfer link 1, a bed sterilization mechanism 2, and a sterilization link 3, and is capable of transferring a patient on a bed and a patient on a bed into an operating room, sterilizing the bed and the patient while transferring the patient on the bed and the bed, rotating a doctor standing on the rotating disk, sterilizing the rotating doctor, and sterilizing the operating room.
The sickbed conveying linkage mechanism 1 is connected with the sickbed disinfecting mechanism 2, and the sickbed conveying linkage mechanism 1 is connected with the disinfecting linkage mechanism 3.
The second embodiment is as follows:
the following describes the present embodiment with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19, fig. 20, fig. 21, fig. 22, fig. 23, fig. 24, fig. 25, and fig. 26, and the present embodiment further describes the first embodiment, in which the sickbed transmission linkage mechanism 1 includes an equipment installation box 1-1, a hinged door a1-2, a hinged door b1-3, a sickbed 1-4, an equipment installation plate 1-5, a linkage groove 1-6, a connection plate a1-7, a motor a1-8, a motor shaft a1-9, a belt a1-10, a transmission belt 1-11, a connection shaft a1-12, a connection shaft b1-13, a pressure bearing plate 1-14, a pressure bearing shaft 1-15, and a pressure bearing shaft, 1-16 parts of compression spring, 1-17 parts of support plate, 1-18 parts of linkage friction plate, 1-19 parts of linkage friction wheel a, c1-20 parts of connecting shaft, b1-21 parts of belt, d1-22 parts of connecting shaft, b1-23 parts of linkage friction wheel b, 1-24 parts of sliding limiting block, 1-25 parts of sliding limiting groove, 1-26 parts of sliding block reset spring, 1-27 parts of square box, 1-28 parts of special pipe and 1-29 parts of disinfection spray head, 1-1 parts of equipment installation box is connected with a1-2 part of hinged door, 1-1 parts of equipment installation box is hinged with b1-3 part of hinged door, 1-1 parts of equipment installation box is connected with 1-5 parts of equipment installation box, 1-1 parts of equipment installation box is connected with a1-7 parts of connecting plate a, 1-5 parts of equipment installation box is connected with a1-7 parts of connecting plate, 1-5 parts of installation box is connected with 1-11 parts of conveying belt in a friction way, the equipment mounting plate 1-5 is connected with the bearing plate 1-14 in a sliding manner, the equipment mounting plate 1-5 is connected with the support plate 1-17, the equipment mounting plate 1-5 is connected with the connecting shaft c1-20 through a bearing, the equipment mounting plate 1-5 is connected with the connecting shaft d1-22 through a bearing, the equipment mounting plate 1-5 is connected with the sliding limit groove 1-25, the linkage groove 1-6 is arranged on the mounting plate 1-5, the connecting plate a1-7 is connected with the motor a1-8, the connecting plate a1-7 is connected with the connecting shaft a1-12 through a bearing, the connecting plate a1-7 is connected with the connecting shaft b1-13, the motor a1-8 is connected with the motor shaft a1-9, the motor shaft a1-9 is in friction connection with the belt a1-10, the belt a1-10 is in friction connection with the connecting shaft a1-12, the conveyer belt 1-11 is in frictional connection with a connecting shaft a1-12, the conveyer belt 1-11 is in frictional connection with a connecting shaft b1-13, a bearing plate 1-14 is connected with a bearing shaft 1-15, the bearing shaft 1-15 is in bearing connection with a supporting plate 1-17, a pressing spring 1-16 is sleeved on the bearing shaft 1-15 and limited on the bearing plate 1-14 and the supporting plate 1-17, a linkage friction plate 1-18 is in frictional connection with a linkage friction wheel a1-19, the linkage friction wheel a1-19 is connected with a connecting shaft c1-20, the connecting shaft c1-20 is in frictional connection with a belt b1-21, the belt b1-21 is in frictional connection with a connecting shaft d1-22, the connecting shaft d1-22 is connected with a linkage friction wheel b1-23, the linkage friction wheel b1-23 is in frictional connection with a sliding limiting block 1-24, the sliding limiting block 1-24 is connected with the sliding limiting groove 1-25 in a sliding mode, one end of a sliding block reset spring 1-26 is connected with the sliding limiting block 1-24, the other end of the sliding block reset spring is connected with the sliding limiting groove 1-25 and is limited at one end of the sliding limiting block 1-24 in the sliding limiting groove 1-25, the upper end of a square box 1-27 is connected with an equipment installation box 1-1, the lower end of the square box is connected with a special-shaped pipe 1-28, the special-shaped pipe 1-28 is connected with a disinfection spray head 1-29, equipment can convey sickbeds and patients on the sickbeds to an operating room, the sickbeds 1-4 are placed on a conveying belt 1-11, a motor a1-8 works, a motor a1-8 works to drive a motor shaft a1-9 to rotate, the motor shaft a1-9 rotates to drive a connecting shaft a1-12 to rotate through a belt a1-10, under the action of the two connecting shafts a1-12 and the connecting shaft b1-13, the conveyor belts 1-11 have the function of conveyor belts, the hinged doors a1-2 on the equipment installation box 1-1 are opened, and the conveyor belts 1-11 can convey the hospital beds 1-4 into the equipment installation box 1-1.
The third concrete implementation mode:
the following describes the present embodiment with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19, fig. 20, fig. 21, fig. 22, fig. 23, fig. 24, fig. 25, and fig. 26, and the present embodiment further describes the first embodiment, in which the hospital bed disinfection mechanism 2 includes a mounting plate a, a mounting plate b2-2, a reset support column 2-3, a reset spring 2-4, a mounting plate c2-5, a micro friction wheel 2-6, a first belt 2-7, a first connecting shaft 2-8, a friction wheel a2-9, a friction wheel b2-10, a second belt 2-11, a second belt 2-12, a friction wheel c2-13, a third belt 2-14, a third connecting shaft 2-15, a connecting shaft 2-9, The device comprises four connecting shafts 2-16, propellers 2-17, mounting plates c2-18, sealing plates 2-19, microporous plates 2-20, connecting rings 2-21, springs 2-22, mounting plates d2-23, switching blocks 2-24, input plates 2-25 and disinfectant tanks 2-26, wherein the mounting plate a is connected with the mounting plate b2-2, the mounting plate a is connected with the connecting plate a1-7 in a sliding mode, the mounting plate a is connected with the conveyor belts 1-11 in a friction mode, the mounting plate b2-2 is connected with the reset support column 2-3, the reset support column 2-3 is connected with the mounting plate c2-5 in a sliding mode, the reset support column 2-3 is connected with a micro friction wheel 2-6 bearing, the reset support column 2-3 is connected with the connecting plate a1-7 in a sliding mode, the reset springs 2-4 are sleeved on the reset support column 2-3 and limited by the mounting plates b2-2 and the mounting plate c 25, a mounting plate c2-5 is connected with a connecting plate a1-7, one end of a belt I2-7 is in friction connection with a connecting shaft I2-8, the other end of the belt I2-7 is in friction connection with a connecting shaft a1-12, the connecting shaft I2-8 is connected with a friction wheel a2-9, the connecting shaft I2-8 is in bearing connection with a connecting plate a1-7, a friction wheel b2-10 is connected with a connecting shaft II 2-12, the belt II 2-11 is in friction connection with a friction wheel c2-13, two connecting shaft II 2-12 are in bearing connection with a connecting plate a1-7, a friction wheel c2-13 is connected with a connecting shaft III 2-14, the connecting shaft III 2-14 is in friction connection with a belt III 2-15, the connecting shaft III 2-14 is in bearing connection with an equipment mounting box 1-1, the third belt 2-15 is in frictional connection with the fourth connecting shaft 2-16, the fourth connecting shaft 2-16 is connected with the propeller 2-17, the fourth connecting shaft 2-16 is connected with the disinfection liquid tank 2-26 through a bearing, the mounting plate c2-18 is connected with the micropore plate 2-20, the mounting plate c2-18 is connected with the switching block 2-24, the sealing plate 2-19 is connected with the micropore plate 2-20, the micropore plate 2-20 is connected with the connecting ring 2-21, the micropore plate 2-20 is in sliding connection with the equipment installation box 1-1, the connecting ring 2-21 is connected with the mounting plate d2-23, the connecting ring 2-21 is in sliding connection with the equipment installation box 1-1, the spring 2-22 is sleeved on the connecting ring 2-21 and is limited with the equipment installation box 1-1 and the mounting plate d2-23, the switching block 2-24 is connected with the groove on the equipment installation box 1-1 in a sliding way, the input plate 2-25 is connected with the disinfectant liquid groove 2-26, the input plate 2-25 is connected with the equipment installation box 1-1, the disinfectant liquid groove 2-26 is connected with the equipment installation box 1-1, the equipment can disinfect the sickbed and the patient when the sickbed and the patient on the sickbed are conveyed, when the sickbed 1-4 is conveyed to the position of the linkage groove 1-6, the sickbed 1-4 and the patient press the conveyor belt 1-11, the conveyor belt 1-11 presses the mounting plate b2-2 through the mounting plate a, the mounting plate b2-2 drives the micro friction wheel 2-6 downwards through the reset support column 2-3, when the micro friction wheel 2-6 moves downwards to be contacted with the friction wheel a2-9 and the friction wheel b2-10, the motor a1-8 works, the connecting shaft a1-12 is in a rotating state, the connecting shaft a1-12 rotates to drive the connecting shaft I2-8 to rotate through the belt I2-7, the connecting shaft I2-8 rotates to drive the micro-motion friction wheel 2-6 to rotate through the friction wheel a2-9, the micro-motion friction wheel 2-6 rotates to drive the friction wheel b2-10 to rotate, the friction wheel b2-10 rotates to drive the connecting shaft II 2-12 to rotate through the belt II 2-11, the friction wheel c2-13 is also driven to rotate when the belt II 2-11 moves, the friction wheel c2-13 rotates to drive the connecting shaft III 2-14 to rotate, the connecting shaft III 2-14 rotates to drive the connecting shaft IV 2-16 to rotate through the belt III 2-15, the connecting shaft IV 2-16 rotates to drive the propeller 2-17 to rotate, the propeller 2-17 can blow air downwards to press the mounting plate c2-18, the sealing plate 2-19 and the micropore plate 2-20 when rotating, the mounting plate c2-18 drives the switching block 2-24 to move downwards when moving downwards, when the hole on the switching block 2-24 is not overlapped with the hole on the input plate 2-25, the disinfectant at two ends of the disinfectant tank 2-26 blocked by the input plate 2-25 is not communicated, when the micropore plate 2-20 moves, the connecting ring 2-21 is also driven to move downwards under the limit of the equipment mounting box 1-1, the micropore plate 2-20 can automatically reset under the action of the spring 2-22, when the mounting plate c2-18 moves to contact with the upper end of the equipment mounting box 1-1, the disinfectant in a smaller cavity formed by the input plate 2-25 and the disinfectant tank 2-26 leaks into the lower side box through the micropores on the micropore plate 2-20, the upper end of an equipment installation box 1-1 is connected with a square box 2-27 on the lower side, disinfectant in the square box 2-27 enters a special-shaped pipe 3-28 through a hole on the square box 2-27, the disinfectant in the special-shaped pipe 2-28 is sprayed out through a disinfection spray head 2-29 to disinfect a sickbed 1-4 and a patient passing by, when the sickbed 1-4 moves towards the center of the equipment and is contacted with a pressure bearing plate 1-14, a motor a1-8 continues to work, the pressure bearing plate 1-14 is pressed, the pressure bearing plate 1-14 can automatically reset under the action of a pressing spring 1-16, the pressure bearing plate 1-14 also drives a linkage friction plate 1-18 to move when moving, the linkage friction plate 1-18 moves to drive a linkage friction wheel a1-19 to rotate, the linkage friction wheel a1-19 rotates to drive a rotary connecting shaft d1-22 through a connecting shaft c1-20 and a belt b1-21 When the connecting shaft d1-22 rotates, the linkage friction wheel b1-23 rotates, the linkage friction wheel b1-23 transmits the sliding limiting blocks 1-24 to the center of the equipment when rotating, the sliding limiting blocks 1-24 can automatically reset under the action of the sliding limiting grooves 1-25 and the sliding block return springs 1-26, the limiting blocks 1-24 can limit the supporting columns at the lower ends of the sickbeds 1-4 when moving to the center of the equipment, and the disinfected sickbeds 1-4 are limited in relative positions.
The fourth concrete implementation mode:
the present embodiment will be further described with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19, fig. 20, fig. 21, fig. 22, fig. 23, fig. 24, fig. 25, and fig. 26, and the present embodiment is directed to a first embodiment, in which the disinfecting linkage mechanism 3 includes a motor b3-1, a motor shaft b3-2, a belt c3-3, a transmission shaft a3-4, a micro sliding groove 3-5, a friction wheel d3-6, a rotating disk 3-7, a rotating disk dust-proof soft plate 3-8, a support column 3-9, a micro spring 3-10, a friction wheel e3-11, a transmission shaft b3-12, a helical gear a3-13, a helical gear b3-14, a transmission shaft c3-15, Friction wheel f3-16, belt d3-17, transmission shaft d3-18, friction wheel g3-19, transmission shaft e3-20, belt e3-21, transmission shaft f3-22, friction wheel h3-23, transmission shaft g3-24, thrust propeller a3-25, special-shaped pipe a3-26, special-shaped pipe 3-27, special-shaped pipe connecting nozzle 3-28, belt f3-29, transmission shaft h3-30, thrust propeller b3-31, blowing output pipe 3-32, output sliding pipe 3-33, output return spring 3-34, connecting plate I3-35, connecting plate II 3-36, connecting plate III 3-37, connecting plate IV 3-38, transmission shaft i3-39, reciprocating output return spring 3-40, shielding plate a3-41, water pipe elbow 3-42, and water pipe T3-36, 3-43 parts of a reciprocating water pipe, 3-44 parts of a reciprocating nozzle, 3-45 parts of a baffle plate b, 3-46 parts of a connecting plate, a motor b3-1 part is connected with a motor shaft b3-2 part, a motor b3-1 part is connected with a connecting plate a1-7 part, a motor shaft b3-2 part is in friction connection with a belt c3-3 part, a belt c3-3 part is in friction connection with a transmission shaft a3-4 part, a transmission shaft a3-4 part is connected with a friction wheel d3-6 part, a transmission shaft a3-4 part is in bearing connection with a supporting column 3-9 part, a transmission shaft a3-4 part is in bearing connection with a connecting plate a1-7 part, a micro-sliding groove 3-5 part is arranged on a connecting plate a1-7 part, a friction wheel d3-6 part is in friction connection with a transmission shaft b3-12 part, a rotating disc 3-7 part is connected with a dust-8 part of a rotating disc dust-proof soft plate, a rotating disc 3-7 part is connected with a supporting column 3-9 part, the rotating disc 3-7 is in clearance fit with the connecting plate a1-7, the micro-motion spring 3-10 is sleeved on the supporting column 3-9 and is limited to be connected with the rotating disc 3-7 and the transmission shaft a3-4, the friction wheel e3-11 is connected with the transmission shaft b3-12, the transmission shaft b3-12 is connected with the bevel gear a3-13, the transmission shaft b3-12 is in bearing connection with the connecting plate a1-7, the bevel gear a3-13 is meshed with the bevel gear b3-14, the bevel gear b3-14 is connected with the transmission shaft c3-15, the transmission shaft c3-15 is connected with the friction wheel f3-16, the transmission shaft c3-15 is in bearing connection with the equipment mounting plate 1-5, one end of the belt d3-17 is in friction connection with the transmission shaft b3-12, the other end of the belt d3-18 is in friction connection with the transmission shaft d3-17 is in friction connection with the friction wheel g3-19, a transmission shaft d3-18 is connected with a connecting plate a1-7, a friction wheel g3-19 is connected with a transmission shaft e3-20, a transmission shaft e3-20 is in friction connection with a belt e3-21, the transmission shaft e3-20 is in bearing connection with an equipment mounting box 1-1, the transmission shaft e3-20 is in bearing connection with an equipment mounting plate 1-5, the belt e3-21 is in friction connection with a transmission shaft f3-22, the belt e3-21 is in friction connection with a friction wheel h3-23, the transmission shaft f3-22 is in bearing connection with the equipment mounting box 1-1, the friction wheel h3-23 is in connection with a transmission shaft g3-24, the transmission shaft g3-24 is in connection with a thrust propeller a3-25, the transmission shaft g3-24 is in bearing connection with a disinfectant tank 2-26, one end of a special-shaped pipe a3-26 is in connection with an upper hole of the disinfectant tank 2-26, and the other end of the special-shaped pipe a special-shaped pipe 3-27 is connected with the equipment mounting box 1-1 through a hole Connecting and communicating, connecting the special pipe 3-27 with the special pipe connecting nozzle 3-28, connecting the special pipe 3-27 with the equipment mounting plate 1-5, connecting one end of the belt f3-29 with the transmission shaft f3-22 friction connection and the other end with the transmission shaft h3-30 friction connection, connecting the transmission shaft h3-30 with the thrust propeller b3-31, connecting the transmission shaft h3-30 with the disinfection liquid tank 2-26 bearing, connecting the blowing output pipe 3-32 with the output sliding pipe 3-33 slide connection, connecting the output sliding pipe 3-33 with the connecting plate three 3-37, connecting the output sliding pipe 3-33 with the equipment mounting plate 1-5, connecting one end of the output reset spring 3-34 with the blowing output pipe 3-32 and the other end with the connecting plate three 3-37, connecting plate one 3-35 with the connecting plate two 3-36, the first connecting plate 3-35 is connected with the third connecting plate 3-37, the first connecting plate 3-35 is connected with the equipment mounting plate 1-5, the second connecting plate 3-36 is connected with the fourth connecting plate 3-38, the second connecting plate 3-36 is connected with the baffle plate a3-41 in a sliding manner, the third connecting plate 3-37 is connected with the water pipe elbow 3-42 in a sliding manner, the third connecting plate 3-37 is connected with the baffle plate b3-45 in a sliding manner, the third connecting plate 3-37 is connected with the fifth connecting plate 3-46 in a sliding manner, one end of the transmission shaft i3-39 is connected with the fourth connecting plate 3-38 in a sliding manner, the other end of the transmission shaft i3-39 is connected with the first connecting plate 3-35, the fourth connecting plate 3-38 is connected with the baffle plate a3-41, the reciprocating output return spring 3-40 is sleeved on the transmission shaft i3-39 and limited on the first connecting plate 3-35 and the fourth connecting plate 3-38, the shielding plate a3-41 is connected with the connecting plate five 3-46, one end of the water pipe elbow 3-42 is connected and communicated with the reciprocating water pipe 3-43, the other end of the water pipe elbow is connected with the hole on the connecting plate five 3-46, the reciprocating water pipe 3-43 is connected with the reciprocating nozzle 3-44, the shielding plate b3-45 is connected with the connecting plate five 3-46, the upper side of the connecting plate five 3-46 is connected with the connecting plate two 3-36 in a sliding way, the lower side of the connecting plate three 3-37 in a sliding way, the device can rotate a doctor standing on the rotating disk, the device can disinfect the doctor in rotation, the device can disinfect an operating room, the hinged door b1-3 on the device installation box 1-1 is opened, the doctor stands on the rotating disk 3-7, the rotating disk 3-7 is pressed to slide downwards, the rotating disk 3-7 presses the supporting column 3-9, when a support column 3-9 drives a transmission shaft a3-4 and a friction wheel d3-6 to move downwards, the friction wheel d3-6 moves to be in contact with two friction wheels e3-11, the friction wheel d3-6 moves to the limit position, a motor b3-1 works, the motor b3-1 works to drive a motor shaft b3-2 to rotate, the motor shaft b3-2 rotates to drive a transmission shaft a3-4 to rotate through a belt c3-3, the transmission shaft a3-4 drives a friction wheel d3-6 to rotate, the friction wheel d3-6 rotates to drive a friction wheel e3-11 to rotate, the friction wheel e3-11 rotates to drive a helical gear a3-13 to rotate through a transmission shaft b3-12, the helical gear a3-13 rotates to drive a helical gear b3-14 to rotate, the helical gear b3-14 rotates to drive a friction wheel f3-16 to rotate through a transmission shaft c3-15, the friction wheel f3-16 rotates to drive the rotating disc 3-7 to slide downwards, the rotating disc 3-7 rotates to drive a doctor on the rotating disc 3-7 to rotate, the other friction wheel e3-11 rotates to drive the other transmission shaft b3-12 to rotate, the transmission shaft b3-12 rotates to drive the transmission shaft d3-18 to rotate through the belt d3-17, the friction wheel g3-19 rotates when the belt d3-17 moves, the friction wheel g3-19 rotates to drive the transmission shaft e3-20 to rotate, the transmission shaft e3-20 rotates to drive the transmission shaft f3-22 to rotate through the belt e3-21, the belt e3-21 rotates to drive the friction wheel h3-23 to rotate, the friction wheel h3-23 rotates to drive the disinfectant solution tank a3-25 to rotate through the transmission shaft g3-24, and the disinfectant solution tank a3-25 rotates to blow disinfectant solution in the disinfectant tank 2-26 to the special-26 through the special-3-26 The disinfectant in the special pipe a3-26 can be disinfected by a doctor in rotation through the special pipe 3-27 and a spray head 3-28 connected with the special pipe, the transmission shaft f3-22 rotates and drives the transmission shaft h3-30 to rotate through a belt f3-29, the transmission shaft h3-30 rotates and drives a thrust propeller b3-31 to rotate, the thrust propeller b3-31 rotates and blows the disinfectant into a blowing output pipe 3-32, the blowing output pipe 3-32 is blown downwards, the blowing output pipe 3-32 slides downwards under the limitation of an output sliding pipe 3-33, the blowing output pipe 3-32 can automatically reset under the action of an output reset spring 3-34, when the blowing output pipe 3-32 moves downwards until holes on the blowing output pipe 3-32 are not shielded by the output sliding pipe 3-33 any more, the disinfectant is discharged to the space formed by the connecting plates II 3-36, the connecting plates III 3-37 and the connecting plates V3-46 by blowing the holes on the output pipes 3-32, when the space is filled with the liquid, the two connecting plates five 3-46 slide to the two sides of the equipment, the connecting plates five 3-46 move and simultaneously drive the reciprocating water pipes 3-43 and the reciprocating spray heads 3-44 to move through the water pipe elbows 3-42, the disinfectant is simultaneously discharged to the water pipe elbows 3-42, the reciprocating water pipes 3-43 and the reciprocating spray heads 3-44, since the drain holes in the reciprocating sprinklers 3-44 are small enough not to release the downward pressure exerted by the thrust propellers b3-31, the pressure not released will push the connecting plates five 3-46 and the reciprocating nozzle 3-44 will sterilize the space in the operating room when moving.
The working principle of the device is as follows: the equipment can convey sickbeds and patients on the sickbeds to an operating room, the sickbeds 1-4 are placed on the conveyor belts 1-11, the motor a1-8 works, the motor a1-8 works to drive the motor shaft a1-9 to rotate, the motor shaft a1-9 rotates to drive one connecting shaft a1-12 to rotate through the belt a1-10, under the action of the two connecting shafts a1-12 and the connecting shaft b1-13, the conveyor belts 1-11 have the function of the conveyor belts, the hinged door a1-2 on the equipment installation box 1-1 is opened, the conveyor belts 1-11 can convey the sickbeds 1-4 into the equipment installation box 1-1, the equipment can disinfect the sickbeds and the patients when conveying the sickbeds and the patients on the sickbeds, when the sickbeds 1-4 are conveyed to the positions of the linkage grooves 1-6, sickbed 1-4 and patient press the transmission belt 1-11, the transmission belt 1-11 presses the mounting plate b2-2 through the mounting plate a, the mounting plate b2-2 drives the micro friction wheel 2-6 downwards through the reset support column 2-3, when the micro friction wheel 2-6 moves downwards to be contacted with the friction wheel a2-9 and the friction wheel b2-10, the motor a1-8 works, the connecting shaft a1-12 is in a rotating state, the connecting shaft a1-12 rotates to drive the connecting shaft I2-8 to rotate through the belt I2-7, the connecting shaft I2-8 rotates to drive the micro friction wheel 2-6 to rotate through the friction wheel a2-9, the micro friction wheel 2-6 rotates to drive the friction wheel b2-10 to rotate, the friction wheel b2-10 rotates to drive the connecting shaft II 2-12 to rotate through the belt II 2-11, when the second belt 2-11 moves, the friction wheel c2-13 is also driven to rotate, the friction wheel c2-13 rotates to drive the connecting shaft three 2-14 to rotate, the connecting shaft three 2-14 rotates to drive the connecting shaft four 2-16 to rotate through the belt three 2-15, the connecting shaft four 2-16 rotates to drive the propeller 2-17 to rotate, when the propeller 2-17 rotates, air can be blown downwards to press the mounting plate c2-18, the sealing plate 2-19 and the microporous plate 2-20, when the mounting plate c2-18 moves downwards, the switching block 2-24 is driven to move downwards, when the hole movement on the switching block 2-24 is not overlapped with the hole on the input plate 2-25, the disinfectant at two ends of the disinfectant tank 2-26 blocked by the input plate 2-25 is not communicated, when the microporous plate 2-20 moves, the connecting ring 2-21 is also driven to move downwards under the limit of the equipment mounting box 1-1, the microporous plate 2-20 can automatically reset under the action of the spring 2-22, when the mounting plate c2-18 moves to contact with the upper end of the equipment mounting box 1-1, the disinfection solution in the smaller cavity formed by the input plate 2-25 and the disinfection solution tank 2-26 leaks into the square box at the lower side through the micropores on the microporous plate 2-20, the upper end of the equipment mounting box 1-1 is connected with the square box 2-27 at the lower side, the disinfection solution in the square box 2-27 enters the special-shaped tube 3-28 through the hole on the square box 2-27, the disinfection solution in the special-shaped tube 2-28 is sprayed out through the disinfection spray nozzle 2-29 to disinfect the passing sickbed 1-4 and the patient, when the sickbed 1-4 continues to move to the center of the equipment and contacts with the pressure-bearing plate 1-14, the motor a1-8 continues to work, the pressure bearing plates 1-14 are pressed, the pressure bearing plates 1-14 can automatically reset under the action of the pressing springs 1-16, the pressure bearing plates 1-14 also drive the linkage friction plates 1-18 to move when moving, the linkage friction plates 1-18 drive the linkage friction wheels a1-19 to rotate, the linkage friction wheels a1-19 rotate and drive the connecting shafts d1-22 to rotate through the connecting shafts c1-20 and the belts b1-21, the connecting shafts d1-22 rotate and drive the linkage friction wheels b1-23 to rotate, the linkage friction wheels b1-23 transmit the sliding limit blocks 1-24 to the center of the equipment when rotating, the sliding limit blocks 1-24 can automatically reset under the action of the sliding limit grooves 1-25 and the sliding block return springs 1-26, and the limit blocks 1-24 can limit the support columns at the lower ends of the sickbeds 1-4 when moving to the center of the equipment, at the moment, the disinfected hospital bed 1-4 is limited in relative position, the device can rotate a doctor standing on a rotating disk, the device can disinfect the rotating doctor, the device can disinfect an operating room, a hinged door b1-3 on the device installation box 1-1 is opened, the doctor stands on the rotating disk 3-7, the rotating disk 3-7 is pressed to slide downwards, the rotating disk 3-7 presses a supporting column 3-9, the supporting column 3-9 drives a transmission shaft a3-4 and a friction wheel d3-6 to move downwards, the friction wheel d3-6 moves to be in contact with two friction wheels e3-11, the friction wheel d3-6 moves to the limit position, a motor b3-1 works, a motor b3-1 works to drive a motor shaft b3-2 to rotate, the motor shaft b3-2 rotates to drive the transmission shaft a3-4 to rotate through a belt c3-3, the transmission shaft a3-4 drives the friction wheel d3-6 to rotate, the friction wheel d3-6 rotates to drive the friction wheel e3-11 to rotate, the friction wheel e3-11 rotates to drive the bevel gear a3-13 to rotate through the transmission shaft b3-12, the bevel gear a3-13 rotates through the bevel gear b3-14 to rotate, the bevel gear b3-14 rotates through the transmission shaft c3-15 to drive the friction wheel f3-16 to rotate, the friction wheel f3-16 rotates to drive the downward sliding rotating disk 3-7, the rotating disk 3-7 rotates to drive a doctor on the rotating disk 3-7 to rotate, the other friction wheel e3-11 rotates to drive the other transmission shaft b3-12 to rotate, the transmission shaft b3-12 rotates to drive the transmission shaft d3-18 to rotate through the belt d3-17, and the friction wheel g3-19 rotates when the belt d3-17 moves, the friction wheel g3-19 rotates to drive the transmission shaft e3-20 to rotate, the transmission shaft e3-20 rotates to drive the transmission shaft f3-22 to rotate through the belt e3-21, the belt e3-21 rotates to drive the friction wheel h3-23 to rotate, the friction wheel h3-23 rotates to drive the thrust propeller a3-25 to rotate through the transmission shaft g3-24, the thrust propeller a3-25 rotates to blow disinfectant in the disinfectant tank 2-26 into the special-shaped pipe a3-26, the disinfectant in the special-shaped pipe a3-26 is connected with the special-shaped pipe through the special-shaped pipe 3-27 and the nozzle 3-28 to sterilize for a rotating doctor, the transmission shaft h3-30 is driven to rotate through the belt f3-29 when the transmission shaft f3-22 rotates, the transmission shaft h3-30 rotates to drive the thrust propeller b3-31 to rotate, when the thrust propeller b3-31 rotates, the disinfectant is blown into the blowing output pipe 3-32, the blowing output pipe 3-32 is blown downwards, the blowing output pipe 3-32 slides downwards under the limitation of the output sliding pipe 3-33, the blowing output pipe 3-32 can automatically reset under the action of the output reset spring 3-34, when the blowing output pipe 3-32 moves downwards until the hole on the blowing output pipe 3-32 is not blocked by the output sliding pipe 3-33, the disinfectant is discharged to the connecting plate II 3-36 through the hole on the blowing output pipe 3-32, the connecting plate III 3-37 and the connecting plate V3-46 form a space, when the space is filled with the fluid, the two connecting plate V3-46 slides to the two sides of the equipment, the connecting plate V3-46 moves, and simultaneously drives the reciprocating water pipe 3-43 and the reciprocating nozzle 3-44 through the water pipe elbow 3-42 and the reciprocating nozzle 3-44 When the disinfection solution moves, the disinfection solution is discharged to the water pipe elbows 3-42, the reciprocating water pipes 3-43 and the reciprocating spray heads 3-44 at the same time, and because the water discharge holes on the reciprocating spray heads 3-44 are small and not enough to release the pressure applied downwards by the thrust propellers b3-31, the pressure which is not released pushes the connecting plates five 3-46, and the reciprocating spray heads 3-44 can disinfect the space in the operating room when moving.
It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (1)

1. The utility model provides a disinfection operating room equipment for andrology, includes sick bed conveying link gear (1), sick bed disinfection mechanism (2), disinfection link gear (3), its characterized in that: the sickbed conveying linkage mechanism (1) is connected with the sickbed disinfection mechanism (2), and the sickbed conveying linkage mechanism (1) is connected with the disinfection linkage mechanism (3);
the sickbed transmission linkage mechanism (1) comprises an equipment installation box (1-1), a hinged door a (1-2), a hinged door b (1-3), a sickbed (1-4), an equipment installation plate (1-5), a linkage groove (1-6), a connecting plate a (1-7), a motor a (1-8), a motor shaft a (1-9), a belt a (1-10), a conveyor belt (1-11), a connecting shaft a (1-12), a connecting shaft b (1-13), a pressure bearing plate (1-14), a pressure bearing shaft (1-15), a pressing spring (1-16), a supporting plate (1-17), a linkage friction plate (1-18), a linkage friction wheel a (1-19), a connecting shaft c (1-20), a belt b (1-21), A connecting shaft d (1-22), a linkage friction wheel b (1-23), a sliding limiting block (1-24), a sliding limiting groove (1-25) and a sliding block reset spring (1-26), wherein an equipment installation box (1-1) is connected with a hinged door a (1-2), the equipment installation box (1-1) is hinged with a hinged door b (1-3), the equipment installation box (1-1) is connected with an equipment installation plate (1-5), the equipment installation box (1-1) is connected with a connecting plate a (1-7), the equipment installation plate (1-5) is connected with a connecting plate a (1-7), the installation plate (1-5) is in friction connection with a conveyor belt (1-11), the equipment installation plate (1-5) is in sliding connection with a bearing plate (1-14), the equipment mounting plate (1-5) is connected with the supporting plate (1-17), the equipment mounting plate (1-5) is in bearing connection with the connecting shaft c (1-20), the equipment mounting plate (1-5) is in bearing connection with the connecting shaft d (1-22), the equipment mounting plate (1-5) is connected with the sliding limiting groove (1-25), the linkage groove (1-6) is arranged on the mounting plate (1-5), the connecting plate a (1-7) is connected with the motor a (1-8), the connecting plate a (1-7) is in bearing connection with the connecting shaft a (1-12), the connecting plate a (1-7) is connected with the connecting shaft b (1-13), the motor a (1-8) is connected with the motor shaft a (1-9), and the motor shaft a (1-9) is in friction connection with the belt a (1-10), the belt a (1-10) is in friction connection with a connecting shaft a (1-12), the conveyor belt (1-11) is in friction connection with the connecting shaft a (1-12), the conveyor belt (1-11) is in friction connection with a connecting shaft b (1-13), the pressure bearing plate (1-14) is connected with the pressure bearing shaft (1-15), the pressure bearing shaft (1-15) is in bearing connection with the supporting plate (1-17), the compression spring (1-16) is sleeved on the pressure bearing shaft (1-15) and limited on the pressure bearing plate (1-14) and the supporting plate (1-17), the linkage friction plate (1-18) is in friction connection with the linkage friction wheel a (1-19), the linkage friction wheel a (1-19) is connected with the connecting shaft c (1-20), the connecting shaft c (1-20) is in friction connection with the belt b (1-21), the belt b (1-21) is in friction connection with a connecting shaft d (1-22), the connecting shaft d (1-22) is connected with a linkage friction wheel b (1-23), the linkage friction wheel b (1-23) is in friction connection with a sliding limiting block (1-24), the sliding limiting block (1-24) is in sliding connection with a sliding limiting groove (1-25), one end of a sliding block reset spring (1-26) is connected with the sliding limiting block (1-24), the other end of the sliding block reset spring is connected with the sliding limiting groove (1-25), and the sliding block reset spring is limited at one end of the sliding limiting block (1-24) in the sliding limiting groove (1-25);
The hospital bed disinfection mechanism (2) comprises a mounting plate a, a mounting plate b (2-2), a reset support column (2-3), a reset spring (2-4), a mounting plate c (2-5), a micro-motion friction wheel (2-6), a belt I (2-7), a connecting shaft I (2-8), a friction wheel a (2-9), a friction wheel b (2-10), a belt II (2-11), a connecting shaft II (2-12), a friction wheel c (2-13), a connecting shaft III (2-14), a belt III (2-15), a connecting shaft IV (2-16), a propeller (2-17), a mounting plate c (2-18), a sealing plate (2-19), a microporous plate (2-20), a connecting ring (2-21), a spring (2-22), The disinfection device comprises a mounting plate d (2-23), switching blocks (2-24), an input plate (2-25), a disinfection liquid tank (2-26), a square box (2-27), special pipes (2-28) and disinfection nozzles (2-29), wherein the mounting plate a is connected with the mounting plate b (2-2), the mounting plate a is in sliding connection with a connecting plate a (1-7), the mounting plate a is in friction connection with a conveyor belt (1-11), the mounting plate b (2-2) is connected with a reset support column (2-3), the reset support column (2-3) is in sliding connection with a mounting plate c (2-5), the reset support column (2-3) is in bearing connection with a micro-motion friction wheel (2-6), the reset support column (2-3) is in sliding connection with the connecting plate a (1-7), and a reset spring (2-4) is sleeved on the reset support column (2-3) and limited on the mounting plate b (2-3) 2-2) and a mounting plate c (2-5), the mounting plate c (2-5) is connected with a connecting plate a (1-7), one end of a belt I (2-7) is connected with a connecting shaft I (2-8) in a friction mode, the other end of the belt I (2-7) is connected with a connecting shaft a (1-12) in a friction mode, the connecting shaft I (2-8) is connected with a friction wheel a (2-9), the connecting shaft I (2-8) is connected with a bearing of the connecting plate a (1-7), the friction wheel b (2-10) is connected with a connecting shaft II (2-12), the belt II (2-11) is connected with the connecting shaft II (2-12) in a friction mode, the belt II (2-11) is connected with a friction wheel c (2-13) in a friction mode, and the two connecting shafts II (2-12) are connected with a bearing of the connecting plate a (1-7), the friction wheel c (2-13) is connected with the connecting shaft III (2-14), the connecting shaft III (2-14) is in friction connection with the belt III (2-15), the connecting shaft III (2-14) is in bearing connection with the equipment installation box (1-1), the belt III (2-15) is in friction connection with the connecting shaft IV (2-16), the connecting shaft IV (2-16) is connected with the propeller (2-17), the connecting shaft IV (2-16) is in bearing connection with the disinfection liquid tank (2-26), the mounting plate c (2-18) is connected with the micropore plate (2-20), the mounting plate c (2-18) is connected with the switching block (2-24), the sealing plate (2-19) is connected with the micropore plate (2-20), and the micropore plate (2-20) is connected with the connecting ring (2-21), the microporous plate (2-20) is connected with the equipment installation box (1-1) in a sliding way, the connecting ring (2-21) is connected with the installation plate d (2-23), the connecting ring (2-21) is connected with the equipment installation box (1-1) in a sliding way, the spring (2-22) is sleeved on the connecting ring (2-21) and is limited to be connected with the equipment installation box (1-1) and the installation plate d (2-23), the switching block (2-24) is connected with the groove on the equipment installation box (1-1) in a sliding way, the input plate (2-25) is connected with the disinfection liquid groove (2-26), the input plate (2-25) is connected with the equipment installation box (1-1), the disinfection liquid groove (2-26) is connected with the equipment installation box (1-1), the upper end of the square box (2-27) is connected with the equipment installation box (1-1), the lower end of the square box (2-27) is connected with the special-28), the special pipe (2-28) is connected with the disinfection spray head (2-29);
The disinfection linkage mechanism (3) comprises a motor b (3-1), a motor shaft b (3-2), a belt c (3-3), a transmission shaft a (3-4), a micro-motion sliding groove (3-5), a friction wheel d (3-6), a rotating disk (3-7), a rotating disk dustproof soft board (3-8), a support column (3-9), a micro-motion spring (3-10), a friction wheel e (3-11), a transmission shaft b (3-12), a helical gear a (3-13), a helical gear b (3-14), a transmission shaft c (3-15), a friction wheel f (3-16), a belt d (3-17), a transmission shaft d (3-18), a friction wheel g (3-19), a transmission shaft e (3-20), a belt e (3-21), A transmission shaft f (3-22), a friction wheel h (3-23), a transmission shaft g (3-24), a thrust propeller a (3-25), a special-shaped pipe a (3-26), a special-shaped pipe (3-27), a special-shaped pipe connecting nozzle (3-28), a belt f (3-29), a transmission shaft h (3-30), a thrust propeller b (3-31), a blowing output pipe (3-32), an output sliding pipe (3-33), an output reset spring (3-34), a connecting plate I (3-35), a connecting plate II (3-36), a connecting plate III (3-37), a connecting plate IV (3-38), a transmission shaft i (3-39), a reciprocating output reset spring (3-40), a baffle plate a (3-41), a water pipe elbow (3-42), A reciprocating water pipe (3-43), a reciprocating nozzle (3-44), a baffle plate b (3-45) and a connecting plate five (3-46), wherein a motor b (3-1) is connected with a motor shaft b (3-2), the motor b (3-1) is connected with a connecting plate a (1-7), the motor shaft b (3-2) is in friction connection with a belt c (3-3), the belt c (3-3) is in friction connection with a transmission shaft a (3-4), the transmission shaft a (3-4) is connected with a friction wheel d (3-6), the transmission shaft a (3-4) is in bearing connection with a support column (3-9), the transmission shaft a (3-4) is in bearing connection with the connecting plate a (1-7), and a micro-sliding groove (3-5) is formed in the connecting plate a (1-7), a friction wheel d (3-6) is in friction connection with a transmission shaft b (3-12), a rotating disk (3-7) is connected with a rotating disk dustproof soft plate (3-8), the rotating disk (3-7) is connected with a supporting column (3-9), the rotating disk (3-7) is in clearance fit with a connecting plate a (1-7), a micro-spring (3-10) is sleeved on the supporting column (3-9) and limited to be connected with the rotating disk (3-7) and the transmission shaft a (3-4), a friction wheel e (3-11) is connected with the transmission shaft b (3-12), the transmission shaft b (3-12) is connected with a helical gear a (3-13), the transmission shaft b (3-12) is in bearing connection with the connecting plate a (1-7), and the helical gear a (3-13) is meshed with the helical gear b (3-14), the bevel gear b (3-14) is connected with the transmission shaft c (3-15), the transmission shaft c (3-15) is connected with the friction wheel f (3-16), the transmission shaft c (3-15) is in bearing connection with the equipment mounting plate (1-5), one end of the belt d (3-17) is in friction connection with the transmission shaft b (3-12) and the other end is in friction connection with the transmission shaft d (3-18), the belt d (3-17) is in friction connection with the friction wheel g (3-19), the transmission shaft d (3-18) is connected with the connecting plate a (1-7), the friction wheel g (3-19) is connected with the transmission shaft e (3-20), the transmission shaft e (3-20) is in friction connection with the belt e (3-21), and the transmission shaft e (3-20) is in bearing connection with the equipment mounting box (1-1), a transmission shaft e (3-20) is in bearing connection with an equipment mounting plate (1-5), a belt e (3-21) is in friction connection with a transmission shaft f (3-22), the belt e (3-21) is in friction connection with a friction wheel h (3-23), the transmission shaft f (3-22) is in bearing connection with an equipment mounting box (1-1), the friction wheel h (3-23) is connected with a transmission shaft g (3-24), the transmission shaft g (3-24) is connected with a thrust propeller a (3-25), the transmission shaft g (3-24) is in bearing connection with a disinfection liquid tank (2-26), one end of a special-shaped pipe a (3-26) is connected with an upper hole of the disinfection liquid tank (2-26) and the other end passes through the equipment mounting box (1-1) to be connected and communicated with the special-shaped pipe (3-27), the special-shaped pipe (3-27) is connected with a special-shaped pipe connecting spray head (3-28), the special-shaped pipe (3-27) is connected with an equipment mounting plate (1-5), one end of a belt f (3-29) is connected with a transmission shaft f (3-22) in a friction mode, the other end of the belt f is connected with a transmission shaft h (3-30) in a friction mode, the transmission shaft h (3-30) is connected with a thrust propeller b (3-31), the transmission shaft h (3-30) is connected with a disinfection liquid groove (2-26) in a bearing mode, a blowing output pipe (3-32) is connected with an output sliding pipe (3-33) in a sliding mode, the output sliding pipe (3-33) is connected with a connecting plate III (3-37), the output sliding pipe (3-33) is connected with the equipment mounting plate (1-5), one end of an output reset spring (3-34) is connected with the blowing output pipe (3-32) and the other end of the output reset spring is connected with the connecting plate III (3-37) Connecting, connecting plate I (3-35) is connected with connecting plate II (3-36), connecting plate I (3-35) is connected with connecting plate III (3-37), connecting plate I (3-35) is connected with equipment mounting plate (1-5), connecting plate II (3-36) is connected with connecting plate IV (3-38), connecting plate II (3-36) is connected with baffle plate a (3-41) in a sliding way, connecting plate III (3-37) is connected with water pipe elbow (3-42) in a sliding way, connecting plate III (3-37) is connected with baffle plate b (3-45) in a sliding way, connecting plate III (3-37) is connected with connecting plate V (3-46) in a sliding way, one end of transmission shaft i (3-39) is connected with connecting plate IV (3-38) in a sliding way, and the other end is connected with connecting plate I (3-35), the connecting plate IV (3-38) is connected with the baffle plate A (3-41), the reciprocating output reset spring (3-40) is sleeved on the transmission shaft I (3-39) and limited on the connecting plate I (3-35) and the connecting plate IV (3-38), the baffle plate A (3-41) is connected with the connecting plate V (3-46), one end of the water pipe elbow (3-42) is connected and communicated with the reciprocating water pipe (3-43), the other end of the water pipe elbow is connected with a hole in the connecting plate V (3-46), the reciprocating water pipe (3-43) is connected with the reciprocating nozzle (3-44), the baffle plate b (3-45) is connected with the connecting plate V (3-46), the upper side of the connecting plate V (3-46) is connected with the connecting plate II (3-36) in a sliding mode, and the lower side of the connecting plate III (3-37) is connected in a sliding mode.
CN202110471043.8A 2021-04-29 2021-04-29 Sterilizing operating room equipment for andrology Active CN113171480B (en)

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