CN113576225A - Method for wearing suspension sectional sleeved type electromagnetic radiation protective clothing - Google Patents

Abstract

The invention relates to the field of electromagnetic radiation protection, in particular to a method for wearing suspension sectional nested electromagnetic radiation protective clothing. The technical problems to be solved by the invention are as follows: provides a method for wearing suspension sectional nested electromagnetic radiation protective clothing. The technical implementation scheme of the invention is as follows: a method for wearing suspended sectional sleeved electromagnetic radiation protective clothing adopts the following processing equipment, and the processing equipment comprises a dressing cabin body, a first communication door, an upper body supporting and transferring system, a bottom electric slide rail, a lower body transferring system and a dressing lifting system; a first communication door is arranged at the right part of the front side of the loading cabin body. The invention realizes the automatic wearing of the protective clothing before workers enter a high-radiation working area, so that the protective clothing is in a ready-to-wear state, and then the trouser legs of the protective clothing are automatically spread, the protective clothing is convenient to wear, the legs of the people are automatically inserted into the trouser legs, the upper body is automatically spread, and the effect of automatically wearing the protective clothing is achieved.

Description

Method for wearing suspension sectional sleeved type electromagnetic radiation protective clothing

Technical Field

The invention relates to the field of electromagnetic radiation protection, in particular to a method for wearing suspension sectional nested electromagnetic radiation protective clothing.

Background

At present, a plurality of protective clothing in the prior art are available, one of the protective clothing is protective clothing for blocking electromagnetic radiation, and most of the protective clothing is one-piece protective clothing, in the wearing process, an upper body needs to be opened firstly, then two legs are put in from the upper body, at the moment, the upper body hangs down, the upper body needs to be manually put on in order, and at the moment, a lower body is put on the body and fixed, so that the upper body is difficult to wear; many factories need to wear the protective clothing to work, namely, the protective clothing is worn before entering the workshop, and under the condition of numerous workers, the protective clothing is low in wearing efficiency and inconvenient to wear in a working place.

In order to solve the problems, a method for wearing suspension section sleeved type electromagnetic radiation protective clothing is provided.

Disclosure of Invention

In order to overcome the defects that the prior protective clothing has a plurality of types, one of the protective clothing is the protective clothing for blocking electromagnetic radiation, and most of the protective clothing is one-piece protective clothing, the upper body needs to be opened firstly in the wearing process, then the two legs are put in from the upper body, the upper body falls down at the moment, the protective clothing needs to be put on manually and tidily, and the lower body is fixed on the body at the moment, so that the upper body is difficult to wear; many factories can work by wearing the protective clothing, namely, the protective clothing is worn before entering the workshop, and under the condition of numerous workers, the protective clothing has the defects of low wearing efficiency and inconvenient wearing at a work place, and the technical problems to be solved by the invention are as follows: provides a method for wearing suspension sectional nested electromagnetic radiation protective clothing.

The technical implementation scheme of the invention is as follows: a method for wearing suspended sectional nested electromagnetic radiation protective clothing adopts the following processing equipment, and the processing equipment comprises a dressing cabin body, a first communicating door, a second communicating door, an intra-cabin clapboard, a top transfer sliding rail, an upper body support transfer system, a bottom electric sliding rail, a lower body transfer system, a dressing lifting system, an operation console, a ventilation window and an observation camera; a first communication door is arranged at the right part of the front side of the loading cabin body; a second communicating door is arranged at the rear part of the right side of the loading cabin body; the right rear part of the inner side of the loading cabin body is fixedly connected with the partition board in the cabin; a top transfer sliding rail is arranged at the top in the loading cabin body; the lower part of the top transfer slide rail is provided with an upper body support transfer system; the upper body support transfer system can be provided with a plurality of groups; a bottom electric slide rail is arranged at the bottom in the loading cabin body; the top of the bottom electric sliding rail is connected with a lower body transfer system in a sliding manner; a dressing lifting system is arranged on the right side of the bottom in the dressing cabin body; an operation console is arranged at the rear right side in the dressing cabin body and is positioned at the rear side of the cabin inner partition plate; a ventilation window is arranged at the rear side of the dressing cabin body; an observation camera is arranged at the left rear side in the dressing cabin body; the upper body supporting and transferring system can hang, fix and transfer the protective clothing; the lower body transfer system can position and fix the protective clothing; the dressing lifting system can lift the human body so as to be convenient for the protective clothing to wear.

Furthermore, the upper body supporting and transferring system comprises a moving assembly, a lifting assembly, a supporting assembly, an electric sliding rail frame, an electric sliding seat and a moving cross rod; two moving components are movably mounted on the lower part of the top transfer sliding rail; the bottom of the moving component is connected with an electric sliding rail frame; the inner side of the electric slide rail frame is connected with an electric slide seat in a sliding way; a movable cross rod is fixedly inserted into the inner side of the electric sliding seat; two sides of the bottom of the movable cross rod are respectively provided with a lifting component; and a supporting component is connected below the two lifting components.

Furthermore, the moving assembly comprises a first electric roller, a mounting T-shaped frame, a second electric roller and a connecting mounting block; the inner side of the top transfer sliding rail is connected with a mounting T-shaped frame in a sliding manner; a first electric roller is arranged on the inner side of the T-shaped mounting frame; the first electric roller is in rolling contact with the inner side of the top transfer sliding rail; a second electric roller is arranged on the inner side of the T-shaped mounting frame; the second electric roller is in rolling contact with the inner side of the top transfer sliding rail; and the bottom of the T-shaped frame is welded with the connecting installation block.

Furthermore, the lifting assembly comprises a first mounting vertical plate, a second mounting vertical plate, an electric reel, a traction rope, a fixed connecting ring, a third mounting vertical plate, a fourth mounting vertical plate and a fixed pulley; a first mounting vertical plate is fixedly connected to the bottom of the movable cross rod; a second mounting vertical plate is fixedly connected to the bottom of the movable cross rod; two sides of the electric reel are respectively arranged on a first mounting vertical plate and a second mounting vertical plate; a traction rope is fixedly wound in a groove on the outer ring surface of the electric reel; the bottom of the traction rope is fixedly connected with a fixed connecting ring; a support component is connected below the fixed connecting ring; a third mounting vertical plate is fixedly connected to the bottom of the movable cross rod; a fourth mounting vertical plate is fixedly connected to the bottom of the movable cross rod; and the third installation vertical plate and the fourth installation vertical plate are rotatably connected with the fixed pulley.

Furthermore, the supporting component comprises a first fixing shackle, an installation cross rod, a second fixing shackle, a fixing inserted link, a connecting vertical rod, an installation frame, an internal installation rod, a first electric rotating shaft sleeve, a second electric rotating shaft sleeve, a third electric rotating shaft sleeve, a first supporting rod and a second supporting rod; the inner side of the fixed connecting ring is fixedly sleeved with a first fixed shackle; a mounting cross rod is fixedly connected below the first fixing shackle; the top of the mounting cross rod is fixedly connected with a second fixing shackle; the second fixed shackle is fixedly sleeved with the other fixed connecting ring in the other lifting assembly; the installation cross rod is inserted with the fixed inserted rod; the installation cross rod is inserted with the connection vertical rod; the top of the connecting vertical rod is contacted with the mounting cross rod; the top of the connecting vertical rod is fixedly connected with an installation frame; an inner mounting rod is arranged on the inner side of the mounting frame; a first electric rotating shaft sleeve, a second electric rotating shaft sleeve and a third electric rotating shaft sleeve are sequentially arranged on the outer side of the internal mounting rod; the end parts of the first electric rotating shaft sleeve and the third electric rotating shaft sleeve are connected with the first support rod; the end part of the second electric rotating shaft sleeve is connected with a second support rod.

Further, the lower body transfer system comprises an electric sliding seat plate, a connecting seat plate, a first horizontal support column, a second horizontal support column, an outer support assembly and a movable mounting plate; the top of the bottom electric slide rail is connected with an electric slide seat plate in a sliding way; the top of the electric sliding seat plate is fixedly connected with a connecting seat plate; the top of the connecting seat plate is connected with a movable mounting plate in a sliding manner through a built-in electric sliding rail; the top of the movable mounting plate is fixedly connected with a first horizontal support column and a second horizontal support column in sequence; two external support components are arranged on the opposite sides of the electric sliding seat plate connecting seat plate.

Furthermore, the external support component comprises an electric rotating shaft seat, an electric lifting telescopic seat, an installation seat plate, a first electric slide rail column, a second electric slide rail column, a first movable opening plate and a second movable opening plate; the electric sliding seat plate is provided with an electric rotating shaft seat; the end part of the electric rotating shaft seat is connected with an electric lifting telescopic seat; the telescopic end of the electric lifting telescopic seat is provided with an installation seat plate; the installation base plate is sequentially provided with a first electric slide rail column and a second electric slide rail column; the first electric slide rail column and the second electric slide rail column are in sliding connection with the first movable opening plate; the first electric sliding rail column and the second electric sliding rail column are both in sliding connection with the second movable opening plate.

Furthermore, the dressing lifting system comprises an electric rotating chassis, an electric lifting telescopic column, a top supporting table, a lifting seat, a mounting bar, a first handle rod and a second handle rod; an electric rotating chassis is arranged on the right side of the bottom in the loading cabin body; the top of the electric rotating chassis is provided with an electric lifting telescopic column; a top supporting platform is arranged at the top of the electric lifting telescopic column; a lifting seat is arranged at the top of the top supporting platform; the top of the top supporting platform is provided with a mounting bar; the two sides of the top of the mounting bar are respectively and fixedly connected with a first handle rod and a second handle rod.

Further, the wearing method of the hanging sectional nested electromagnetic radiation protective clothing comprises the following steps:

the method comprises the following steps: hanging, controlling the upper body support transfer system to move into the protective suit storage room, manually hanging the protective suit to the upper body support transfer system, and then controlling the upper body support transfer system to move into the dressing cabin body;

step two: lifting, namely, sitting the person on the top of the dressing lifting system in the direction facing the first communication door, and then driving the person to lift by the dressing lifting system to enable the two legs of the person to droop;

step three: positioning, namely flatly paving the lower half of the protective suit on the front side of the lower body transfer system through the upper body supporting transfer system, paving the upper half of the protective suit on the top of the lower body transfer system, and spreading the trouser legs of the protective suit by the lower body transfer system;

step four: transferring, namely controlling the upper body supporting and transferring system and the lower body transferring system to synchronously move, wherein the bottom electric slide rail drives the lower body transferring system to move at the same speed as the upper body supporting and transferring system moves in the top transferring slide rail, namely the upper body supporting and transferring system and the lower body transferring system are transferred to the dressing lifting system;

step five: when the protective suit is worn, the upper body supporting and transferring system and the lower body transferring system are matched with the dress lifting system to operate, so that the lower body penetrates into the protective suit, and then the upper body penetrates into the protective suit.

Compared with the prior art, the invention has the following beneficial effects:

firstly, in order to solve the problems that the prior art has a plurality of protective garments, one of which is a protective garment for blocking electromagnetic radiation, and most of which is a one-piece protective garment, in the wearing process, an upper body needs to be opened firstly, then two legs are put in from the upper body, the upper body falls down at the moment, the upper body needs to be put on manually and tidily, and the lower body is fixed on the upper body at the moment, so that the upper body is difficult to wear; a plurality of factories can work only by wearing the protective clothing, namely, the factories can wear the protective clothing before entering the factories, and under the condition of numerous workers, the protective clothing has low wearing efficiency and is inconvenient to wear in a working place;

secondly, an upper body supporting and transferring system, a lower body transferring system and a dressing lifting system are designed, when in use, the protective suit is manually hung on the upper body supporting and transferring system, then the upper body supporting and transferring system is controlled to move to a dressing cabin body, at the moment, a person opens a first communication door to enter the interior of the dressing cabin body, then the person sits on the top of the dressing lifting system towards the direction of the first communication door, then the dressing lifting system drives the person to rise to enable the legs of the person to droop, the lower half of the protective suit is flatly laid on the front side of the lower body transferring system through the upper body supporting and transferring system, the upper half of the protective suit is laid on the top of the lower body transferring system, the lower body transferring system props open the trouser legs of the protective suit, then the upper body supporting and transferring system and the lower body transferring system are controlled to synchronously move, the bottom electric sliding rails drive the lower body transferring system to move at the same speed as the upper body supporting and transferring system to move in the top transferring sliding rails, the upper body supporting and transferring system and the lower body transferring system are transferred to the dressing lifting system, and then the upper body supporting and transferring system and the lower body transferring system are matched with the dressing lifting system to operate, so that the lower body penetrates into the protective clothing, and then the upper body penetrates into the protective clothing;

and thirdly, the protective clothing is automatically worn by workers before entering a high-radiation working area, so that the protective clothing is in a ready wearing state, and then the trouser legs of the protective clothing are automatically unfolded, the protective clothing is convenient to wear, so that the legs of the workers are automatically inserted into the trouser legs, the upper body is automatically unfolded, and the effect of automatically wearing the protective clothing is achieved.

Drawings

FIG. 1 is a first perspective view of the present invention;

FIG. 2 is a second perspective view of the present invention;

FIG. 3 is a schematic view of a first internal perspective of the present invention;

FIG. 4 is a second internal perspective view of the present invention;

FIG. 5 is a schematic perspective view of the upper body support transfer system of the present invention;

FIG. 6 is a perspective view of the moving assembly of the present invention;

FIG. 7 is a perspective view of the lift assembly of the present invention;

FIG. 8 is a schematic view of a first perspective structure of the support assembly of the present invention;

FIG. 9 is a second perspective view of the support assembly of the present invention;

FIG. 10 is a perspective view of the lower body transfer system of the present invention;

FIG. 11 is a first perspective view of the outer support assembly of the present invention;

FIG. 12 is a second perspective view of the outer support assembly of the present invention;

fig. 13 is a schematic perspective view of the dressing lift system of the present invention.

Reference numerals: 1_ dressing cabin body, 2_ first communication door, 3_ second communication door, 4_ cabin internal partition, 5_ top transfer slide rail, 6_ upper body support transfer system, 7_ bottom electric slide rail, 8_ lower body transfer system, 9_ dressing lifting system, 10_ operation console, 11_ ventilation window, 12_ observation camera, 601_ first electric roller, 602_ mounting T-shaped frame, 603_ second electric roller, 604_ joining mounting block, 605_ first mounting riser, 606_ second mounting riser, 607_ electric reel, 608_ hauling rope, 609_ fixed connection ring, 6010_ third mounting riser, 6011_ fourth mounting riser, 6012_ fixed pulley, 3_ first fixed shackle, 6014_ mounting cross bar, 6015_ second fixed shackle, 6016_ fixed inserted bar, 6017_ vertical bar connection, 6018_ mounting frame, 6019_ internal mounting bar, 6020_ first electric rotating shaft sleeve, 6021_ second electric spindle sleeve, 6022_ third electric spindle sleeve, 6023_ first brace, 6024_ second brace, 6025_ electric slide rail frame, 6026_ electric slide seat, 6027_ movable cross bar, 801_ electric slide seat plate, 802_ connection seat plate, 803_ first flat support column, 804_ second flat support column, 805_ electric spindle seat, 806_ electric lifting telescopic seat, 807_ installation seat plate, 808_ first electric slide rail column, 809_ second electric slide rail column, 8010_ first movable expanding plate, 8011_ second movable expanding plate, 8012_ movable installing plate, 901_ electric rotary chassis, 902_ electric lifting telescopic column, 903_ top support table, 904_ lifting seat, 905_ installing bar, 906_ first handle bar, 907_ second handle bar.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings.

Examples

A method for wearing suspended sectional nested electromagnetic radiation protective clothing adopts the following processing equipment as shown in figures 1-4, wherein the processing equipment comprises a clothing cabin body 1, a first communicating door 2, a second communicating door 3, an in-cabin partition plate 4, a top transfer sliding rail 5, an upper body support transfer system 6, a bottom electric sliding rail 7, a lower body transfer system 8, a clothing lifting system 9, an operation console 10, a ventilating window 11 and an observation camera 12; a first communication door 2 is arranged at the right part of the front side of the loading cabin body 1; a second communicating door 3 is arranged at the rear part of the right side of the loading cabin body 1; the right rear part of the inner side of the loading cabin body 1 is fixedly connected with an in-cabin partition plate 4; a top transfer sliding rail 5 is arranged at the top in the loading cabin body 1; the lower part of the top transfer slide rail 5 is provided with an upper body support transfer system 6; the upper body support transfer system 6 may be provided with a plurality of groups; a bottom electric slide rail 7 is arranged at the bottom in the loading cabin body 1; the top of the bottom electric slide rail 7 is connected with a lower body transfer system 8 in a sliding way; the right side of the bottom in the dressing cabin body 1 is provided with a dressing lifting system 9; an operation console 10 is arranged on the right rear side in the loading cabin body 1, and the operation console 10 is positioned on the rear side of the partition plate 4 in the cabin; a ventilation window 11 is arranged at the rear side of the loading cabin body 1; an observation camera 12 is arranged at the left rear side in the loading cabin body 1; the upper body supporting and transferring system 6 can hang, fix and transfer the protective clothing; the lower body transfer system 8 can position and fix the protective clothing; the dressing lifting system 9 can lift the human body to be convenient for the protective clothing to wear.

When the device for the method for wearing the hanging sectional nested electromagnetic radiation protective clothing is used, the device is firstly installed beside a protective clothing storage room, so that openings at two sides of a protective clothing cabin body 1 can be circularly connected with the storage room to form a circulating channel, then an annular track which is the same as the annular track of a top transfer slide rail 5 is erected along the top of the circulating channel, the annular track of the protective clothing storage room is spliced with the top transfer slide rail 5 to ensure that an upper body support transfer system 6 can circularly move in the protective clothing storage room and the device, further the upper body support transfer system 6 can be controlled to move into the protective clothing storage room, the protective clothing is manually hung to the upper body support transfer system 6, then the upper body support transfer system 6 is controlled to move into the protective clothing cabin body 1, at the moment, a person opens a first communication door 2 to enter the interior of the protective clothing cabin body 1, then the person faces to the top of a clothing lifting system 9 in the direction of the first communication door 2, then the dressing lifting system 9 drives the person to lift up to enable the two legs of the person to droop, the lower half of the protective suit is flatly laid on the front side of the lower body transfer system 8 through the upper body support transfer system 6, the upper half of the protective suit is laid on the top of the lower body transfer system 8, the lower body transfer system 8 is used for propping open the trouser legs of the protective suit, then the upper body support transfer system 6 and the lower body transfer system 8 are controlled to synchronously move, the bottom electric slide rail 7 drives the lower body transfer system 8 to move at the same speed as the upper body support transfer system 6 moves in the top transfer slide rail 5, namely the upper body support transfer system 6 and the lower body transfer system 8 are transferred to the dressing lifting system 9, then the upper body support transfer system 6 and the lower body transfer system 8 are matched with the dressing lifting system 9 to operate to enable the lower half of the protective suit to penetrate into the protective suit and then enable the upper body of the protective suit to be worn into the protective suit, and the automatic wearing of the protective suit before the worker enters a high-radiation work area is realized, the protective clothing is in a ready-to-wear state, then the trouser legs of the protective clothing are automatically unfolded, the protective clothing is convenient to wear, the legs of a person are automatically inserted into the trouser legs, the upper half of the body is automatically unfolded, and the effect of automatically wearing the protective clothing is achieved.

As shown in fig. 5, the upper body supporting and transferring system 6 includes a moving assembly, a lifting assembly, a supporting assembly, an electric slide rail frame 6025, an electric slide seat 6026 and a moving cross bar 6027; two moving components are movably arranged at the lower part of the top transfer sliding rail 5; the bottom of the moving component is connected with an electric slide rail frame 6025; an electric slide seat 6026 is connected to the inner side of the electric slide rail frame 6025 in a sliding manner; a movable cross rod 6027 is fixedly inserted into the inner side of the electric slide 6026; two sides of the bottom of the movable cross rod 6027 are respectively provided with a lifting component; and a supporting component is connected below the two lifting components.

Firstly, controlling an upper body supporting and transferring system 6 to move into a protective clothing storage room, then manually hanging the protective clothing on a supporting component, the supporting component is used for unfolding and hanging the clothing, then controlling two moving components to move in a top transferring slide rail 5 to drive the upper body supporting and transferring system 6 to integrally move into a clothing cabin body 1, then controlling two lifting components to drive the supporting component to move downwards, namely the supporting component drives the protective clothing to move downwards, simultaneously controlling an electric slide rail frame 6025 to drive an electric slide base 6026 to move forwards, namely the electric slide base 6026 drives a moving cross rod 6027 to move forwards, further moving the cross rod 6027 to drive connected components to move forwards, namely the protective clothing is driven to move forwards, after the protective clothing moves to the upper part of the front side of a lower body transferring system 8, controlling the lifting components to drive the position of the protective clothing to descend until the protective clothing descends to the front side of the lower body transferring system 8, then the electric slide rail frame 6025 is controlled to drive the electric slide seat 6026 to move backwards, the electric slide seat 6026 drives the movable cross rod 6027 to move backwards, the protective clothing is positioned at the front side of the lower body transfer system 8 at the moment, when the protective clothing moves backwards and is reset, the lower half body of the protective clothing is tiled at the front side of the lower body transfer system 8, the upper half body is tiled at the top of the lower body transfer system 8, then the upper body support transfer system 6 and the lower body transfer system 8 are controlled to move synchronously, the electric slide rail 7 at the bottom drives the lower body transfer system 8 to move at the same speed as the upper body support transfer system 6 moves in the top transfer slide rail 5 through the moving assembly, namely, the upper body support transfer system 6 and the lower body transfer system 8 are transferred to the dressing lifting system 9 to be matched with the dressing lifting system for subsequent operation.

As shown in fig. 6, the moving assembly includes a first electric roller 601, a mounting T-shaped frame 602, a second electric roller 603, and a connecting and mounting block 604; the inner side of the top transfer sliding rail 5 is connected with a mounting T-shaped frame 602 in a sliding manner; a first electric roller 601 is arranged on the inner side of the T-shaped mounting frame 602; the first electric roller 601 is in rolling contact with the inner side of the top transfer sliding rail 5; a second electric roller 603 is arranged on the inner side of the T-shaped mounting frame 602; the second electric roller 603 is in rolling contact with the inner side of the top transfer sliding rail 5; the bottom of the mounting tee 602 is welded to an engagement mounting block 604.

When the upper body supporting and transferring system 6 needs to move, the first electric roller 601 and the second electric roller 603 can be controlled to rotate, namely, the first electric roller 601 and the second electric roller 603 roll on the inner side of the top transferring slide rail 5, and then the installation T-shaped frame 602 is driven to move, the installation T-shaped frame 602 slides on the inner side of the top transferring slide rail 5, so that the installation T-shaped frame 602 drives the components connected below the installation T-shaped frame to move, and the moving assemblies are provided with two, namely, the two moving assemblies drive the upper body supporting and transferring system 6 to integrally move.

As shown in fig. 7, the lifting assembly includes a first mounting vertical plate 605, a second mounting vertical plate 606, an electric reel 607, a traction rope 608, a fixed connection ring 609, a third mounting vertical plate 6010, a fourth mounting vertical plate 6011, and a fixed pulley 6012; a first mounting vertical plate 605 is fixedly connected to the bottom of the movable cross rod 6027; a second mounting vertical plate 606 is fixedly connected to the bottom of the movable cross rod 6027; the two sides of the electric reel 607 are respectively arranged on a first mounting vertical plate 605 and a second mounting vertical plate 606; a traction rope 608 is fixedly wound in a groove on the outer ring surface of the electric reel 607; the bottom of the pulling rope 608 is fixedly connected with a fixed connecting ring 609; a support component is connected below the fixed connecting ring 609; a third mounting vertical plate 6010 is fixedly connected to the bottom of the movable cross rod 6027; a fourth mounting vertical plate 6011 is fixedly connected to the bottom of the movable cross rod 6027; the third installation vertical plate 6010 and the fourth installation vertical plate 6011 are rotatably connected with a fixed pulley 6012.

Under the initial condition, the haulage rope 608 twines the outer anchor ring of electronic reel 607, then steerable electronic reel 607 rotates this moment, when electronic reel 607 anticlockwise rotates, electronic reel 607 can upwards wind haulage rope 608 promptly, haulage rope 608 walks around fixed pulley 6012 upward movement promptly, haulage rope 608 can drive the supporting component upward movement through fixed connecting ring 609, otherwise when electronic reel 607 counter-rotation, haulage rope 608 can drive fixed connecting ring 609 downward movement promptly, drive the supporting component downward movement, the supporting component can drive the protective clothing and realize the oscilaltion motion from this.

As shown in fig. 8-9, the support assembly includes a first fixing shackle 6013, an installation cross bar 6014, a second fixing shackle 6015, a fixing inserting rod 6016, a connection vertical bar 6017, an installation frame 6018, an internal installation rod 6019, a first electric spindle sleeve 6020, a second electric spindle sleeve 6021, a third electric spindle sleeve 6022, a first stay 6023, and a second stay 6024; a first fixing shackle 6013 is fixedly sleeved on the inner side of the fixing connecting ring 609; a mounting cross bar 6014 is fixedly connected below the first fixing shackle 6013; a second fixing shackle 6015 is fixedly connected to the top of the mounting cross bar 6014; the second fixing shackle 6015 is fixedly sleeved with another fixing connecting ring 609 in another lifting assembly; the installation cross bar 6014 is inserted into the fixed inserting bar 6016; the installation cross rod 6014 is inserted into the connecting vertical rod 6017; the top of the connecting vertical rod 6017 is in contact with the mounting cross rod 6014; the top of the connecting vertical rod 6017 is fixedly connected with an installation frame 6018; an inner mounting rod 6019 is mounted on the inner side of the mounting frame 6018; a first electric rotating shaft sleeve 6020, a second electric rotating shaft sleeve 6021 and a third electric rotating shaft sleeve 6022 are sequentially arranged on the outer side of the inner mounting rod 6019; the end parts of the first electric rotating shaft sleeve 6020 and the third electric rotating shaft sleeve 6022 are connected with the first stay bar 6023; the end of the second electric rotating shaft sleeve 6021 is connected with a second stay 6024.

Firstly, the upper body support transfer system 6 is controlled to move into the protective clothing storage room, then the protective clothing is hung to the support component manually, that is, at this time, the fixing plunger 6016 is manually pulled out, and then the connecting vertical rod 6017, the mounting frame 6018, the internal mounting rod 6019, the first electric spindle sleeve 6020, the second electric spindle sleeve 6021, the third electric spindle sleeve 6022, the first stay 6023, and the second stay 6024 are removed from the mounting cross rod 6014, then the upper body opening of the protective suit is opened, the first support rod 6023 and the second support rod 6024 are respectively inserted into one arm sleeve from the inner side of the protective suit, and the protective suit is supported, the mounting cross bar 6014 and the connecting vertical bars 6017 are then plugged together using the fixing plug bars 6016, and then the support assembly is used for hanging the clothes in an unfolding mode, and at the moment, the two fixing connecting rings 609 can lift the support assembly upwards through the first fixing shackle 6013 and the second fixing shackle 6015, so that the lifting of the protective clothing is controlled.

As shown in fig. 10, the lower body transfer system 8 includes an electric sliding seat plate 801, a connecting seat plate 802, a first horizontal supporting column 803, a second horizontal supporting column 804, an external supporting assembly and a movable mounting plate 8012; the top of the bottom electric slide rail 7 is connected with an electric slide seat plate 801 in a sliding way; the top of the electric sliding seat plate 801 is fixedly connected with a connecting seat plate 802; the top of the connecting seat plate 802 is slidably connected with a movable mounting plate 8012 through a built-in electric sliding rail; a first horizontal support column 803 and a second horizontal support column 804 are fixedly connected to the top of the movable mounting plate 8012 in sequence; two external support assemblies are mounted on the opposite sides of the electric sliding seat plate 801 connecting the seat plate 802.

After the transferring process of the upper body supporting and transferring system 6, the lower half of the protective suit is flatly laid on the front side of the second horizontal supporting column 804, at this time, two external supporting components are controlled to be inserted into two trouser legs, the two trouser legs are outwards supported and fixed, the upper half of the protective suit is laid on the tops of the first horizontal supporting column 803 and the second horizontal supporting column 804, then the upper body supporting and transferring system 6 and the lower body transferring system 8 are controlled to synchronously move, the bottom electric sliding rail 7 drives the lower body transferring system 8 to move at the same speed as the upper body supporting and transferring system 6 moves in the top transferring sliding rail 5 through the moving component, at this time, the bottom electric sliding rail 7 drives the electric sliding seat plate 801 to move, namely, the electric sliding seat plate 801 drives the connecting seat plate 802, the first horizontal supporting column 803, the second horizontal supporting column 804, the external supporting component and the moving mounting plate 8012 to move, at this time, the upper body supporting and transferring system 6 drives the body to move towards the upper body dressing and lifting system 9, the motorized slide mount 801 maintains the same speed and transfers the suit positioning to the garment lifting system 9.

As shown in fig. 11 to 12, the external support assembly includes an electric rotating shaft seat 805, an electric lifting telescopic seat 806, an installation seat plate 807, a first electric sliding rail column 808, a second electric sliding rail column 809, a first mobile opening plate 8010 and a second mobile opening plate 8011; the electric sliding seat plate 801 is provided with an electric rotating shaft seat 805; the end of the electric rotating shaft seat 805 is connected with an electric lifting telescopic seat 806; the telescopic end of the electric lifting telescopic seat 806 is provided with an installation seat plate 807; the mounting seat plate 807 is sequentially provided with a first electric slide rail column 808 and a second electric slide rail column 809; the first electric sliding rail column 808 and the second electric sliding rail column 809 are both connected with the first movable opening plate 8010 in a sliding manner; the first electric slide rail column 808 and the second electric slide rail column 809 are both slidably connected to the second movable spreader plate 8011.

When the lower half of the protective suit is tiled at the front side of the second flat supporting column 804, the electric rotating shaft seat 805 is controlled to drive the electric lifting telescopic seat 806 to rotate upwards, so that the tops of the first movable opening plate 8010 and the second movable opening plate 8011 are aligned with openings of trouser legs, then the electric lifting telescopic seat 806 is controlled to extend upwards, then the electric lifting telescopic seat 806 drives the first movable opening plate 8010 and the second movable opening plate 8011 to move upwards and extend into the trouser legs, then the first electric sliding rail column 808 and the second electric sliding rail column 809 are controlled to synchronously drive the first movable opening plate 8010 and the second movable opening plate 8011 to be away from each other, further the first movable opening plate 8010 and the second movable opening plate 8011 are away from each other to open the trouser legs, at the moment, the two external support assemblies are controlled to be inserted into the two trouser legs, and the two trouser legs are outwardly supported and fixed.

As shown in fig. 13, the dressing and lifting system 9 includes an electric rotating chassis 901, an electric lifting telescopic column 902, a top support platform 903, a lifting seat 904, a mounting bar 905, a first handle bar 906 and a second handle bar 907; an electric rotating chassis 901 is arranged at the right side of the bottom in the loading cabin body 1; an electric lifting telescopic column 902 is arranged at the top of the electric rotating chassis 901; a top support table 903 is installed at the top of the electric lifting telescopic column 902; a lifting seat 904 is mounted at the top of the top support platform 903; a mounting bar 905 is mounted at the top of the top support table 903; the first handle bar 906 and the second handle bar 907 are respectively and fixedly connected to two sides of the top of the mounting bar 905.

A person opens the first communication door 2 and enters the interior of the loading cabin body 1, then the person sits on the top of the lifting seat 904 facing the direction of the first communication door 2, then hands on two sides can hold the first handle rod 906 and the second handle rod 907, then the electric lifting telescopic column 902 is controlled to extend upwards, then the electric lifting telescopic column 902 drives the top support platform 903, the lifting seat 904, the mounting strip 905, the first handle rod 906 and the second handle rod 907 to move upwards, namely the person is driven to rise in position, so that two legs of the person are perpendicular to one side of the lifting seat 904 facing the first communication door 2, then the lower body transfer system 8 moves to the lower side of the top support platform 903, the upper body support transfer system 6 moves to the rear side of the lifting seat 904, the top of the second flat support column 804 is the opening position of the waist of the upper half body of trousers, and the second flat support column 804 is located below the front side edge of the lifting seat 904, namely, at this time, the two legs of the person are just above the opening position of the waist of the half-body trousers, then the electric lifting telescopic column 902 is controlled to contract downwards, the lifting seat 904 is further driven to move downwards, the lifting seat 904 drives the person to move downwards, so that the two legs of the person are inserted into the trouser legs from the opening of the waist of the half-body trousers, at this time, the two external support components of the lower body transfer system 8 are controlled to move downwards, namely, the electric lifting telescopic seat 806 is controlled to contract, the electric lifting telescopic seat 806 drives the first movable opening plate 8010 and the second movable opening plate 8011 to move downwards to leave from the trouser legs, at this time, the feet of the person extend out from the opening at the bottom of the trouser legs of the protective clothing, the electric sliding seat plate 801 is controlled to drive the connecting seat plate 802 to move reversely to reset, then, until the electric lifting telescopic column 902 contracts, and then the electric lifting telescopic column 902 contracts and resets, the feet of the person land, then the person stands on the ground, at this time, the electric rotating chassis 901 is controlled to rotate clockwise, that is, the electric rotating chassis 901 drives the components connected to the top of the electric rotating chassis to rotate backwards, then the lifting component inside the upper body supporting and transferring system 6 is controlled to drive the supporting component to move upwards, and the electric sliding rail frame 6025 is controlled to drive the electric sliding seat 6026 to move forwards, the electric sliding seat 6026 drives the lifting component and the supporting component to move forwards by moving the cross bar 6027, that is, the supporting component drives the upper half body of the protective clothing to move to the back side of the upper half body of the person, then the person extends two arms into the two sleeves respectively through the opening on the front side of the upper half body of the protective clothing, then the second electric rotating shaft sleeve 6021 is controlled to drive the second supporting rod 6024 to rotate downwards, and simultaneously the first electric rotating shaft sleeve 6020 and the third electric rotating shaft sleeve 6022 drive the first supporting rod 6023 to rotate downwards, and then the first supporting rod 6023 and the second supporting rod 6024 rotate downwards and become inclined, and then the lifting assembly is controlled to drive the support assembly to move upwards, so that the first support rod 6023 and the second support rod 6024 are driven to move upwards to be drawn out of the two arm sleeves, and then the protective clothing is worn.

A method for wearing suspension sectional nested electromagnetic radiation protective clothing comprises the following steps:

the method comprises the following steps: hanging, controlling the upper body support transfer system 6 to move into the protective clothing storage room, manually hanging the protective clothing on the upper body support transfer system 6, and then controlling the upper body support transfer system 6 to move into the dressing cabin body 1;

step two: lifting, namely, a person sits on the top of the dressing lifting system 9 facing the direction of the first communication door 2, and then the dressing lifting system 9 drives the person to lift, so that the two legs of the person droop;

step three: positioning, namely flatly paving the lower half of the protective suit on the front side of a lower body transfer system 8 through an upper body supporting transfer system 6, paving the upper half of the protective suit on the top of the lower body transfer system 8, and propping open trouser legs of the protective suit through the lower body transfer system 8;

step four: transferring, namely controlling the upper body support transfer system 6 and the lower body transfer system 8 to synchronously move, and driving the lower body transfer system 8 to move by the bottom electric slide rail 7 at the same speed as the upper body support transfer system 6 moves in the top transfer slide rail 5, namely transferring the upper body support transfer system 6 and the lower body transfer system 8 to the dressing lifting system 9;

step five: when the suit is worn, the upper body support transfer system 6 and the lower body transfer system 8 cooperate with the suit lifting system 9 to operate, so that the lower body penetrates into the protective suit, and then the upper body penetrates into the protective suit.

Finally, it should be noted that the above embodiments are only used for illustrating the technical solutions of the present invention and not for limiting the protection scope of the present invention, and although the present invention is described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions can be made on the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention.

Claims (9)

1. A method for wearing suspended sectional sleeved electromagnetic radiation protective clothing adopts the following processing equipment, wherein the processing equipment comprises a clothing cabin body, a first communicating door, a second communicating door, an intra-cabin clapboard and a top transfer sliding rail; a first communication door is arranged at the right part of the front side of the loading cabin body; a second communicating door is arranged at the rear part of the right side of the loading cabin body; the right rear part of the inner side of the loading cabin body is fixedly connected with the partition board in the cabin; a top transfer sliding rail is arranged at the top in the loading cabin body; the method is characterized in that: the device also comprises an upper body supporting and transferring system, a bottom electric slide rail, a lower body transferring system and a dressing lifting system; the lower part of the top transfer slide rail is provided with an upper body support transfer system; the upper body support transfer system can be provided with a plurality of groups; a bottom electric slide rail is arranged at the bottom in the loading cabin body; the top of the bottom electric sliding rail is connected with a lower body transfer system in a sliding manner; a dressing lifting system is arranged on the right side of the bottom in the dressing cabin body; the upper body supporting and transferring system can hang, fix and transfer the protective clothing; the lower body transfer system can position and fix the protective clothing; the dressing lifting system can lift the human body so as to be convenient for the protective clothing to wear.

2. A method of wearing a suspended segmented pull-on electromagnetic radiation protective garment as defined in claim 1, wherein: the upper body supporting and transferring system comprises a moving assembly, a lifting assembly, a supporting assembly, an electric sliding rail frame, an electric sliding seat and a moving cross rod; two moving components are movably mounted on the lower part of the top transfer sliding rail; the bottom of the moving component is connected with an electric sliding rail frame; the inner side of the electric slide rail frame is connected with an electric slide seat in a sliding way; a movable cross rod is fixedly inserted into the inner side of the electric sliding seat; two sides of the bottom of the movable cross rod are respectively provided with a lifting component; and a supporting component is connected below the two lifting components.

3. A method of wearing a suspended sectional pull-on electromagnetic radiation protective garment as claimed in claim 2, wherein: the moving assembly comprises a first electric roller, a mounting T-shaped frame, a second electric roller and a connecting mounting block; the inner side of the top transfer sliding rail is connected with a mounting T-shaped frame in a sliding manner; a first electric roller is arranged on the inner side of the T-shaped mounting frame; the first electric roller is in rolling contact with the inner side of the top transfer sliding rail; a second electric roller is arranged on the inner side of the T-shaped mounting frame; the second electric roller is in rolling contact with the inner side of the top transfer sliding rail; and the bottom of the T-shaped frame is welded with the connecting installation block.

4. A method of wearing a suspended sectional pull-on electromagnetic radiation protective garment as claimed in claim 3, wherein: the lifting assembly comprises a first mounting vertical plate, a second mounting vertical plate, an electric reel, a traction rope, a fixed connecting ring, a third mounting vertical plate, a fourth mounting vertical plate and a fixed pulley; a first mounting vertical plate is fixedly connected to the bottom of the movable cross rod; a second mounting vertical plate is fixedly connected to the bottom of the movable cross rod; two sides of the electric reel are respectively arranged on a first mounting vertical plate and a second mounting vertical plate; a traction rope is fixedly wound in a groove on the outer ring surface of the electric reel; the bottom of the traction rope is fixedly connected with a fixed connecting ring; a support component is connected below the fixed connecting ring; a third mounting vertical plate is fixedly connected to the bottom of the movable cross rod; a fourth mounting vertical plate is fixedly connected to the bottom of the movable cross rod; and the third installation vertical plate and the fourth installation vertical plate are rotatably connected with the fixed pulley.

5. A method of wearing a suspended sectional pull-on electromagnetic radiation protective garment as defined in claim 4, wherein: the supporting component comprises a first fixing shackle, an installation cross rod, a second fixing shackle, a fixing inserted link, a connecting vertical rod, an installation frame, an internal installation rod, a first electric rotating shaft sleeve, a second electric rotating shaft sleeve, a third electric rotating shaft sleeve, a first supporting rod and a second supporting rod; the inner side of the fixed connecting ring is fixedly sleeved with a first fixed shackle; a mounting cross rod is fixedly connected below the first fixing shackle; the top of the mounting cross rod is fixedly connected with a second fixing shackle; the second fixed shackle is fixedly sleeved with the other fixed connecting ring in the other lifting assembly; the installation cross rod is inserted with the fixed inserted rod; the installation cross rod is inserted with the connection vertical rod; the top of the connecting vertical rod is contacted with the mounting cross rod; the top of the connecting vertical rod is fixedly connected with an installation frame; an inner mounting rod is arranged on the inner side of the mounting frame; a first electric rotating shaft sleeve, a second electric rotating shaft sleeve and a third electric rotating shaft sleeve are sequentially arranged on the outer side of the internal mounting rod; the end parts of the first electric rotating shaft sleeve and the third electric rotating shaft sleeve are connected with the first support rod; the end part of the second electric rotating shaft sleeve is connected with a second support rod.

6. A method of wearing a suspended sectional pull-on electromagnetic radiation protective garment as claimed in claim 5, wherein: the lower body transfer system comprises an electric sliding seat plate, a connecting seat plate, a first horizontal support column, a second horizontal support column, an external support assembly and a movable mounting plate; the top of the bottom electric slide rail is connected with an electric slide seat plate in a sliding way; the top of the electric sliding seat plate is fixedly connected with a connecting seat plate; the top of the connecting seat plate is connected with a movable mounting plate in a sliding manner through a built-in electric sliding rail; the top of the movable mounting plate is fixedly connected with a first horizontal support column and a second horizontal support column in sequence; two external support components are arranged on the opposite sides of the electric sliding seat plate connecting seat plate.

7. A method of wearing a suspended sectional pull-on electromagnetic radiation protective garment as defined in claim 6, wherein: the external support component comprises an electric rotating shaft seat, an electric lifting telescopic seat, an installation seat plate, a first electric sliding rail column, a second electric sliding rail column, a first movable opening plate and a second movable opening plate; the electric sliding seat plate is provided with an electric rotating shaft seat; the end part of the electric rotating shaft seat is connected with an electric lifting telescopic seat; the telescopic end of the electric lifting telescopic seat is provided with an installation seat plate; the installation base plate is sequentially provided with a first electric slide rail column and a second electric slide rail column; the first electric slide rail column and the second electric slide rail column are in sliding connection with the first movable opening plate; the first electric sliding rail column and the second electric sliding rail column are both in sliding connection with the second movable opening plate.

8. A method of wearing a suspended sectional pull-on electromagnetic radiation protective garment as defined in claim 7, wherein: the dressing lifting system comprises an electric rotating chassis, an electric lifting telescopic column, a top supporting table, a lifting seat, a mounting strip, a first handle rod and a second handle rod; an electric rotating chassis is arranged on the right side of the bottom in the loading cabin body; the top of the electric rotating chassis is provided with an electric lifting telescopic column; a top supporting platform is arranged at the top of the electric lifting telescopic column; a lifting seat is arranged at the top of the top supporting platform; the top of the top supporting platform is provided with a mounting bar; the two sides of the top of the mounting bar are respectively and fixedly connected with a first handle rod and a second handle rod.

9. A method for wearing suspension sectional sleeve type electromagnetic radiation protective clothing is characterized in that: a method for wearing suspension sectional nested electromagnetic radiation protective clothing comprises the following steps:

the method comprises the following steps: hanging, controlling the upper body support transfer system to move into the protective suit storage room, manually hanging the protective suit to the upper body support transfer system, and then controlling the upper body support transfer system to move into the dressing cabin body;

step two: lifting, namely, sitting the person on the top of the dressing lifting system in the direction facing the first communication door, and then driving the person to lift by the dressing lifting system to enable the two legs of the person to droop;

step three: positioning, namely flatly paving the lower half of the protective suit on the front side of the lower body transfer system through the upper body supporting transfer system, paving the upper half of the protective suit on the top of the lower body transfer system, and spreading the trouser legs of the protective suit by the lower body transfer system;

step four: transferring, namely controlling the upper body supporting and transferring system and the lower body transferring system to synchronously move, wherein the bottom electric slide rail drives the lower body transferring system to move at the same speed as the upper body supporting and transferring system moves in the top transferring slide rail, namely the upper body supporting and transferring system and the lower body transferring system are transferred to the dressing lifting system;

step five: when the protective suit is worn, the upper body supporting and transferring system and the lower body transferring system are matched with the dress lifting system to operate, so that the lower body penetrates into the protective suit, and then the upper body penetrates into the protective suit.

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