CN111420087A - Medical treatment administrative or technical offices use multi-functional disinfection door equipment - Google Patents

Medical treatment administrative or technical offices use multi-functional disinfection door equipment Download PDF

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Publication number
CN111420087A
CN111420087A CN202010260284.3A CN202010260284A CN111420087A CN 111420087 A CN111420087 A CN 111420087A CN 202010260284 A CN202010260284 A CN 202010260284A CN 111420087 A CN111420087 A CN 111420087A
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China
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mounting plate
sliding door
sliding
plate
blowing
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CN111420087B (en
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曹春艳
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Affiliated Hospital of University of Qingdao
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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

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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)
  • Power-Operated Mechanisms For Wings (AREA)

Abstract

The invention relates to a disinfection door device, in particular to a multifunctional disinfection door device for a medical department, which comprises an infrared sensing mechanism, a rotating table mechanism and a sliding door mechanism, slide spraying mechanism, linkage blowing mechanism, equipment can send the sound when the people passes through, equipment can be rotatory with the people on the revolving stage, equipment can spray the antiseptic solution for the people on the revolving stage, equipment can open the door automatically, equipment can volatilize with the antiseptic solution that does not volatilize completely on the person with higher speed, infrared ray induction mechanism is connected with revolving stage mechanism, revolving stage mechanism is connected with sliding door mechanism, sliding door mechanism is connected with slide spraying mechanism, slide spraying mechanism is connected with linkage blowing mechanism, infrared ray induction mechanism is connected with sliding door mechanism, infrared ray induction mechanism is connected with slide spraying mechanism, sliding door mechanism is connected with linkage blowing mechanism.

Description

Medical treatment administrative or technical offices use multi-functional disinfection door equipment
Technical Field
The invention relates to a disinfection door device, in particular to a multifunctional disinfection door device for a medical department.
Background
In medical departments, most patients need to hold a watering can to spray disinfectant when entering, which easily causes the spread of viruses, but the multifunctional disinfection door equipment is designed because no better disinfection door equipment is available on the market.
Disclosure of Invention
The invention mainly solves the technical problem of providing the multifunctional disinfection door equipment, the equipment can make a sound when people pass by, the equipment can rotate the people on the rotating platform, the equipment can spray disinfectant to the people on the rotating platform, the equipment can automatically open the door, and the equipment can accelerate the volatilization of the disinfectant which is not completely volatilized on the people.
The invention relates to a disinfection door device, in particular to a multifunctional disinfection door device for a medical department, which comprises an infrared sensing mechanism, a rotating table mechanism, a sliding door mechanism, a sliding spraying mechanism and a linkage blowing mechanism.
The infrared sensing mechanism is connected with the rotating table mechanism, the rotating table mechanism is connected with the sliding door mechanism, the sliding door mechanism is connected with the sliding spraying mechanism, the sliding spraying mechanism is connected with the linkage blowing mechanism, the infrared sensing mechanism is connected with the sliding door mechanism, the infrared sensing mechanism is connected with the sliding spraying mechanism, and the sliding door mechanism is connected with the linkage blowing mechanism.
As a further optimization of the technical scheme, the invention relates to a multifunctional disinfection door device for medical departments, which comprises an infrared induction power motor, an infrared induction motor shaft, a belt a, a transmission shaft a, a special-shaped belt mechanism, a transmission gear a, a transmission shaft b, a pull ring, a transmission shaft c, a high-elastic rubber belt, a transmission shaft d, a connecting plate a, a reset shaft, a reset spring, a connecting plate b, a belt b, a transmission shaft e, a transmission gear b, an infrared light sensing port, an infrared inductor, a transmission gear b limiting groove and a device mounting plate, wherein the infrared induction power motor is connected with the infrared induction motor shaft, the infrared induction motor shaft is in friction connection with the belt a, the belt a is in friction connection with the transmission shaft a, the transmission shaft a is in friction connection with the special-shaped belt mechanism, the special-shaped belt mechanism is, the transmission gear a is connected with the transmission shaft b, the transmission shaft b is in friction connection with a high-elastic rubber belt, the pulling ring is sleeved on the transmission shaft b and is connected with the reset shaft, the transmission shaft c is connected with the equipment mounting plate bearing, the high-elastic rubber belt is in friction connection with the transmission shaft a, the transmission shaft d is in friction connection with the belt b, the connecting plate a is in sliding connection with the reset shaft, the reset shaft is in sliding connection with the connecting plate b, the reset spring is sleeved on the reset shaft and is limited on the pulling ring and the connecting plate b, the connecting plate b is connected with the equipment mounting plate, the outer part of the belt b is meshed with the transmission gear a, the transmission shaft e is in friction connection with the belt b, the transmission gear b is connected with the infrared light sensing port, the infrared light sensing port is connected with the infrared light sensing instrument, the infrared light sensing instrument, the transmission shaft b is connected with the equipment mounting plate in a sliding mode, the transmission shaft d is connected with the equipment mounting plate bearing, the connecting plate a is connected with the equipment mounting plate, the transmission shaft e is connected with the equipment mounting plate bearing, the transmission gear b is connected with the equipment mounting plate in a sliding mode, and the limiting groove of the transmission gear b is connected with the equipment mounting plate; the special-shaped belt mechanism comprises an upper belt, a lower belt and a lower belt core, the upper belt is in friction connection with the lower belt core, the lower belt is in friction connection with the lower belt core, the upper belt is connected with the lower belt core, the upper belt is in friction connection with the transmission shaft a, the upper belt is in friction connection with the transmission shaft c, and the lower belt is in friction connection with the transmission gear a when moving to the position of the transmission gear a.
As a further optimization of the technical scheme, the invention relates to a multifunctional disinfection door device for medical departments, which comprises a rotary table power motor, a rotary table motor shaft, a rotary table transmission belt, a rotary table transmission shaft, a rotary table limit, a rotary table connecting plate a, a rotary table mounting plate b, a rotary table mounting plate c, a rotary table mounting plate d, a rotary table mounting plate e and an access door inclined plate, wherein the rotary table power motor is connected with the rotary table motor shaft, the rotary table motor shaft is in friction connection with the rotary table transmission belt, the rotary table transmission belt is in friction connection with the rotary table transmission shaft, the rotary table transmission shaft is connected with the rotary table, the rotary table is in limit sliding connection with the rotary table, the rotary table limit is connected with the rotary table mounting plate c, the rotary, revolving stage mounting panel c is connected with revolving stage transmission shaft bearing, and revolving stage mounting panel d is connected with revolving stage mounting panel b, and revolving stage mounting panel e is connected with revolving stage mounting panel c, and the business turn over door swash plate is connected with revolving stage mounting panel d, revolving stage and revolving stage mounting panel c sliding connection, and revolving stage mounting panel b is connected with revolving stage mounting panel c, and revolving stage mounting panel c is connected with revolving stage mounting panel d, and revolving stage mounting panel e is connected with business turn over door swash plate.
As a further optimization of the technical scheme, the invention relates to a multifunctional disinfection door device for medical departments, which comprises a sliding door power motor, a sliding door motor shaft, a sliding door transmission belt, a sliding door transmission shaft, a sliding gear, a sliding rack, a sliding door panel, an upper and lower sliding door limiting block, a sliding door transverse limiting block, a sliding door mounting plate a, a sliding door mounting plate b, a sliding door mounting plate c, a sliding door mounting plate d, a sliding door mounting plate e, an access door inclined plate, a sliding door mounting plate f, a sliding door mounting plate g, a sliding door mounting plate h and a sliding door mounting plate i, wherein the sliding door power motor is connected with the sliding door motor shaft, the sliding door motor shaft is connected with the sliding door transmission belt in a friction way, the sliding door transmission shaft is connected with the sliding gear, the upper and lower sliding gears are meshed with two sliding racks, the sliding rack is connected with the sliding door plate, the sliding door plate is connected with the upper and lower limiting blocks of the sliding door in a sliding way, the upper and lower limiting blocks of the sliding door are connected with the sliding door mounting plate f, the transverse side limiting block of the sliding door is connected with the sliding door plate, the sliding door mounting plate a is connected with the sliding door transmission shaft bearing, the sliding door mounting plate b is connected with the sliding door power motor, the sliding door mounting plate c is connected with the sliding door motor shaft bearing, the sliding door mounting plate d is connected with the sliding door mounting plate c, the sliding door mounting plate e is connected with the sliding door mounting plate c, the access door inclined plate is connected with the sliding door mounting plate d, the sliding door mounting plate f is connected with the sliding door mounting plate a, the sliding door mounting plate g is connected with the sliding door mounting plate h, the sliding door mounting plate h is connected with the sliding door mounting plate c, the sliding door plate is connected with a sliding door mounting plate f in a sliding mode, the sliding door mounting plate b is connected with the sliding door mounting plate a, the upper and lower limiting blocks of the sliding door are connected with a sliding door mounting plate g, the sliding door mounting plate a is connected with the sliding door mounting plate b, the sliding door mounting plate b is connected with the sliding door mounting plate c, the access door inclined plate is connected with the two sides of the sliding door mounting plate h, the sliding door mounting plate f is connected with the sliding door mounting plate h, and the sliding door mounting plate g is connected with the sliding door mounting plate i.
As a further optimization of the technical scheme, the invention relates to a multifunctional disinfection door device for medical departments, which comprises a sliding spraying power mechanism, a rubber spraying pipe, a water pump mechanism, a compression spring, a liquid outlet pipe, an upper disinfectant barrel cover, a disinfectant barrel, a compression plate, a spray head guide rail plate, a sliding spraying mounting plate a, a spraying mounting plate b and a spraying mounting plate c, wherein the sliding spraying power mechanism is connected with the rubber spraying pipe, the rubber spraying pipe is connected with the water pump mechanism, the water pump mechanism is connected with the spraying mounting plate c, the compression spring is sleeved on the rubber spraying pipe and is limited on the sliding spraying power mechanism and the compression plate, the liquid outlet pipe is connected with the water pump mechanism, the liquid outlet pipe is inserted into the upper disinfectant barrel cover to enter the bottom of the disinfectant barrel, the disinfectant barrel is connected with the upper disinfectant barrel cover, the rubber spraying pipe penetrates through the compression plate and is connected with, the spray head is connected with the rubber spray pipe, the spray head guide rail plate is connected with the spray head in a sliding manner, the sliding spray mounting plate a is connected with the sliding spray power mechanism, the spray mounting plate b is connected with the sliding spray mounting plate a, and the spray mounting plate c is connected with the sliding spray power mechanism; the sliding spraying power mechanism comprises a sliding spraying power motor, a sliding spraying motor shaft, a rotating disc, a disc connecting column, a rotating connecting plate and a sliding spraying motor mounting plate, the sliding spraying power motor is connected with the sliding spraying motor shaft, the sliding spraying motor shaft is connected with the rotating disc, the rotating disc is connected with the disc connecting column, the disc connecting column is connected with a rotating connecting plate bearing, the rotating connecting plate is connected with a rubber spraying pipe, and the sliding spraying motor mounting plate is connected with a sliding spraying mounting plate a; the water pump mechanism comprises a water pump, a water inlet pipe and a water outlet pipe, the water pump is connected with the water inlet pipe, the water inlet pipe is connected with the water outlet pipe, the water outlet pipe is connected with the water pump, the water pump is connected with the spraying mounting plate c, and the water outlet pipe is connected with the rubber spraying pipe.
As a further optimization of the technical scheme, the invention relates to a multifunctional disinfection door device for medical departments, which comprises an air pump, an air inlet pipe, an air inlet box, a choke plate, an air inlet mechanism, a blowing power motor, a blowing motor shaft, a blowing belt a, a blowing transmission shaft a, a blowing belt b, a blowing transmission shaft b, a fan, an air guide box, a choke switching mechanism, a blowing connection plate a, a blowing connection plate b, a blowing connection plate c and a blowing connection plate d, wherein the air pump is connected with the air inlet pipe, the air inlet pipe penetrates through the lower wall of the air inlet box and is connected with the air inlet box, the air inlet box is connected with the choke plate in a sliding manner, the choke plate is connected with the air inlet mechanism in a sliding manner, the air inlet mechanism is inserted into the blowing connection plate d, the blowing power motor is connected with the blowing motor shaft, the blowing motor, the blowing transmission shaft a is connected with the blowing belt b in a friction way, the blowing belt b is connected with the blowing transmission shaft b in a friction way, the blowing transmission shaft b is connected with the fan, the air guide box is connected with a blowing connecting plate d, the choke switching mechanism is connected with the air inlet box, the blowing connecting plate a is connected with the air pump, the blowing connecting plate b is connected with the air inlet mechanism, the blowing connecting plate c is connected with the air inlet mechanism, the blowing connecting plate d is connected with a bearing of the blowing transmission shaft a, the air inlet box is connected with the spraying mounting plate c, the choke plate is connected with the choke switching mechanism, the air inlet mechanism is connected with the spraying mounting plate c, the blowing power motor is connected with the blowing connecting plate d, the blowing motor shaft is connected with the bearing of the spraying mounting plate c, the blowing transmission shaft a is connected with the bearing of the spraying mounting plate c, the blowing connecting plate b is connected with the blowing connecting plate d, and the blowing connecting plate c is connected with the blowing connecting plate d; the air inlet mechanism comprises an air exhaust box, an air outlet, an air inlet box and an air inlet pipe, the air exhaust box is connected with the air inlet box, the air outlet is formed in the air exhaust box, the air inlet box is connected with the air exhaust box, the air inlet pipe is connected with the air inlet box, the air exhaust box is in sliding connection with a choke plate, the air inlet box is in sliding connection with the choke plate, and the air inlet pipe penetrates through a blowing connecting plate b, a blowing connecting plate c, a blowing connecting plate d and is connected with the blowing connecting plate d; the choke switching mechanism comprises a choke switching trigger block, a choke switching trigger connecting shaft, a choke switching trigger spring, a choke switching connecting plate a and a choke switching connecting plate b, the choke switching trigger block is connected with the two choke switching trigger connecting shafts, the choke switching trigger connecting shaft is in sliding connection with the choke switching connecting plate a, the choke switching trigger spring is sleeved on the choke switching trigger connecting shaft, the choke switching connecting plate a is connected with the choke switching connecting plate b, and the upper portion of the choke switching trigger block is connected with the choke plate.
As a further optimization of the technical scheme, the multifunctional disinfection door equipment for the medical department is characterized in that the rubber spray pipe is made of hard rubber with a certain bending degree, and the part of the rubber spray pipe on the spray mounting plate c is slightly longer than that in the figure.
As a further optimization of the technical scheme, the multifunctional disinfection door equipment for the medical department is characterized in that the infrared inductor makes a sound when people pass through the infrared inductor.
The multifunctional disinfection door equipment for the medical department has the beneficial effects that:
the multifunctional disinfection door equipment for the medical department can make a sound when a person passes by, can rotate the person on the rotating platform, can spray disinfectant to the person on the rotating platform, can automatically open the door, and can accelerate volatilization of the disinfectant which is not completely volatilized on the person.
Drawings
The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.
Fig. 1 is a schematic structural view of a multifunctional disinfection door device for medical departments according to the present invention.
Fig. 2 is a first structural schematic diagram of an infrared sensing mechanism 1 of the multifunctional disinfection door device for medical departments according to the present invention.
Fig. 3 is a schematic structural diagram of an infrared sensing mechanism 1 of the multifunctional disinfection door device for medical departments according to the present invention.
Fig. 4 is a third schematic structural diagram of the infrared sensing mechanism 1 of the multifunctional disinfection door device for medical departments in accordance with the present invention.
Fig. 5 is a first structural schematic diagram of a special-shaped belt mechanism 1-5 of the multifunctional disinfection door device for medical departments.
Fig. 6 is a second structural schematic diagram of the special-shaped belt mechanism 1-5 of the multifunctional disinfection door device for the medical department.
Fig. 7 is a first structural schematic view of a rotating table mechanism 2 of the multifunctional disinfection door device for medical departments in accordance with the present invention.
Fig. 8 is a second structural schematic view of the rotating table mechanism 2 of the multifunctional sterilizing door device for medical departments in accordance with the present invention.
Fig. 9 is a first structural schematic diagram of a sliding door mechanism 3 of the multifunctional disinfection door device for medical departments in accordance with the present invention.
Fig. 10 is a second structural schematic diagram of the sliding door mechanism 3 of the multifunctional disinfection door device for medical departments in accordance with the present invention.
Fig. 11 is a first structural schematic view of the sliding spraying mechanism 4 of the multifunctional disinfection door device for medical departments in accordance with the present invention.
Fig. 12 is a second schematic structural view of the sliding spraying mechanism 4 of the multifunctional disinfection door device for medical departments in accordance with the present invention.
Fig. 13 is a third schematic structural view of the sliding spraying mechanism 4 of the multifunctional disinfection door device for medical departments in accordance with the present invention.
Fig. 14 is a fourth schematic structural view of the sliding spraying mechanism 4 of the multifunctional disinfection door device for medical departments in accordance with the present invention.
Fig. 15 is a fifth schematic structural view of the sliding spraying mechanism 4 of the multifunctional disinfection door device for medical departments in accordance with the present invention.
Fig. 16 is a schematic structural view of a sliding spraying power mechanism 4-1 of the multifunctional disinfection door device for medical departments in accordance with the present invention.
Fig. 17 is a schematic structural view of a water pump mechanism 4-3 of the multifunctional sterilizing door device for medical departments in accordance with the present invention.
Fig. 18 is a first structural schematic view of the linked blowing mechanism 5 of the multifunctional disinfection door device for medical departments in accordance with the present invention.
Fig. 19 is a second structural schematic view of the linkage blowing mechanism 5 of the multifunctional disinfection door device for medical departments in accordance with the present invention.
Fig. 20 is a third schematic structural view of the linked blowing mechanism 5 of the multifunctional disinfection door device for medical departments in accordance with the present invention.
FIG. 21 is a schematic structural view of an air intake mechanism 5-5 of the multifunctional disinfection door device for medical departments in accordance with the present invention.
Fig. 22 is a schematic view showing the construction of fans 5 to 12 of the multi-functional sterilizing door apparatus for medical departments in accordance with the present invention.
Fig. 23 is a schematic structural view of a choke switching mechanism 5-14 of the multifunctional sterilizing door apparatus for medical departments according to the present invention.
In the figure: an infrared sensing mechanism 1; an infrared induction power motor 1-1; an infrared induction motor shaft 1-2; belt a 1-3; a transmission shaft a 1-4; 1-5 of a special-shaped belt mechanism; 1-5-1 of an upper belt; 1-5-2 parts of a lower belt; 1-5-3 of a lower belt core; drive gear a 1-6; a transmission shaft b 1-7; pulling the ring 1-8; a transmission shaft c 1-9; 1-10 parts of high-elastic rubber belt; a transmission shaft d 1-11; connection board a 1-12; 1-13 of a reset shaft; a return spring 1-14; connecting plate b 1-15; belts b 1-16; a drive shaft e 1-17; transfer gear b 1-18; 1-19 infrared photosensitive ports; 1-20 parts of an infrared sensor; a transmission gear b is provided with a limiting groove 1-21; equipment mounting plates 1-22; a rotating table mechanism 2; a rotary table power motor 2-1; a rotary table motor shaft 2-2; 2-3 of a rotating table transmission belt; 2-4 parts of a rotating table transmission shaft; 2-5 of a rotating platform; limiting the rotating table by 2-6; a rotary table connecting plate a 2-7; a rotating table mounting plate b 2-8; a rotating table mounting plate c 2-9; a rotating table mounting plate d 2-10; a rotating table mounting plate e 2-11; an access door sloping plate 2-12; a sliding door mechanism 3; a sliding door power motor 3-1; a sliding door motor shaft 3-2; 3-3 of a sliding door transmission belt; a sliding door transmission shaft 3-4; 3-5 of a sliding gear; 3-6 of a sliding rack; 3-7 of a sliding door plate; 3-8 of upper and lower limiting blocks of the sliding door; limiting the transverse side of the sliding door by 3-9; a sliding door mounting plate a 3-10; sliding door mounting plate b 3-11; sliding door mounting plate c 3-12; a sliding door mounting plate d 3-13; a sliding door mounting plate e 3-14; 3-15 parts of an access door sloping plate; sliding door mounting plate f 3-16; a sliding door mounting plate g 3-17; a sliding door mounting plate h 3-18; sliding door mounting plates i 3-19; a sliding spray mechanism 4; a sliding spraying power mechanism 4-1; a sliding spraying power motor 4-1-1; 4-1-2 of a sliding spraying motor shaft; 4-1-3 of a rotating disc; 4-1-4 of a disc connecting column; rotating the connecting plate 4-1-5; 4-1-6 of a sliding spraying motor mounting plate; 4-2 parts of a rubber spraying pipe; 4-3 of a water pump mechanism; 4-3-1 of a water pump; 4-3-2 of a water inlet pipe; a water outlet pipe 4-3-3; pressing the spring 4-4; 4-5 of a liquid outlet pipe; 4-6 parts of an upper cover of the disinfectant barrel; 4-7 parts of a disinfectant barrel; 4-8 parts of a compression plate; 4-9 parts of a spray head; 4-10 parts of a nozzle guide rail plate; a slide spray mounting plate a 4-11; spray mounting plate b 4-12; spray mounting plate c 4-13; a linkage blowing mechanism 5; an air pump 5-1; an air inlet pipe 5-2; 5-3 of an air inlet box; 5-4 of a choke plate; 5-5 of an air inlet mechanism; 5-5-1 of an exhaust box; 5-5-2 of an air outlet; 5-5-3 parts of an air inlet box; 5-5-4 parts of an air inlet pipe; 5-6 of a blowing power motor; 5-7 parts of a blowing motor shaft; a blowing belt a 5-8; a blowing transmission shaft a 5-9; a blowing belt b 5-10; a blowing transmission shaft b 5-11; 5-12 parts of a fan; 5-13 parts of air guide box; 5-14 parts of choke switching mechanism; a choke switching trigger block 5-14-1; the choke switching triggers the connecting shaft 5-14-2; a choke switching trigger spring 5-14-3; a choke switching connecting plate a 5-14-4; a choke switching connecting plate b 5-14-5; a blowing connecting plate a 5-15; a blowing connecting plate b 5-16; a blowing connecting plate c 5-17; and a blowing connecting plate d 5-18.
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, and fig. 23, and the present invention relates to a disinfection door apparatus, and more specifically, to a multifunctional disinfection door apparatus for a medical department, which includes an infrared ray sensing mechanism 1, a rotating table mechanism 2, a sliding door mechanism 3, a sliding spraying mechanism 4, and a linked blowing mechanism 5, and is capable of making a sound when a person passes by, rotating the person on the rotating table, spraying a disinfectant to the person on the rotating table, automatically opening the door, and accelerating volatilization of the disinfectant that is not completely volatilized on the person.
The infrared sensing mechanism 1 is connected with the rotating table mechanism 2, the rotating table mechanism 2 is connected with the sliding door mechanism 3, the sliding door mechanism 3 is connected with the sliding spraying mechanism 4, the sliding spraying mechanism 4 is connected with the linkage blowing mechanism 5, the infrared sensing mechanism 1 is connected with the sliding door mechanism 3, the infrared sensing mechanism 1 is connected with the sliding spraying mechanism 4, and the sliding door mechanism 3 is connected with the linkage blowing mechanism 5.
The second embodiment is as follows:
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, and fig. 23, wherein the infrared sensing mechanism 1 includes an infrared sensing power motor 1-1, an infrared sensing motor shaft 1-2, a belt a1-3, a transmission shaft a1-4, a profile belt mechanism 1-5, a transmission gear a1-6, a transmission shaft b1-7, a pull ring 1-8, a transmission shaft c1-9, a high-elastic rubber belt 1-10, a transmission shaft d1-11, a connecting plate a1-12, a reset shaft 1-13, a reset spring 1-14, a connecting plate b 84-15, a connecting plate b1-15, a connecting, The device comprises belts b1-16, a transmission shaft e1-17, transmission gears b1-18, infrared light sensing ports 1-19, infrared sensors 1-20, limiting grooves 1-21 of the transmission gears b, device mounting plates 1-22, an infrared sensing power motor 1-1 is connected with an infrared sensing motor shaft 1-2, the infrared sensing motor shaft 1-2 is in friction connection with the belts a1-3, the belts a1-3 are in friction connection with transmission shafts a1-4, the transmission shafts a1-4 are in friction connection with special-shaped belt mechanisms 1-5, the special-shaped belt mechanisms 1-5 are in friction connection with transmission shafts c1-9, the transmission gears a1-6 are connected with transmission shafts b1-7, the transmission shafts b1-7 are in friction connection with high-elastic rubber belts 1-10, pull rings 1-8 are sleeved on the transmission shafts b1-7 and are connected with reset shafts 1-13, a transmission shaft c1-9 is in bearing connection with an equipment mounting plate 1-22, a high-elasticity rubber belt 1-10 is in friction connection with a transmission shaft a1-4, a transmission shaft d1-11 is in friction connection with a belt b1-16, a connecting plate a1-12 is in sliding connection with a reset shaft 1-13, a reset shaft 1-13 is in sliding connection with a connecting plate b1-15, a reset spring 1-14 is sleeved on the reset shaft 1-13 and limited on a pull ring 1-8 and a connecting plate b1-15, a connecting plate b1-15 is connected with an equipment mounting plate 1-22, the outer part of the belt b1-16 is meshed with a transmission gear a1-6, a transmission shaft e1-17 is in friction connection with a belt b1-16, a transmission gear b1-18 is connected with an infrared light sensing port 1-19, an infrared light sensing port 1-19 is connected with an infrared sensor 1-, the infrared induction instrument 1-20 is connected with a transmission gear b1-18, a limiting groove 1-21 of the transmission gear b is in sliding connection with a transmission gear b1-18, an equipment mounting plate 1-22 is in bearing connection with a transmission shaft a1-4, a transmission shaft b1-7 is in sliding connection with an equipment mounting plate 1-22, a transmission shaft d1-11 is in bearing connection with an equipment mounting plate 1-22, a connecting plate a1-12 is in bearing connection with an equipment mounting plate 1-22, a transmission shaft e1-17 is in bearing connection with an equipment mounting plate 1-22, a transmission gear b1-18 is in sliding connection with an equipment mounting plate 1-22, and a limiting groove 1-21 of the transmission gear b is connected with an equipment; the special-shaped belt mechanism 1-5 comprises an upper belt 1-5-1, a lower belt 1-5-2 and a lower belt core 1-5-3, the upper belt 1-5-1 is in frictional connection with the lower belt 1-5-2, the lower belt 1-5-2 is in frictional connection with the lower belt core 1-5-3, the upper belt 1-5-1 is in frictional connection with a transmission shaft a1-4, the upper belt 1-5-1 is in frictional connection with a transmission shaft c1-9, the lower belt 1-5-2 is in frictional connection with a transmission gear a1-6 when moving to the position of the transmission gear a1-6, and the device can make a sound when a person passes by, an infrared induction power motor 1-1 rotates, the infrared induction power motor 1-1 rotates to drive an infrared induction motor shaft 1-2 to rotate, the infrared induction motor shaft 1-2 rotates and drives a transmission shaft a1-4 to rotate through a belt a1-3, the transmission shaft a1-4 rotates and drives a transmission shaft b1-7 to rotate through a high-elastic rubber belt 1-10, the transmission shaft b1-7 rotates to drive a transmission gear a1-6 to rotate, the transmission gear a1-6 rotates to drive a belt b1-16 to move upwards or downwards, the transmission gear b1-16 moves to drive a transmission gear b1-18 to move upwards or downwards, the transmission gear b1-18 moves to drive an infrared light sensing port 1-19 and an infrared induction instrument 1-20 to move upwards or downwards, and the transmission shaft a1-4 rotates to drive a transmission shaft c1 through a special-5 simultaneously -9 is rotated to enable the special-shaped belt mechanism 1-5 to do circular motion by taking the transmission shaft a1-4 and the transmission shaft c1-9 as the circle center, when the special-shaped belt mechanism 1-5 moves, the lower belt 1-5-2 is in contact with the transmission gear a1-6, the lower belt 1-5-2 moves by taking the outer part of the lower belt core 1-5-3 as a motion track, when the lower belt 1-5-2 moves to the position where the transmission gear a1-6 is in contact with the belt b1-16, the lower belt 1-5-2 enters the middle of the transmission gear a1-6 and the belt b1-16 and enables the belt b1-16 to move in the reverse direction, when the infrared inductor 1-20 reaches the upper or lower limit position, the infrared inductor 1-20 starts to move in the reverse direction, and when the infrared inductor 1-20 reciprocates up and down The light sensitive ports 1-19 sense passing people, and the infrared ray sensor 1-20 makes sound when people pass.
The third concrete implementation mode:
the present embodiment will be described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23. the present embodiment further describes the present embodiment, where the rotary table mechanism 2 includes a rotary table power motor 2-1, a rotary table motor shaft 2-2, a rotary table drive belt 2-3, a rotary table drive shaft 2-4, a rotary table 2-5, a rotary table limit 2-6, a rotary table connecting plate a2-7, a rotary table mounting plate b2-8, a rotary table mounting plate c2-9, a rotary table mounting plate d2-10, a rotary table mounting plate e2-11, an access door swash plate 2-12, the rotary table power motor 2-1 is connected to the rotary table motor shaft 2-2, a rotating table motor shaft 2-2 is in frictional connection with a rotating table transmission belt 2-3, the rotating table transmission belt 2-3 is in frictional connection with a rotating table transmission shaft 2-4, the rotating table transmission shaft 2-4 is connected with a rotating table 2-5, the rotating table 2-5 is in sliding connection with a rotating table limit 2-6, the rotating table limit 2-6 is connected with a rotating table mounting plate c2-9, a rotating table connecting plate a2-7 is connected with a rotating table mounting plate b2-8, a rotating table mounting plate b2-8 is connected with a rotating table motor shaft 2-2 bearing, a rotating table mounting plate c2-9 is connected with a rotating table transmission shaft 2-4 bearing, a rotating table mounting plate d 5-10 is connected with a rotating table mounting plate b2-8, a rotating table mounting plate e2-, the access door inclined plate 2-12 is connected with a rotating table mounting plate d2-10, the rotating table 2-5 is connected with a rotating table mounting plate c2-9 in a sliding mode, the rotating table mounting plate b2-8 is connected with a rotating table mounting plate c2-9, the rotating table mounting plate c2-9 is connected with a rotating table mounting plate d2-10, a rotating table mounting plate e2-11 is connected with the access door inclined plate 2-12, the device can rotate a person on the rotating table, a rotating table power motor 2-1 rotates, the rotating table power motor 2-1 rotates to drive a rotating table motor shaft 2-2 to rotate, the rotating table motor shaft 2-2 rotates and drives a rotating table transmission shaft 2-4 to rotate through a rotating table transmission belt 2-3, the rotating table transmission shaft 2-4 rotates to drive a rotating table 2-5 to rotate, and the person can rotate.
The fourth concrete implementation mode:
the present embodiment will be 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, and fig. 23, and the present embodiment further describes the present embodiment, in which the sliding door mechanism 3 includes a sliding door power motor 3-1, a sliding door motor shaft 3-2, a sliding door transmission belt 3-3, a sliding door transmission shaft 3-4, a sliding gear 3-5, a sliding rack 3-6, a sliding door panel 3-7, a sliding door upper and lower limit block 3-8, a sliding door lateral limit 3-9, a sliding door mounting panel a3-10, a sliding door mounting panel b3-11, a sliding door mounting panel c3-12, a sliding door mounting panel d3-13, a, A sliding door mounting plate e3-14, an entrance and exit inclined plate 3-15, a sliding door mounting plate f3-16, a sliding door mounting plate g3-17, a sliding door mounting plate h3-18 and a sliding door mounting plate i3-19, a sliding door power motor 3-1 is connected with a sliding door motor shaft 3-2, a sliding door motor shaft 3-2 is connected with a sliding door transmission belt 3-3 in a friction way, a sliding door transmission belt 3-3 is connected with a sliding door transmission shaft 3-4 in a friction way, a sliding door transmission shaft 3-4 is connected with a sliding gear 3-5, an upper sliding gear 3-5 and a lower sliding gear 3-5 are meshed with two sliding racks 3-6, a sliding rack 3-6 is connected with a sliding door plate 3-7, a sliding door plate 3-7 is connected with an upper limiting block 3-8 and a lower limiting block, the upper and lower limit blocks 3-8 of the sliding door are connected with a sliding door mounting plate f3-16, the lateral limit 3-9 of the sliding door is connected with a sliding door plate 3-7, a sliding door mounting plate a3-10 is connected with a sliding door transmission shaft 3-4 bearing, a sliding door mounting plate b3-11 is connected with a sliding door power motor 3-1, a sliding door mounting plate c3-12 is connected with a sliding door motor shaft 3-2 bearing, a sliding door mounting plate d3-13 is connected with a sliding door mounting plate c3-12, a sliding door mounting plate 483e 3-14 is connected with a sliding door mounting plate c3-12, an access door inclined plate 3-15 is connected with a sliding door mounting plate d3-13, a sliding door mounting plate f3-16 is connected with a sliding door mounting plate a3-10, a sliding door mounting plate g3-17 is connected with a sliding door mounting plate h3-18, a sliding door mounting plate h3-18 is connected with a sliding door mounting plate c3-12, a sliding door mounting plate i3-19 is connected with an access door inclined plate 3-15, a sliding door transmission shaft 3-4 is connected with a sliding door mounting plate c3-12 through a bearing, a sliding door plate 3-7 is connected with a sliding door mounting plate f3-16 in a sliding way, a sliding door mounting plate b3-11 is connected with a sliding door mounting plate a3-10, a sliding door upper and lower limiting block 3-8 is connected with a sliding door mounting plate g3-17, a sliding door mounting plate a3-10 is connected with a sliding door mounting plate b3-11, a sliding door mounting plate b3-11 is connected with a sliding door mounting plate c3-12, an access door inclined plate 3-15 is connected with two sides of a sliding door mounting plate h3-18, a sliding door mounting plate f3-16 is connected with a sliding door mounting plate h, the sliding door mounting plate g3-17 is connected to the sliding door mounting plate i 3-19.
The fifth concrete implementation mode:
the embodiment will be further described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22 and 23. the embodiment is further described, wherein the sliding spraying mechanism 4 comprises a sliding spraying power mechanism 4-1, a rubber spraying pipe 4-2, a water pump mechanism 4-3, a pressing spring 4-4, a liquid outlet pipe 4-5, a disinfectant barrel upper cover 4-6, a disinfectant barrel 4-7, a pressing plate 4-8, a spray head 4-9, a spray head guide rail plate 4-10, a sliding spraying mounting plate a4-11, a spraying mounting plate b4-12 and a spraying mounting plate c4-13, the sliding spraying power mechanism 4-1 is connected with the rubber spraying pipe 4-2, the rubber spraying pipe 4-2 is connected with the water pump mechanism 4-3, the water pump mechanism 4-3 is connected with the spraying mounting plate c4-13, the compression spring 4-4 is sleeved on the rubber spraying pipe 4-2 and limited on the sliding spraying power mechanism 4-1 and the compression plate 4-8, the liquid outlet pipe 4-5 is connected with the water pump mechanism 4-3, the liquid outlet pipe 4-5 is inserted into the upper cover 4-6 of the disinfectant barrel and enters the bottom of the disinfectant barrel 4-7, the disinfectant barrel 4-7 is connected with the upper cover 4-6 of the disinfectant barrel, the rubber spraying pipe 4-2 passes through the compression plate 4-8 and is connected with the compression plate 4-8, the spray head 4-9 is connected with the rubber spraying pipe 4-2, the guide rail plate 4-10 of the spray head is connected with the spray head 4-9 in a sliding mode, the sliding spraying mounting plate a4-11 is connected with the sliding spraying power, the spraying mounting plate b4-12 is connected with the sliding spraying mounting plate a4-11, and the spraying mounting plate c4-13 is connected with the sliding spraying power mechanism 4-1; the sliding spraying power mechanism 4-1 comprises a sliding spraying power motor 4-1-1, a sliding spraying motor shaft 4-1-2, a rotating disc 4-1-3, a disc connecting column 4-1-4, a rotating connecting plate 4-1-5 and a sliding spraying motor mounting plate 4-1-6, wherein the sliding spraying power motor 4-1-1 is connected with the sliding spraying motor shaft 4-1-2, the sliding spraying motor shaft 4-1-2 is connected with the rotating disc 4-1-3, the rotating disc 4-1-3 is connected with the disc connecting column 4-1-4, the disc connecting column 4-1-4 is connected with the rotating connecting plate 4-1-5 through a bearing, the rotating connecting plate 4-1-5 is connected with a rubber spraying pipe 4-2, the sliding spraying motor mounting plate 4-1-6 is connected with a sliding spraying mounting plate a 4-11; the water pump mechanism 4-3 comprises a water pump 4-3-1, a water inlet pipe 4-3-2 and a water outlet pipe 4-3-3, the water pump 4-3-1 is connected with the water inlet pipe 4-3-2, the water inlet pipe 4-3-2 is connected with a liquid outlet pipe 4-5, the water outlet pipe 4-3-3 is connected with the water pump 4-3-1, the water pump 4-3-1 is connected with a spraying mounting plate c4-13, the water outlet pipe 4-3-3 is connected with a rubber spraying pipe 4-2, the equipment can spray disinfectant to people on the rotating platform, the sliding spraying power motor 4-1-1 rotates clockwise, the sliding spraying power motor 4-1-1 drives the rotating disc 4-1-3 to rotate through a sliding spraying motor shaft 4-1-2, the rotating disc 4-1-3 rotates to drive the rotating connecting plate 4-1-5 to rotate through the disc connecting column 4-1-4, the rotating connecting plate 4-1-5 drives the rubber spray pipe 4-2 to move when rotating, the rubber spray pipe 4-2 enables the pressing plate 4-8 connected with the rubber spray pipe 4-2 and the spray head 4-9 to be tightly attached to the spray head guide rail plate 4-10 through the action of the pressing spring 4-4, the spray head 4-9 can move to the upper part of the rubber spray pipe 4-2 to penetrate through the rotating connecting plate 4-1-5 along with the opening of the spray head guide rail plate 4-10 when the rubber spray pipe 4-2 moves 4-2, and the spray head 4-9 can reach the guide rail plate 4-1-5 under the action of the spray head guide rail plate 4-10 when the spray power motor 4-1-1 rotates for a quarter of a stroke -10, at the other end of the opening, the sliding spraying power motor 4-1-1 rotates for a circle, the spray head 4-9 reaches a first limit position, at the moment, the sliding spraying power motor 4-1-1 rotates reversely, the spray head 4-9 reaches the limit position again, the water pump 4-3-1 works when the spray head 4-9 moves, the water pump 4-3-1 pumps the disinfectant out of the disinfectant barrel 4-7 through the liquid outlet pipe 4-5 and the water inlet pipe 4-3-2 and discharges the disinfectant out of the water outlet pipe 4-3-3, the discharged disinfectant reaches the position of the spray head 4-9 through the rubber spray pipe 4-2, the disinfectant is sprayed onto a person on the rotating platform under the action of the spray head 4-9, the device can automatically open the door, and the sliding door power motor 3-1 rotates, the power motor 3-1 of the sliding door rotates to drive the motor shaft 3-2 of the sliding door to rotate, the motor shaft 3-2 of the sliding door rotates and drives the transmission shaft 3-4 of the sliding door to rotate through the transmission belt 3-3 of the sliding door, the transmission shaft 3-4 of the sliding door rotates to drive the sliding gear 3-5 to rotate, the sliding gear 3-5 drives the sliding rack 3-6 to move towards one side, the sliding door panel 3-7 is gradually opened when the sliding rack 3-6 moves in the direction of the sliding gear 3-5, the sliding gear 3-5 drives the sliding rack 3-6 to completely open the sliding door panel 3-7 when the transmission shaft 3-4 of the sliding door rotates for a circle, and the transverse limit 3-9 of the sliding door reaches the position f3-16 of the mounting plate of the sliding door.
The sixth specific 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, and fig. 23, and the present embodiment further describes the present embodiment, where the linked blowing mechanism 5 includes an air pump 5-1, an air inlet pipe 5-2, an air inlet box 5-3, a choke plate 5-4, an air inlet mechanism 5-5, a blowing power motor 5-6, a blowing motor shaft 5-7, a blowing belt a5-8, a blowing transmission shaft a5-9, a blowing belt b5-10, a blowing transmission shaft b5-11, a fan 5-12, an air guide box 5-13, a choke switching mechanism 5-14, a blowing connection plate a5-15, a, A blowing connecting plate b5-16, a blowing connecting plate c5-17 and a blowing connecting plate d5-18, an air pump 5-1 is connected with an air inlet pipe 5-2, the air inlet pipe 5-2 passes through the lower wall of an air inlet box 5-3 and is connected with the lower wall, the air inlet box 5-3 is connected with a choke plate 5-4 in a sliding way, the choke plate 5-4 is connected with an air inlet mechanism 5-5 in a sliding way, the air inlet mechanism 5-5 is inserted into the blowing connecting plate d5-18, a blowing power motor 5-6 is connected with a blowing motor shaft 5-7, the blowing motor shaft 5-7 is connected with a blowing belt a5-8 in a friction way, the blowing belt a5-8 is connected with a blowing transmission shaft a5-9 in a friction way, the blowing transmission shaft a5-9 is connected with a blowing belt b5-10 in a friction way, the blowing belt, a blowing transmission shaft b5-11 is connected with a fan 5-12, an air guide box 5-13 is connected with a blowing connecting plate d5-18, a choke switching mechanism 5-14 is connected with an air inlet box 5-3, a blowing connecting plate a5-15 is connected with an air pump 5-1, a blowing connecting plate b5-16 is connected with an air inlet mechanism 5-5, a blowing connecting plate c5-17 is connected with an air inlet mechanism 5-5, a blowing connecting plate d5-18 is connected with a blowing transmission shaft a5-9 bearing, an air inlet box 5-3 is connected with a spraying mounting plate c4-13, a choke plate 5-4 is connected with a choke switching mechanism 5-14, an air inlet mechanism 5-5 is connected with a spraying mounting plate c4-13, a blowing power motor 5-6 is connected with a blowing connecting plate d5-18, a motor shaft 5-7 is connected with a spraying mounting plate c4-13, the blowing transmission shaft a5-9 is connected with a spraying mounting plate c4-13 through a bearing, the blowing transmission shaft b5-11 is connected with a spraying mounting plate c4-13 through a bearing, the blowing connection plate a5-15 is connected with the wind-blocking switching mechanism 5-14, the blowing connection plate b5-16 is connected with the blowing connection plate c5-17, the blowing connection plate b5-16 is connected with the blowing connection plate d5-18, and the blowing connection plate c5-17 is connected with the blowing connection plate d 5-18; the air inlet mechanism 5-5 comprises an air exhaust box 5-5-1, an air outlet 5-5-2, an air inlet box 5-5-3 and an air inlet pipe 5-5-4, the air exhaust box 5-5-1 is connected with the air inlet box 5-5-3, the air outlet 5-5-2 is arranged on the air exhaust box 5-5-1, the air inlet box 5-5-3 is connected with the air exhaust box 5-5-1, the air inlet pipe 5-5-4 is connected with the air inlet box 5-5-3, the air exhaust box 5-5-1 is connected with the choke plate 5-4 in a sliding way, the air inlet box 5-5-3 is connected with the choke plate 5-4 in a sliding way, the air inlet pipes 5-5-4 penetrate through the blowing connecting plate b5-16, the blowing connecting plate c5-17 and the blowing connecting plate d5-18 and are connected with the blowing connecting plate d 5-18; the choke switching mechanism 5-14 comprises a choke switching trigger block 5-14-1, a choke switching trigger connecting shaft 5-14-2, a choke switching trigger spring 5-14-3, a choke switching connecting plate a5-14-4 and a choke switching connecting plate b5-14-5, wherein the choke switching trigger block 5-14-1 is connected with the two choke switching trigger connecting shafts 5-14-2, the choke switching trigger connecting shaft 5-14-2 is connected with the choke switching connecting plate a5-14-4 in a sliding manner, the choke switching trigger spring 5-14-3 is sleeved on the choke switching trigger connecting shaft 5-14-2, the choke switching connecting plate a5-14-4 is connected with the choke switching connecting plate b5-14-5, the upper part of the choke switching trigger block 5-14-1 is connected with the choke plate 5-4, the device can accelerate the volatilization of disinfectant which is not completely volatilized on a human body, the blowing power motor 5-6 rotates to drive the blowing motor shaft 5-7 to rotate, the blowing motor shaft 5-7 rotates to drive the blowing transmission shaft a5-9 to rotate through the blowing belt a5-8, the blowing transmission shaft a5-9 rotates to drive the fan 5-12 to rotate through the blowing belt b5-10, the blowing power motor 5-6 rotates forwards for a circle of reverse rotation, the fan 5-12 rotates forwards for a circle of reverse rotation through acceleration, the air circulation at the lower part of the fan 5-12 is accelerated, the disinfectant passing through the human body is accelerated to volatilize, when the sliding door mounting plate f3-16 with 3-9 phase limiting positions on the transverse side of the sliding door moves to be contacted with the wind-blocking switching trigger block 5-14-1, the choke switch trigger block 5-14-1 presses the choke switch trigger connecting shaft 5-14-2 to move towards the choke switch connecting plate a5-14-4, the choke switch trigger block 5-14-1 drives the choke plate 5-4 to move towards the choke switch connecting plate a5-14-4, when the limit 3-9 on the transverse side of the sliding door reaches the position of the sliding door mounting plate f3-16, the choke switch connecting plate a5-14-4 completely shields the air inlet square opening of the exhaust box 5-5-1, at the moment, the air pump 5-1 works to blow air into the air inlet box 5-3 through the air inlet pipe 5-2, the air in the air inlet box 5-3 is exhausted from the gaps among the air inlet box 5-5-3, the air inlet box 5-5-3 and the air inlet box 5-3 under the action of the air pump 5-1, the air entering the air inlet box 5-5-3 enters the air guide box 5-13 through the air inlet pipe 5-5-4, the fan 5-12 rotates to bring the air below the fan 5-12, so that the air outside the equipment reaches the position below the fan 5-12, and the volatilization of the disinfectant is further promoted.
The seventh embodiment:
the present embodiment will be described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22 and 23, and the present embodiment will be further explained with reference to the following description of the present embodiment, in which the rubber spray tube 4-2 is made of a rubber material having a relatively high hardness and a certain degree of bending, and the portion of the rubber spray tube 4-2 on the spray mounting plate c4-13 is actually slightly longer than that in the drawings.
The specific implementation mode is eight:
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, and fig. 23, and the present embodiment further describes the present embodiment, in which the infrared sensors 1 to 20 make a sound when a person passes through the infrared sensors 1 to 20.
The working principle of the device is as follows: the device can make a sound when a person passes by, the infrared induction power motor 1-1 rotates to drive the infrared induction motor shaft 1-2 to rotate, the infrared induction motor shaft 1-2 rotates and drives the transmission shaft a1-4 to rotate through the belt a1-3, the transmission shaft a1-4 rotates and drives the transmission shaft b1-7 to rotate through the high elastic rubber belt 1-10, the transmission shaft b1-7 drives the transmission gear a1-6 to rotate, the transmission gear a1-6 rotates to drive the belt b1-16 to move upwards or downwards, the belt b1-16 drives the transmission gear b1-18 to move upwards or downwards, the transmission gear b1-18 drives the infrared light sensing port 1-19 and the infrared inductor 1-20 to move upwards or downwards, when the transmission shaft a1-4 rotates, the transmission shaft c1-9 is driven to rotate through the special-shaped belt mechanism 1-5 at the same time, so that the special-shaped belt mechanism 1-5 moves circularly by taking the transmission shaft a1-4 and the transmission shaft c1-9 as the circle center, when the special-shaped belt mechanism 1-5 moves, the lower belt 1-5-2 moves along the motion track outside the lower belt core 1-5-3 when the lower belt 1-5-2 contacts the transmission gear a1-6, when the lower belt 1-5-2 moves to the position where the transmission gear a1-6 contacts the belt b1-16, the lower belt 1-5-2 enters the middle of the transmission gear a1-6 and the belt b1-16 and enables the belt b1-16 to move reversely, and when the infrared sensor 1-20 reaches the upper or lower limit position, the infrared sensor 1-20 starts to move reversely, when the infrared inductor 1-20 reciprocates up and down, the infrared inductor 1-20 induces passing people through the infrared sensitive ports 1-19, when people pass through the infrared inductor 1-20, the equipment can make a sound, the people can rotate on the rotating platform, the rotating platform power motor 2-1 rotates to drive the rotating platform motor shaft 2-2 to rotate, the rotating platform motor shaft 2-2 rotates and drives the rotating platform transmission shaft 2-4 to rotate through the rotating platform transmission belt 2-3, the rotating platform transmission shaft 2-4 rotates to drive the rotating platform 2-5 to rotate, when people stand on the rotating platform 2-5, the people can rotate, the equipment can spray disinfectant to the people on the rotating platform, the sliding spraying power motor 4-1-1 rotates clockwise, a sliding spraying power motor 4-1-1 drives a rotating disc 4-1-3 to rotate through a sliding spraying motor shaft 4-1-2, the rotating disc 4-1-3 rotates to drive a rotating connecting plate 4-1-5 to rotate through a disc connecting column 4-1-4, the rotating connecting plate 4-1-5 drives a rubber spraying pipe 4-2 to move when rotating, the rubber spraying pipe 4-2 enables a pressing plate 4-8 connected with the rubber spraying pipe 4-2 and a spray head 4-9 to be tightly attached to a spray head guide rail plate 4-10 through the action of a pressing spring 4-4, the spray head 4-9 is attached to an opening of the spray head guide rail plate 4-10 when the rubber spraying pipe 4-2 moves, the upper part of the rubber spraying pipe 4-2 penetrates through the rotating connecting plate 4-1-5, when the spraying power motor 4-1-1 rotates a quarter of a stroke, the rubber spraying pipe 4-2 enables the nozzle 4-9 to reach the other end of the opening of the guide rail plate 4-10 under the action of the nozzle guide rail plate 4-10, the sliding spraying power motor 4-1-1 rotates a circle, the nozzle 4-9 reaches a limit position, the sliding spraying power motor 4-1-1 rotates reversely, the nozzle 4-9 reaches the limit position again, the water pump 4-3-1 works when the nozzle 4-9 moves, the water pump 4-3-1 pumps disinfectant out of the disinfectant barrel 4-7 through the liquid outlet pipe 4-5 and the water inlet pipe 4-3-2 and discharges the disinfectant from the water outlet pipe 4-3-3, the discharged disinfectant reaches the nozzle 4-9 through the rubber spraying pipe 4-2, the spraying device is sprayed on a person on a rotating platform under the action of a spray head 4-9, the device can automatically open a door, a sliding door power motor 3-1 rotates, the sliding door power motor 3-1 rotates to drive a sliding door motor shaft 3-2 to rotate, the sliding door motor shaft 3-2 rotates and drives a sliding door transmission shaft 3-4 to rotate through a sliding door transmission belt 3-3, the sliding door transmission shaft 3-4 rotates to drive a sliding gear 3-5 to rotate, the sliding gear 3-5 drives a sliding rack 3-6 to move towards one side when rotating, the sliding door 3-7 is gradually opened when the sliding rack 3-6 moves towards the sliding gear 3-5, the sliding gear 3-5 drives the sliding rack 3-6 to completely open the sliding door 3-7 when the sliding door transmission shaft 3-4 rotates for a circle, the transverse limit 3-9 of the sliding door reaches the position f3-16 of the sliding door, the device can accelerate the volatilization of disinfectant which is not completely volatilized on a human body, the blowing power motor 5-6 rotates to drive the blowing motor shaft 5-7 to rotate, the blowing motor shaft 5-7 rotates to drive the blowing transmission shaft a5-9 to rotate through the blowing belt a5-8, the blowing transmission shaft a5-9 rotates to drive the fan 5-12 to rotate through the blowing belt b5-10, the blowing power motor 5-6 rotates forwards for a circle in a reverse direction, the fan 5-12 rotates forwards for a circle in a reverse direction in an acceleration manner, the air circulation at the lower part of the fan 5-12 is accelerated, the disinfectant passing through the human body is accelerated to volatilize at the moment, and when the transverse limit 3-9 of the sliding door moves to the sliding door mounting plate f3-16 to move to the position which is in contact with When the air pump 1 is contacted, the choke switching trigger block 5-14-1 presses the choke switching trigger connecting shaft 5-14-2 to move towards the choke switching connecting plate a5-14-4, the choke switching trigger block 5-14-1 drives the choke plate 5-4 to move towards the choke switching connecting plate a5-14-4, when the transverse limit 3-9 of the sliding door reaches the position of a sliding door mounting plate f3-16, the choke switching connecting plate a5-14-4 completely shields the air inlet square opening of the air exhaust box 5-5-1, the air pump 5-1 works to blow air into the air exhaust box 5-3 through an air inlet pipe 5-2, the air in the air inlet box 5-3 is exhausted from gaps among the air inlet box 5-5-3, the air inlet box 5-5-3 and the air inlet box 5-3 respectively under the action of the air pump 5-1, the air entering the air inlet box 5-5-3 enters the air guide box 5-13 through the air inlet pipe 5-5-4, the fan 5-12 rotates to bring the air below the fan 5-12, so that the air outside the equipment reaches the position below the fan 5-12, and the volatilization of the disinfectant is further promoted.
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 (8)

1. The utility model provides a medical treatment administrative or technical offices use multi-functional disinfection door equipment, includes infrared ray induction mechanism (1), revolving stage mechanism (2), sliding door mechanism (3), slip sprinkler structure (4), linkage blast mechanism (5), its characterized in that: infrared ray induction mechanism (1) be connected with revolving stage mechanism (2), revolving stage mechanism (2) are connected with sliding door mechanism (3), sliding door mechanism (3) are connected with sliding spraying mechanism (4), sliding spraying mechanism (4) are connected with linkage blowing mechanism (5), infrared ray induction mechanism (1) is connected with sliding door mechanism (3), infrared ray induction mechanism (1) is connected with sliding spraying mechanism (4), sliding door mechanism (3) are connected with linkage blowing mechanism (5).
2. The multifunctional disinfection door apparatus for medical departments of claim 1, wherein: the infrared induction mechanism (1) comprises an infrared induction power motor (1-1), an infrared induction motor shaft (1-2), a belt a (1-3), a transmission shaft a (1-4), a special-shaped belt mechanism (1-5), a transmission gear a (1-6), a transmission shaft b (1-7), a pulling ring (1-8), a transmission shaft c (1-9), a high-elastic rubber belt (1-10), a transmission shaft d (1-11), a connecting plate a (1-12), a reset shaft (1-13), a reset spring (1-14), a connecting plate b (1-15), a belt b (1-16), a transmission shaft e (1-17), a transmission gear b (1-18), an infrared light sensing port (1-19), an infrared inductor (1-20), A limiting groove (1-21) of a transmission gear b and an equipment mounting plate (1-22), an infrared induction power motor (1-1) is connected with an infrared induction motor shaft (1-2), the infrared induction motor shaft (1-2) is connected with a belt a (1-3) in a friction mode, the belt a (1-3) is connected with a transmission shaft a (1-4) in a friction mode, the transmission shaft a (1-4) is connected with a special-shaped belt mechanism (1-5) in a friction mode, the special-shaped belt mechanism (1-5) is connected with a transmission shaft c (1-9) in a friction mode, the transmission gear a (1-6) is connected with a transmission shaft b (1-7), the transmission shaft b (1-7) is connected with a high-elastic rubber belt (1-10) in a friction mode, a pull ring (1-8) is sleeved on the transmission shaft b (1-7) and is connected with a, a transmission shaft c (1-9) is in bearing connection with an equipment mounting plate (1-22), a high-elastic rubber belt (1-10) is in friction connection with a transmission shaft a (1-4), a transmission shaft d (1-11) is in friction connection with a belt b (1-16), a connecting plate a (1-12) is in sliding connection with a reset shaft (1-13), a reset shaft (1-13) is in sliding connection with a connecting plate b (1-15), a reset spring (1-14) is sleeved on the reset shaft (1-13) and limited on a pull ring (1-8) and the connecting plate b (1-15), the connecting plate b (1-15) is connected with the equipment mounting plate (1-22), the outer part of the belt b (1-16) is meshed with a transmission gear a (1-6), and a transmission shaft e (1-17) is in friction connection with the belt b (1-16), the transmission gear b (1-18) is connected with the infrared light-sensitive port (1-19), the infrared light-sensitive port (1-19) is connected with the infrared inductor (1-20), the infrared inductor (1-20) is connected with the transmission gear b (1-18), the limit groove (1-21) of the transmission gear b is connected with the transmission gear b (1-18) in a sliding way, the equipment mounting plate (1-22) is connected with the bearing of the transmission shaft a (1-4), the transmission shaft b (1-7) is connected with the equipment mounting plate (1-22) in a sliding way, the transmission shaft d (1-11) is connected with the bearing of the equipment mounting plate (1-22), the connecting plate a (1-12) is connected with the equipment mounting plate (1-22), the transmission shaft e (1-17) is connected with the bearing of the equipment mounting plate (1-22), the transmission gear b (1-18) is connected with the equipment mounting plate (1-22) in a sliding way, and the limit groove (1-21) of the transmission gear b is connected with the equipment mounting plate (1-22); the special-shaped belt mechanism (1-5) comprises an upper belt (1-5-1) and a lower belt (1-5-2), the belt comprises a lower belt core (1-5-3), an upper belt (1-5-1) and a lower belt (1-5-2) are in friction connection, the lower belt (1-5-2) and the lower belt core (1-5-3) are in friction connection, the upper belt (1-5-1) and the lower belt core (1-5-3) are connected, the upper belt (1-5-1) and a transmission shaft a (1-4) are in friction connection, the upper belt (1-5-1) and a transmission shaft c (1-9) are in friction connection, and the lower belt (1-5-2) and the transmission gear a (1-6) are in friction connection when moving to the position of the transmission gear a (1-6).
3. The multifunctional disinfection door apparatus for medical departments of claim 1, wherein: the rotary table mechanism (2) comprises a rotary table power motor (2-1), a rotary table motor shaft (2-2), a rotary table transmission belt (2-3), a rotary table transmission shaft (2-4), a rotary table (2-5), a rotary table limit (2-6), a rotary table connecting plate a (2-7), a rotary table mounting plate b (2-8), a rotary table mounting plate c (2-9), a rotary table mounting plate d (2-10), a rotary table mounting plate e (2-11) and an access door inclined plate (2-12), the rotary table power motor (2-1) is connected with the rotary table motor shaft (2-2), the rotary table motor shaft (2-2) is in friction connection with the rotary table transmission belt (2-3), and the rotary table transmission belt (2-3) is in friction connection with the rotary table transmission shaft (2-4), a rotating table transmission shaft (2-4) is connected with a rotating table (2-5), the rotating table (2-5) is connected with a rotating table limit (2-6) in a sliding way, the rotating table limit (2-6) is connected with a rotating table mounting plate c (2-9), a rotating table connecting plate a (2-7) is connected with a rotating table mounting plate b (2-8), the rotating table mounting plate b (2-8) is connected with a rotating table motor shaft (2-2) bearing, the rotating table mounting plate c (2-9) is connected with a rotating table transmission shaft (2-4) bearing, a rotating table mounting plate d (2-10) is connected with a rotating table mounting plate b (2-8), a rotating table mounting plate e (2-11) is connected with the rotating table mounting plate c (2-9), an access door inclined plate (2-12) is connected with a rotating table mounting plate d (, the rotary table (2-5) is connected with a rotary table mounting plate c (2-9) in a sliding mode, the rotary table mounting plate b (2-8) is connected with the rotary table mounting plate c (2-9), the rotary table mounting plate c (2-9) is connected with a rotary table mounting plate d (2-10), and the rotary table mounting plate e (2-11) is connected with an access door inclined plate (2-12).
4. The multifunctional disinfection door apparatus for medical departments of claim 1, wherein: the sliding door mechanism (3) comprises a sliding door power motor (3-1), a sliding door motor shaft (3-2), a sliding door transmission belt (3-3), a sliding door transmission shaft (3-4), a sliding gear (3-5), a sliding rack (3-6), a sliding door panel (3-7), an upper sliding door limiting block and a lower sliding door limiting block (3-8), a sliding door transverse side limiting block (3-9), a sliding door mounting plate a (3-10), a sliding door mounting plate b (3-11), a sliding door mounting plate c (3-12), a sliding door mounting plate d (3-13), a sliding door mounting plate e (3-14), an access door inclined plate (3-15), a sliding door mounting plate f (3-16), a sliding door mounting plate g (3-17), a sliding door mounting plate h (3-18), A sliding door mounting plate i (3-19), a sliding door power motor (3-1) is connected with a sliding door motor shaft (3-2), the sliding door motor shaft (3-2) is connected with a sliding door transmission belt (3-3) in a friction way, the sliding door transmission belt (3-3) is connected with a sliding door transmission shaft (3-4) in a friction way, the sliding door transmission shaft (3-4) is connected with a sliding gear (3-5), an upper sliding gear (3-5) and a lower sliding gear (3-5) are meshed with two sliding racks (3-6), the sliding racks (3-6) are connected with a sliding door plate (3-7), the sliding door plate (3-7) is connected with an upper sliding door limiting block (3-8) and a lower sliding door limiting block (3-8) which are connected with a sliding door mounting plate f (3-16), the sliding door transverse limit (3-9) is connected with a sliding door panel (3-7), a sliding door mounting plate a (3-10) is connected with a sliding door transmission shaft (3-4) through a bearing, a sliding door mounting plate b (3-11) is connected with a sliding door power motor (3-1), a sliding door mounting plate c (3-12) is connected with a sliding door motor shaft (3-2) through a bearing, a sliding door mounting plate d (3-13) is connected with a sliding door mounting plate c (3-12), a sliding door mounting plate e (3-14) is connected with a sliding door mounting plate c (3-12), an access door inclined plate (3-15) is connected with a sliding door mounting plate d (3-13), a sliding door mounting plate f (3-16) is connected with a sliding door mounting plate a (3-10), a sliding door mounting plate g (3-17) is connected with a sliding door mounting plate h (3-18), a sliding door mounting plate h (3-18) is connected with a sliding door mounting plate c (3-12), a sliding door mounting plate i (3-19) is connected with an in-out door sloping plate (3-15), a sliding door transmission shaft (3-4) is connected with a sliding door mounting plate c (3-12) through a bearing, a sliding door panel (3-7) is connected with a sliding door mounting plate f (3-16) in a sliding way, a sliding door mounting plate b (3-11) is connected with a sliding door mounting plate a (3-10), an upper limiting block (3-8) and a lower limiting block (3-8) of the sliding door are connected with a sliding door mounting plate g (3-17), a sliding door mounting plate a (3-10) is connected with a sliding door mounting plate b (3-11), a sliding door mounting plate b (3-11) is connected with a sliding door mounting plate c (3-12), an in-out door sloping plate (3-15) is connected with two sides of the sliding, the sliding door mounting plate f (3-16) is connected with the sliding door mounting plate h (3-18), and the sliding door mounting plate g (3-17) is connected with the sliding door mounting plate i (3-19).
5. The multifunctional disinfection door apparatus for medical departments of claim 1, wherein: the sliding spraying mechanism (4) comprises a sliding spraying power mechanism (4-1), a rubber spraying pipe (4-2), a water pump mechanism (4-3), a compression spring (4-4), a liquid outlet pipe (4-5), a disinfectant barrel upper cover (4-6), a disinfectant barrel (4-7), a compression plate (4-8), a spray head (4-9), a spray head guide rail plate (4-10), a sliding spraying mounting plate a (4-11), a spraying mounting plate b (4-12) and a spraying mounting plate c (4-13), the sliding spraying power mechanism (4-1) is connected with the rubber spraying pipe (4-2), the rubber spraying pipe (4-2) is connected with the water pump mechanism (4-3), and the water pump mechanism (4-3) is connected with the spraying mounting plate c (4-13), a pressing spring (4-4) is sleeved on the rubber spraying pipe (4-2) and limited on the sliding spraying power mechanism (4-1) and a pressing plate (4-8), a liquid outlet pipe (4-5) is connected with a water pump mechanism (4-3), the liquid outlet pipe (4-5) is inserted into an upper cover (4-6) of the disinfectant barrel and enters the bottom of the disinfectant barrel (4-7), the disinfectant barrel (4-7) is connected with the upper cover (4-6) of the disinfectant barrel, the rubber spraying pipe (4-2) passes through the pressing plate (4-8) and is connected with the pressing plate (4-8), a spray head (4-9) is connected with the rubber spraying pipe (4-2), a spray head guide rail plate (4-10) is connected with the spray head (4-9) in a sliding manner, a sliding spraying mounting plate a (4-11) is connected with the sliding spraying power mechanism (4-1), the spraying mounting plate b (4-12) is connected with the sliding spraying mounting plate a (4-11), and the spraying mounting plate c (4-13) is connected with the sliding spraying power mechanism (4-1); the sliding spraying power mechanism (4-1) comprises a sliding spraying power motor (4-1-1), a sliding spraying motor shaft (4-1-2), a rotating disc (4-1-3), a disc connecting column (4-1-4), a rotating connecting plate (4-1-5) and a sliding spraying motor mounting plate (4-1-6), wherein the sliding spraying power motor (4-1-1) is connected with the sliding spraying motor shaft (4-1-2), the sliding spraying motor shaft (4-1-2) is connected with the rotating disc (4-1-3), the rotating disc (4-1-3) is connected with the disc connecting column (4-1-4), the disc connecting column (4-1-4) is connected with the rotating connecting plate (4-1-5) through a bearing, the rotary connecting plate (4-1-5) is connected with the rubber spray pipe (4-2), and the sliding spray motor mounting plate (4-1-6) is connected with the sliding spray mounting plate a (4-11); the water pump mechanism (4-3) comprises a water pump (4-3-1), a water inlet pipe (4-3-2) and a water outlet pipe (4-3-3), the water pump (4-3-1) is connected with the water inlet pipe (4-3-2), the water inlet pipe (4-3-2) is connected with the water outlet pipe (4-5), the water outlet pipe (4-3-3) is connected with the water pump (4-3-1), the water pump (4-3-1) is connected with a spraying mounting plate c (4-13), and the water outlet pipe (4-3-3) is connected with a rubber spraying pipe (4-2).
6. The multifunctional disinfection door apparatus for medical departments of claim 1, wherein: the linkage blowing mechanism (5) comprises an air pump (5-1), an air inlet pipe (5-2), an air inlet box (5-3), a choke plate (5-4), an air inlet mechanism (5-5), a blowing power motor (5-6), a blowing motor shaft (5-7), a blowing belt a (5-8), a blowing transmission shaft a (5-9), a blowing belt b (5-10), a blowing transmission shaft b (5-11), a fan (5-12), an air guide box (5-13), a choke switching mechanism (5-14), a blowing connecting plate a (5-15), a blowing connecting plate b (5-16), a blowing connecting plate c (5-17) and a blowing connecting plate d (5-18), wherein the air pump (5-1) is connected with the air inlet pipe (5-2), the air inlet pipe (5-2) penetrates through the lower wall of the air inlet box (5-3) and is connected with the lower wall, the air inlet box (5-3) is connected with the choke plate (5-4) in a sliding manner, the choke plate (5-4) is connected with the air inlet mechanism (5-5) in a sliding manner, the air inlet mechanism (5-5) is inserted into the air blowing connecting plate d (5-18), the air blowing power motor (5-6) is connected with the air blowing motor shaft (5-7), the air blowing motor shaft (5-7) is connected with the air blowing belt a (5-8) in a friction manner, the air blowing belt a (5-8) is connected with the air blowing transmission shaft a (5-9) in a friction manner, the air blowing transmission shaft a (5-9) is connected with the air blowing belt b (5-10) in a friction manner, the air blowing belt b (5-10), a blowing transmission shaft b (5-11) is connected with a fan (5-12), an air guide box (5-13) is connected with a blowing connecting plate d (5-18), a choke switching mechanism (5-14) is connected with an air inlet box (5-3), a blowing connecting plate a (5-15) is connected with an air pump (5-1), a blowing connecting plate b (5-16) is connected with an air inlet mechanism (5-5), a blowing connecting plate c (5-17) is connected with an air inlet mechanism (5-5), a blowing connecting plate d (5-18) is connected with a bearing of a blowing transmission shaft a (5-9), the air inlet box (5-3) is connected with a spraying mounting plate c (4-13), the choke plate (5-4) is connected with the choke switching mechanism (5-14), the air inlet mechanism (5-5) is connected with the spraying mounting plate c (4-13), the blowing power motor (5-6) is connected with a blowing connecting plate d (5-18), a blowing motor shaft (5-7) is in bearing connection with a spraying mounting plate c (4-13), a blowing transmission shaft a (5-9) is in bearing connection with the spraying mounting plate c (4-13), a blowing transmission shaft b (5-11) is in bearing connection with the spraying mounting plate c (4-13), a blowing connecting plate a (5-15) is connected with a wind-blocking switching mechanism (5-14), a blowing connecting plate b (5-16) is in bearing connection with a blowing connecting plate c (5-17), a blowing connecting plate b (5-16) is connected with a blowing connecting plate d (5-18), and a blowing connecting plate c (5-17) is connected with the blowing connecting plate d (5-18); the air inlet mechanism (5-5) comprises an air exhaust box (5-5-1), an air outlet (5-5-2), an air inlet box (5-5-3) and an air inlet pipe (5-5-4), the air exhaust box (5-5-1) is connected with the air inlet box (5-5-3), the air outlet (5-5-2) is arranged on the air exhaust box (5-5-1), the air inlet box (5-5-3) is connected with the air exhaust box (5-5-1), the air inlet pipe (5-5-4) is connected with the air inlet box (5-5-3), the air exhaust box (5-5-1) is connected with a wind blocking plate (5-4) in a sliding manner, the air inlet box (5-5-3) is connected with the wind blocking plate (5-4) in a sliding manner, the air inlet pipe (5-5-4) penetrates through the blowing connecting plate b (5-16), the blowing connecting plate c (5-17) and the blowing connecting plate d (5-18) and is connected with the blowing connecting plate d (5-18); the choke switching mechanism (5-14) comprises a choke switching trigger block (5-14-1), a choke switching trigger connecting shaft (5-14-2), a choke switching trigger spring (5-14-3), a choke switching connecting plate a (5-14-4) and a choke switching connecting plate b (5-14-5), wherein the choke switching trigger block (5-14-1) is connected with the two choke switching trigger connecting shafts (5-14-2), the choke switching trigger connecting shaft (5-14-2) is in sliding connection with the choke switching connecting plate a (5-14-4), the choke switching trigger spring (5-14-3) is sleeved on the choke switching trigger connecting shaft (5-14-2), the choke switching connecting plate a (5-14-4) is connected with the choke switching connecting plate b (5-14-5), the upper part of the choke switching trigger block (5-14-1) is connected with the choke plate (5-4).
7. The multifunctional disinfection door apparatus for medical departments of claim 1, wherein: the rubber spray pipe (4-2) is made of hard rubber with a certain bending degree, and the part of the rubber spray pipe (4-2) on the spray mounting plate c (4-13) is actually slightly longer than that in the figure.
8. The multifunctional disinfection door apparatus for medical departments of claim 1, wherein: the infrared ray sensors (1-20) make a sound when people pass by the infrared ray sensors (1-20).
CN202010260284.3A 2020-04-03 2020-04-03 Medical treatment administrative or technical offices use multi-functional disinfection door equipment Expired - Fee Related CN111420087B (en)

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CN202010260284.3A CN111420087B (en) 2020-04-03 2020-04-03 Medical treatment administrative or technical offices use multi-functional disinfection door equipment

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