CN114470279B - Full-automatic disinfection wearing and taking-off system for infectious disease staff - Google Patents

Abstract

The invention discloses a full-automatic disinfection putting-on and taking-off system for infectious disease staff, which comprises a hollow device shell, wherein an opening is formed in the side wall of the device shell, a device door is rotatably connected to the opening through a hinge, and an automatic disinfection mechanism for automatically disinfecting after entering is arranged in the device shell; the automatic disinfection mechanism comprises a transfer box fixedly embedded in the bottom wall of the device shell, a pump plate is sleeved in the transfer box in a sealing sliding manner, the device shell and the transfer box jointly penetrate through two liquid suction pipes and a liquid pumping pipe which are fixedly connected, one end of each liquid suction pipe penetrates through and extends to the interior of the transfer box, the other end of each liquid suction pipe penetrates through and extends to the exterior of the device shell, and one end of each liquid suction pipe penetrates through and extends to the interior of the transfer box. The advantages are that: the invention can automatically disinfect, reduce infection risk, assist staff to take off protective clothing, avoid occupational exposure, automatically collect taken off protective clothing, and has higher degree of automation.

Description

Full-automatic disinfection wearing and taking-off system for infectious disease staff

Technical Field

The invention relates to the technical field of medical devices, in particular to a full-automatic disinfection putting-on and taking-off system for infectious disease staff.

Background

Medical protective clothing refers to protective clothing used by medical personnel (doctors, nurses, public health personnel, cleaning personnel, etc.) and by people who enter a specific medical and health area (e.g., patients, hospital visit personnel, people who enter an infected area, etc.). The protective clothing has the effects of isolating germs, ensuring that medical personnel are not infected by bacteria or viruses, ensuring the health of staff by wearing the medical protective clothing, ensuring that the medical personnel must pass through and normally wear the protective clothing in the working process of entering a specific area, and ensuring disinfection according to a certain flow after the work is completed.

In the prior art, the existing ward staff needs to wear protective clothing every day, the wearing process of the protective clothing is safer, occupational exposure (mainly cleaning staff, careers and medical staff, especially the former, the professional degree is relatively low, and the protective clothing is difficult to be taken off strictly according to the process) is easy to cause infection when the protective clothing is taken off, and therefore, the full-automatic disinfection wearing and taking-off system for infectious disease staff is provided.

Disclosure of Invention

The invention aims to solve the problems that exposure is easy to cause infection and the like in the prior art when protective clothing is taken off, and provides a full-automatic disinfection wearing and taking-off system for infectious disease staff.

In order to achieve the above purpose, the present invention adopts the following technical scheme: the full-automatic disinfection putting-on and taking-off system for infectious disease staff comprises a hollow device shell, wherein an opening is formed in the side wall of the device shell, a device door is rotatably connected to the opening through a hinge, and an automatic disinfection mechanism for automatically disinfecting after entering is arranged in the device shell;

the automatic disinfection mechanism comprises a transfer box fixedly embedded in the bottom wall of a device shell, a pump plate is sleeved in the transfer box in a sealing sliding manner, the device shell and the transfer box are jointly penetrated and fixedly connected with two liquid suction pipes and a liquid pumping pipe, one liquid suction pipe penetrates and extends to the inside of the transfer box, the other end of the liquid suction pipe penetrates and extends to the outside of the device shell, one end of the other liquid suction pipe penetrates and extends to the inside of the transfer box, the other end of the liquid suction pipe penetrates and extends to the outside of the device shell, the inner side wall of the device shell is slidably connected with a pedal, the pedal is fixedly connected with the pump plate through a supporting rod, a plurality of first springs are fixedly connected between the pedal and the inner bottom wall of the device shell, two inner side walls opposite to the device shell are fixedly embedded with mounting blocks, the mounting blocks are of hollow structures, the side walls of the mounting blocks penetrate and are fixedly connected with atomizing spray heads, the side walls of the device shell and the side walls of the mounting blocks are jointly penetrated and fixedly connected with connecting pipes, and one ends of the connecting pipes far away from the mounting blocks and the corresponding liquid pumping pipes penetrate and are fixedly connected.

In the full-automatic disinfection wearing and taking-off system for infectious disease staff, an auxiliary mechanism for assisting the staff in taking off protective clothing is arranged in the device shell, the auxiliary mechanism comprises two threaded rods, the threaded rods are connected with the top wall of the device shell in a penetrating and rotating mode through bearings, the two threaded rods are all in penetrating mode and extend to the outside of the device shell, the two threaded rods are provided with first belt wheels in an interference fit mode, a servo motor is welded on the upper surface of the device shell through a support, one of the threaded rods is located at one end of the outside of the device shell and welded with an output shaft of the servo motor, the two threaded rods are connected with lifting frames in a threaded mode, hooks are fixedly connected to four inner side walls of the lifting frames, and a button switch is fixedly connected to the inner bottom wall of the device shell.

In the full-automatic disinfection wearing and taking-off system for infectious disease staff, be provided with the breather mechanism that is used for ventilation in the device shell, the breather mechanism is including seting up the functional groove in the device shell roof, the functional inslot roof is connected with the dwang through the bearing rotation, dwang interference fit has second band pulley, induced fan, the second band pulley and two first band pulley cooperate together has the hold-in range, the device shell roof runs through fixedly connected with a plurality of blast pipes, blast pipe one end runs through and extends to the functional inslot, and the other end runs through and extends to the device shell outside, device shell lateral wall runs through fixedly connected with a plurality of intake pipes, intake pipe one end runs through and extends to the device shell inside, the other end runs through and extends to the device shell outside.

In the full-automatic disinfection wearing and taking-off system for infectious disease staff, be provided with the collection mechanism who is used for taking off protective clothing and collect in the device shell lateral wall, collection mechanism is including seting up electric putter, electric putter and device shell keep away from the lateral wall of device door one side and run through fixed connection, set up the collecting vat in the lateral wall of device shell from device door one side, electric putter runs through and extends to in the collecting vat, electric putter's output fixedly connected with sliding sleeve, the cross-section of sliding sleeve is the concave shape of opening down, sliding sleeve sliding connection has the recovery board, fixedly connected with a plurality of second springs between recovery board and the sliding sleeve, be provided with the electro-magnet in the sliding sleeve roof.

In the full-automatic disinfection putting-on and taking-off system for infectious disease staff, the side wall of one side of the device shell, which is far away from the device door, is fixedly connected with a collecting frame in a penetrating manner, the cross section of the collecting frame is in an upwards concave shape, and the collecting frame is communicated with the collecting groove.

In the full-automatic disinfection putting-on and taking-off system for infectious disease staff, one ends of the liquid suction pipe and the liquid pumping pipe, which are positioned in the transfer box, are provided with one-way valves, and the liquid pumping pipe is a blind pipe.

In the full-automatic disinfection putting-on and taking-off system for the infectious disease staff, the thread lifting angle of the threaded rod is smaller than the equivalent friction angle of a screw pair formed by the threaded rod and the lifting frame.

In the full-automatic disinfection putting-on and taking-off system for the infectious disease staff, the upper surface of the pedal is provided with the anti-slip pad.

Compared with the prior art, the invention has the advantages that:

1. after entering the device, the pedal drives the pump plate to slide downwards through the weight of a worker, so that disinfectant in the transfer box is pumped out through the pump liquid pipe, and then is sprayed out through the atomizing nozzle after being pumped into the mounting block through the connecting pipe, and the disinfectant is sterilized firstly, so that viruses and bacteria outside the protective clothing are primarily killed, and the environmental safety is ensured;

2. after preliminary disinfection is finished, the pedal descends, the button switch is pressed down, the servo motor rotates for fixed circles, the two threaded rods synchronously rotate through the arrangement of the first belt pulley and the synchronous belt, the lifting frame descends through threaded connection, and the staff is assisted by the hook of the lifting frame to take off the protective clothing, so that the situation that the staff mistakenly touches the outside of the protective clothing to cause occupational exposure when taking off the protective clothing is avoided, and infection is effectively avoided;

3. the lifting frame moves while synchronously driving the second belt wheel to rotate, so that the rotating rod rotates, the induced fan rotates, air in the device is discharged through the exhaust pipe, and fresh air enters the device through the air inlet pipe below, so that the freshness of the air in the device is ensured, the feeling of chest distress and the like of workers in the device is avoided, and the using comfort of the device is greatly improved;

4. after the protective clothing is taken off, the staff walks out the device, under first spring force, make the footboard reset, thereby loosen button switch, servo motor reverse rotation this moment, make the lifting frame reset, simultaneously, electric putter and electro-magnet circular telegram, thereby make the sliding sleeve stretch out with retrieving the board, retrieve the board simultaneously and slide to the sliding sleeve inside under the magnetic force of electro-magnet, after the lifting frame resets, servo motor stops the outage, simultaneously, electric putter and electro-magnet outage, under the elasticity of second spring, retrieve the board roll-off, electric putter contracts simultaneously, collect in the frame with the protective clothing income that takes off through retrieving the board, thereby accomplish automatic collection, make the device degree of automation higher.

Drawings

FIG. 1 is a schematic diagram of a full-automatic disinfection putting-on and taking-off system for infectious disease staff according to the present invention;

FIG. 2 is an enlarged view of a portion of FIG. 1;

FIG. 3 is a cross-sectional view taken at A-A of FIG. 1;

FIG. 4 is an enlarged view at C in FIG. 3;

fig. 5 is a cross-sectional view at B-B in fig. 1.

In the figure: 1 device shell, 2 transfer box, 3 pump plate, 4 footboard, 5 first spring, 6 pipette, 7 pump liquid pipe, 8 installation piece, 9 connecting pipe, 10 atomizer, 11 button switch, 12 servo motor, 13 threaded rod, 14 first band pulley, 15 second band pulley, 16 hold-in range, 17 lifting frame, 18 couple, 19 function groove, 20 dwang, 21 induced fan, 22 blast pipe, 23 intake pipe, 24 collecting vat, 25 electric putter, 26 sliding sleeve, 27 recovery board, 28 second spring, 29 electro-magnet, 30 collecting frame, 31 opening, 32 device door, 33 through-holes.

Detailed Description

The following examples are for illustrative purposes only and are not intended to limit the scope of the invention.

Examples

Referring to fig. 1-5, a full-automatic disinfection putting-on and taking-off system for infectious disease staff comprises a hollow device shell 1, wherein an opening 31 is formed in the side wall of the device shell 1, a device door 32 is rotatably connected to the opening 31 through a hinge, and an automatic disinfection mechanism for automatically disinfecting after entering is arranged in the device shell 1;

the automatic disinfection mechanism comprises a transfer box 2 fixedly embedded in the bottom wall of a device shell 1, a pump plate 3 is sleeved in the transfer box 2 in a sealing sliding manner, two liquid suction pipes 6 and a liquid pumping pipe 7 are fixedly connected between the device shell 1 and the transfer box 2 in a penetrating manner, one end of each liquid suction pipe 6, which is positioned outside the device shell 1, is communicated with a device for storing disinfectant outside, one end of each liquid suction pipe 6 penetrates through and extends into the transfer box 2, the other end of each liquid suction pipe penetrates through and extends to the outside of the device shell 1, one end of the other liquid suction pipe 6 penetrates through and extends into the transfer box 2, the other end of each liquid suction pipe penetrates through and extends to the outside of the device shell 1, a pedal 4 is connected with the inner side wall of the device shell 1 in a sliding manner, a plurality of first springs 5 are fixedly connected between the pedal 4 and the inner side wall of the device shell 1 through supporting rods, two inner side walls of the device shell 1 are fixedly embedded with mounting blocks 8, each mounting block 8 is of a hollow structure, the side wall of each mounting block 8 penetrates through a fixedly connected with a spray nozzle 10, one side wall of the device shell 1 and the side wall of each mounting block 8 is fixedly connected with a corresponding liquid pumping pipe 7 in a penetrating manner.

The device is characterized in that an auxiliary mechanism for assisting workers in removing protective clothing is arranged in the device shell 1, the auxiliary mechanism comprises two threaded rods 13, the threaded rods 13 are connected with the top wall of the device shell 1 through bearing penetrating rotation, the two threaded rods 13 penetrate through and extend to the outside of the device shell 1, the two threaded rods 13 are in interference fit with a first belt wheel 14, a servo motor 12 is welded on the upper surface of the device shell 1 through a bracket, one end of one threaded rod 13, which is positioned on the outside of the device shell 1, is welded with an output shaft of the servo motor 12, the two threaded rods 13 are connected with a lifting frame 17 through common threads, hooks 18 are fixedly connected to four inner side walls of the lifting frame 17, a button switch 11 is fixedly connected to the inner bottom wall of the device shell 1, the button switch 11, the servo motor 12, an electric push rod 25 and an electromagnet 29 are connected with a PLC control circuit through wires, so that after the button switch 11 is pressed down, the servo motor 12 rotates for a certain number of turns to enable the lifting frame 17 to descend for a certain height, after the button switch 11 is loosened, the servo motor 12 is reversely rotated for enabling the lifting frame 17 to reset, after the lifting frame 17 is reset, the electric push rod 25 and the electromagnet 29 are powered on for a certain time, and then powered off automatically.

The device is characterized in that a ventilation mechanism for ventilation in the device is arranged in the device housing 1, the ventilation mechanism comprises a functional groove 19 formed in the top wall of the device housing 1, a rotating rod 20 is rotatably connected to the top wall of the functional groove 19 through a bearing, a second belt pulley 15 and a fan 21 are in interference fit with the rotating rod 20, the second belt pulley 15 and the two first belt pulleys 14 are matched with each other together, a plurality of exhaust pipes 22 are fixedly connected to the top wall of the device housing 1 in a penetrating mode, one ends of the exhaust pipes 22 penetrate through the functional groove 19, the other ends of the exhaust pipes penetrate through the outer portion of the device housing 1, a plurality of air inlet pipes 23 are fixedly connected to the side wall of the device housing 1 in a penetrating mode, one ends of the air inlet pipes 23 penetrate through the inner portion of the device housing 1, the other ends of the air inlet pipes penetrate through the outer portion of the device housing 1, one ends of the exhaust pipes 22 located on the outer portion of the device housing 1 are communicated with an external disinfection device, and therefore the exhausted air is disinfected and then discharged.

The device is characterized in that a collecting mechanism for collecting the protective clothing is arranged in the side wall of the device shell 1, the collecting mechanism comprises an electric push rod 25, the electric push rod 25 and the side wall of the device shell 1, which is far away from the device door 32, are fixedly connected, a collecting groove 24 is formed in the side wall of the device shell 1, which is far away from the device door 32, the electric push rod 25 extends into the collecting groove 24 in a penetrating mode, the output end of the electric push rod 25 is fixedly connected with a sliding sleeve 26, the section of the sliding sleeve 26 is in a concave shape with a downward opening, the sliding sleeve 26 is slidably connected with a recovery plate 27, a plurality of second springs 28 are fixedly connected between the recovery plate 27 and the sliding sleeve 26, and an electromagnet 29 is arranged in the top wall of the sliding sleeve 26.

The side wall of the device shell 1 far away from the device door 32 side penetrates through and is fixedly connected with a collecting frame 30, the cross section of the collecting frame 30 is in an upwards concave shape, the collecting frame 30 is communicated with the collecting tank 24, and disinfectant is contained in the collecting frame 30, so that secondary disinfection is carried out on the protective clothing.

One ends of the liquid suction pipe 6 and the liquid pumping pipe 7, which are positioned in the transfer box 2, are provided with one-way valves, the one-way valves in the liquid suction pipe 6 enable disinfectant to enter the transfer box 2 only through the liquid suction pipe 6, the one-way valves in the liquid pumping pipe 7 only allow disinfectant to enter the liquid pumping pipe 7 from the transfer box 2, the liquid pumping pipe 7 is a blind pipe, and one end of the liquid pumping pipe 7, which is positioned outside the device shell 1, is a blocking end as shown in fig. 1.

The screw lead angle of the threaded rod 13 is smaller than the equivalent friction angle of a screw pair formed by the threaded rod 13 and the lifting frame 17, so that the threaded connection between the threaded rod 13 and the lifting frame 17 realizes self-locking, and the sliding of the threaded connection part is avoided, thereby affecting the lifting stability of the lifting frame 17.

The upper surface of the pedal 4 is provided with an anti-slip pad, and the anti-slip pad prevents slipping when a worker stands on the pedal 4, so that the safety of the worker is ensured.

In the invention, after the working of a worker is finished, a device door 32 is opened, the worker enters the device shell 1, meanwhile, the device door 32 is closed, the worker steps on a pedal 4, so that the pedal 4 slides down to drive a pump plate 3 to slide down, disinfectant in a transfer box 2 is pumped out through a pump liquid pipe 7 and then pumped into a mounting block 8 through a connecting pipe 9, and atomized and sprayed out through an atomization nozzle 10 on the side wall of the mounting block 8, so that the outside of a protective clothing of the worker is primarily killed;

along with the continuous descent of the pedal 4, the pedal 4 is contacted with the button switch 11, the button switch 11 is pressed, the servo motor 12 is started and rotated for a certain number of turns under the control of the PLC control circuit, the servo motor 12 drives one of the threaded rods 13 to rotate, the threaded rod 13 drives the corresponding first belt wheel 14 to rotate, and the synchronous belt drives the other first belt wheel 14 to rotate with the second belt wheel 15, so that the two threaded rods 13 synchronously rotate, the lifting frame 17 descends through threaded connection, and hooks on the inner side wall of the lifting frame 17 are contacted with the protective clothing while descending, and the protective clothing is helped to be taken off by a worker, so that the outside of the protective clothing is prevented from being touched by mistake;

when the protective suit is taken off in an auxiliary way, the second belt wheel 15 drives the rotating rod 20 in interference fit with the protective suit to rotate, so that the rotating rod 20 drives the induced fan 21 to rotate, air in the device is discharged through the exhaust pipe 22, and fresh air enters the device through the air inlet pipe 23 below, so that the freshness of the air in the device is ensured;

after the protective clothing is taken off, the staff walks out of the device shell 1, thereby make footboard 4 reset under the elasticity of first spring 5, thereby make button switch 11 loosen, make servo motor 12 reverse rotation certain number of turns through PLC control circuit this moment, thereby make threaded rod 13 reverse rotation, thereby make lifting frame 17 reset, after reset, electric putter 25 and electro-magnet 29 switch on, thereby make sliding sleeve 26 and recovery board 27 stretch out, recovery board 27 slides to sliding sleeve 26 inside under the magnetic force of electro-magnet simultaneously, after electric putter 25 drives sliding sleeve 26 and stretches out completely, electric putter 25 and electro-magnet 29 outage, under the elasticity of second spring 28, recovery board 27 slides out, compress tightly the protective clothing of taking off, electric putter 25 shrink, will take off protective clothing through recovery board 27 and collect in frame 30, thereby accomplish automatic collection.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims (1)

1. The full-automatic disinfection putting-on and taking-off system for infectious disease staff comprises a hollow device shell (1) and is characterized in that an opening (31) is formed in the side wall of the device shell (1), a device door (32) is connected to the opening (31) through a hinge in a rotating mode, and an automatic disinfection mechanism for automatically disinfecting after entering is arranged in the device shell (1);

the automatic disinfection mechanism comprises a transfer box (2) fixedly embedded in the bottom wall of a device shell (1), a pump plate (3) is sleeved in the transfer box (2) in a sealing sliding manner, two liquid suction pipes (6) and a liquid suction pipe (7) are fixedly connected between the device shell (1) and the transfer box (2) in a penetrating manner, one end of one liquid suction pipe (6) penetrates and extends to the inside of the transfer box (2), the other end of the other liquid suction pipe penetrates and extends to the outside of the device shell (1), one end of the other liquid suction pipe (6) penetrates and extends to the inside of the transfer box (2), the other end of the other liquid suction pipe penetrates and extends to the outside of the device shell (1), a pedal (4) is connected with the inner side wall of the device shell (1) in a sliding manner, a plurality of first springs (5) are fixedly connected between the pedal (4) and the inner bottom wall of the device shell (1), two opposite inner side walls of the device shell (1) are fixedly embedded with mounting blocks (8), the mounting blocks (8) are hollow structures, the side walls of the mounting blocks (8) are fixedly connected with a connecting pipe (10) and fixedly connected with the side walls of the spray head (9) in a penetrating manner, one end that installation piece (8) was kept away from to connecting pipe (9) runs through fixed connection with pump liquid pipe (7) that corresponds, be provided with the assist mechanism that assist personnel took off protective clothing in device shell (1), assist mechanism includes two threaded rods (13), threaded rods (13) run through rotary connection through the bearing with device shell (1) roof, two threaded rods (13) all run through and extend to device shell (1) is outside, two threaded rods (13) all interference fit has first band pulley (14), device shell (1) upper surface has servo motor (12) through the support welding, one of them threaded rods (13) are located the one end of device shell (1) outside and the output shaft welding of servo motor (12), two threaded rods (13) common threaded connection has lifting frame (17), four inside walls of lifting frame (17) are fixed connection with couple (18), device shell (1) inner bottom wall fixedly connected with button switch (11), be provided with in device shell (1) and be used for device inner interference fit has first band pulley (14), device shell (1) upper surface has servo motor (12) through the support welding, one of threaded rods (13) are located the one end of device shell (1) and the output shaft welding of servo motor (12), two common threaded rods (13) have a lifting frame (17), top wall (19) of ventilation mechanism (20) have rotary connection groove (20) in top wall (20) through rotary connection of band pulley (20) The utility model provides a draw fan (21), second band pulley (15) and two first band pulley (14) cooperate together have hold-in range (16), device housing (1) roof runs through fixedly connected with a plurality of blast pipes (22), blast pipe (22) one end runs through and extends to in functional groove (19), the other end runs through and extends to device housing (1) outside, device housing (1) lateral wall runs through fixedly connected with a plurality of intake pipes (23), intake pipe (23) one end runs through and extends to device housing (1) inside, the other end runs through and extends to device housing (1) outside, be provided with in device housing (1) lateral wall and be used for taking off the collection mechanism that protective clothing was collected, collection mechanism is including seting up electric putter (25), electric putter (25) and device housing (1) keep away from lateral wall run through fixedly connected with on one side of device door (32), set up collecting vat (24) in the lateral wall on one side of device housing (1) keep away from device door (32), electric putter (25) run through and extend to collecting vat (24) in, electric putter (25) output end (25) run through and extend to device housing (26) outside, be connected with sliding sleeve (26) open-ended sliding sleeve (26) is sliding sleeve shape cross-section (27) down, sliding sleeve (27), the utility model discloses a device, including recovery board (27) and sliding sleeve (26), be provided with electro-magnet (29) in sliding sleeve (26) roof, device shell (1) is kept away from the lateral wall of device door (32) one side and is run through fixedly connected with collection frame (30), the cross-section of collection frame (30) is the concave character form of opening up, collection frame (30) and collecting vat (24) intercommunication, pipette (6) and pump liquid pipe (7) are located one end in transfer box (2) all is provided with the check valve, pump liquid pipe (7) are the blind pipe, the screw lift angle of threaded rod (13) is less than the equivalent friction angle of screw pair is constituteed with lifting frame (17) to threaded rod (13), footboard (4) upper surface is provided with the slipmat.