Disclosure of Invention
The invention mainly solves the technical problem of providing a protective bed for transferring patients in hospitals, which can protect the patients from cold in winter by arranging a protective cover, is provided with a ventilation port to keep the air inside circulated, and is provided with a bedplate to lift the patients to a detection room after reaching a large position.
In order to solve the technical problem, the invention relates to a sickbed, in particular to a protective bed for transferring patients in a hospital, which comprises a protective cover, a supporting seat and a base, wherein the protective cover can be arranged to protect the patients from cold in winter, the device is provided with a ventilation port to keep the air inside the device to circulate, and the device is provided with a bedplate to lift the patients to a detection room after reaching a large position.
The protective cover is fixed on the upper portion of the supporting seat, the supporting seat is located on the upper portion of the base, and the supporting seat is in sliding fit with the base.
As a further optimization of the technical scheme, the protective cover of the hospital patient transfer protective bed comprises two baffles, a sliding chute, a protective roll, a rolling motor, a transmission rod, a scroll, a pulling rod, a steel wire shaft, a connecting plate, a pillar, a ventilation port, a ventilation cover, a ventilation motor, an impeller, a grid frame, a ventilation plate and a sliding connector, wherein the two baffles are fixed on the upper part of a supporting seat, the sliding chute is positioned on the inner side of the baffle, the protective roll is in sliding fit with the sliding chute, the protective roll is connected with the scroll, the protective roll is connected with the pulling rod, the rolling motor is fixed on the outer side of the baffle, the rolling motor is connected with the scroll, the two ends of the transmission rod are in sliding fit with the pillar, one end of the transmission rod is connected with the steel wire shaft, one end of the transmission rod is connected with the scroll, the scroll is in sliding fit with the baffle, the two ends of the pulling rod are in sliding fit with the sliding chute, the steel wire is positioned inside the sliding chute, steel wire one end is connected with the steel wire axle, steel wire one end is connected with sliding connection head, the steel wire axle is equipped with two, steel wire axle and baffle sliding fit, the connecting plate is fixed between two baffles, the pillar is equipped with four, the pillar is located the outside of baffle, ventilative mouthful being located the baffle, ventilative cover is fixed in the outside of ventilative mouthful, ventilative motor is fixed in the outside of ventilative cover, the impeller is fixed in the pivot of ventilative motor, the grid frame is the ring form, the inboard at ventilative mouthful is fixed to the grid frame, ventilative board is equipped with two, ventilative board is located the inboard of grid frame, ventilative board is connected with the grid frame, sliding connection head is equipped with two, sliding connection head connects the both ends at the pulling pole.
The supporting seat comprises a supporting plate, a movable plate, a lower supporting frame, a blocking strip and a driving mechanism, wherein a sliding groove is processed at the lower part of the supporting plate, the supporting plate is in sliding fit with the lower supporting frame, the movable plate is positioned at the upper part of the lower supporting frame and is in sliding fit with the lower supporting frame, the lower part of the lower supporting frame is fixed with the base together, the blocking strip is connected with the supporting plate, the driving mechanism is connected with the lower supporting frame, the driving mechanism is connected with the supporting plate, and the driving mechanism is connected with the movable plate; the support plate comprises a plate frame, two connecting blocks, two sliding rails, a lower support and an upper support, the plate frame is U-shaped and is positioned at the upper part of the lower support, the connecting blocks are fixed with the sliding rails, the two sliding rails are fixed at the lower part of the frame plate, the two lower supports are fixed at the two ends of the frame plate, the two upper supports are connected with the two stop bars; the movable plate comprises a human body supporting plate, four idler wheels, two supporting ribs and two telescopic connecting rods, wherein the supporting frames are processed at the lower part of the human body supporting plate, the human body supporting plate is positioned at the upper part of the lower supporting frame, the number of the idler wheels is four, the idler wheels are positioned at the lower part of the human body supporting plate and are provided with two, the supporting ribs are fixed at the lower part of the human body supporting plate, the number of the telescopic connecting rods is two, the telescopic connecting rods are fixed at the lower part of the human body supporting plate, and the lower parts of the telescopic connecting rods are connected with the driving framework; the stop strip comprises two rotating frames, a belt, two windproof stop strips, a spring, a furling motor, two corner belts, two corner shafts, a corner driving shaft, a tensioning shaft and a rotating shaft, the rotating frames are fixed with the rotating shaft and are in contact with a supporting plate, the belt is connected with the windproof stop strips, the belt is connected with the furling motor, the windproof stop strips are connected with the rotating frames, the number of the springs is four, the lower part of the spring is connected with the rotating frames, the upper part of the spring is connected with the windproof stop strips, the number of the furling motors is two, the furling motors are fixed on the outer side of the rotating frames and are connected with the belt, the upper part of the corner belt is connected with the rotating shaft, the lower part of the corner belt is connected with the corner shafts, the corner shafts are connected with the lower frames, and the corner shafts are connected with the corner driving shaft, the corner shaft is connected with the motor, the corner driving shaft is connected with the lower bracket, the tensioning shaft is positioned at one end of the rotating frame and is in rotating fit with the rotating frame, two rotating shafts are arranged, the rotating shafts are fixed with the rotating frame, and the rotating shafts are connected with the upper bracket; the driving mechanism comprises a fixed plate, a rotating rod, two connecting rods, a threaded rod, a motor, a supporting plate connecting block, a middle sliding block, a human body supporting plate connecting block, a rotating pin, a lower shaft rod and a driving motor, wherein the fixed plate is a cuboid, the fixed plate is fixed at the lower part of the lower supporting frame, the two rotating rods are positioned inside the lower supporting frame, the rotating rod is connected with the threaded rod, the connecting rod is positioned at the lower part of the fixed plate, the connecting rod is connected with the rotating rod, the two ends of the threaded rod are connected with the lower supporting frame, the motor is connected with the connecting rod, the motor is fixed at the lower part of the fixed plate, the supporting plate connecting block is in threaded fit with the threaded rod, one side of the supporting plate connecting block is fixed with the connecting block together, the middle sliding block is in fit with the lower supporting frame, a hole is processed in the middle part of the human body supporting plate connecting block, the middle part of the human body supporting plate connecting block is fixed together with the middle sliding block, human backup pad connecting block and threaded rod screw-thread fit, the rotating pin is equipped with two, rotating pin and middle slider normal running fit, rotating pin and human backup pad connecting block normal running fit, rotating pin upper portion processing is slotted, rotating pin upper portion is connected with telescopic connection pole, the axostylus axostyle is connected with middle slider down, the axostylus axostyle is connected with human backup pad connecting block down, the axostylus axostyle is connected with the rotating pin down, driving motor fixes the side at human backup pad connecting block, driving motor is connected with lower pivot.
As a further optimization of the technical scheme, the base of the hospital patient transfer protection bed comprises a sliding support, a vertical frame, a sliding sleeve, two driving screws, two synchronous screws, anti-skidding legs, a movable support, an anti-skidding rotating rod, an anti-skidding synchronous rod, a protection motor, an anti-skidding belt, square legs and pulleys, wherein the sliding support is U-shaped, the vertical frame is fixed at the upper part of the sliding support, the sliding sleeve is provided with two sliding sleeves, the upper part of the sliding sleeve is fixed with a lower support, the sliding sleeve is internally provided with two groups of threaded holes, the driving screws are provided with two groups, each group is provided with two driving screws, the lower part of each driving screw is connected with the vertical frame, the middle part of each driving screw is in threaded fit with the sliding sleeve, the synchronous screws are connected with the sliding sleeve, one end of each synchronous screw is connected with the motor, the anti-skidding legs are provided with four, the anti-skidding legs are in threaded fit with the sliding support, the movable support is provided with four, remove support and sliding support sliding fit, anti-skidding dwang is equipped with two, anti-skidding dwang is connected with anti-skidding leg, anti-skidding dwang is connected with anti-skidding synchronizing bar, anti-skidding synchronizing bar is connected with sliding support, anti-skidding synchronizing bar is connected with anti-skidding belt, the upper portion at sliding support is fixed to the protection motor, the protection motor is connected with anti-skidding belt, square leg and sliding support sliding fit, square leg is connected with the protection leg, the pulley is equipped with four, the pulley is connected with the removal support.
As a further optimization of the technical scheme, the rear part of the ventilation plate of the hospital patient transferring protective bed is provided with a stop block which is in contact with the rear part of the grid frame.
As a further optimization of the technical scheme, the human body supporting plate is level with the upper surface of the plate frame.
The hospital patient transfer protective bed has the beneficial effects that:
the invention relates to a protective bed for transferring patients in hospitals, which can protect the patients from cold in winter by arranging a protective cover, is provided with a ventilation port and can keep the air inside to circulate, and is provided with a bedplate which can lift the patients to a detection room after reaching a large position.
Detailed Description
The first embodiment is as follows:
the present embodiment is 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. the present invention relates to a hospital bed device, more specifically, a patient transfer bed for hospital, which comprises a protective cover 1, a support base 2, and a base 3, and is capable of protecting a patient against cold in winter by setting up the protective cover, and is provided with a ventilation opening capable of maintaining the ventilation inside air circulation, and is provided with a bedplate capable of lifting the patient to a detection room after reaching a large position.
The protection casing 1 fix on the upper portion of supporting seat 2, supporting seat 2 is located the upper portion of base 3, supporting seat 2 and base 3 sliding fit.
The second embodiment is as follows:
the following describes the present embodiment with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, and the present embodiment further describes the present embodiment, 2. the protective cover 1 includes a baffle 1-1, a chute 1-2, a protective roll 1-3, a rolling motor 1-4, a transmission rod 1-5, a reel 1-6, a pulling rod 1-7, a steel wire 1-8, a steel wire shaft 1-9, a connecting plate 1-10, a support column 1-11, a ventilation port 1-12, a ventilation cover 1-13, a ventilation motor 1-14, an impeller 1-15, a grid frame 1-16, a ventilation plate 1-17, a sliding connector 1-18, two baffles 1-1, the baffle 1-1 is fixed on the upper part of the supporting seat 2, the chute 1-2 is positioned on the inner side of the baffle 1-1, the protective roll 1-3 is in sliding fit with the chute 1-2, the protective roll 1-3 is connected with the scroll 1-6, the protective roll 1-3 is connected with the pulling rod 1-7, the rolling motor 1-4 is fixed on the outer side of the baffle 1-1, the rolling motor 1-4 is connected with the scroll 1-6, the two ends of the transmission rod 1-5 are in sliding fit with the pillar 1-11, one end of the transmission rod 1-5 is connected with the steel wire shaft 1-9, one end of the transmission rod 1-5 is connected with the scroll 1-6, the scroll 1-6 is in sliding fit with the baffle 1-1, the two ends of the pulling rod 1-7 are in sliding fit with the chute 1-2, the steel wire 1-8 is positioned inside the chute 1-2, one end of a steel wire 1-8 is connected with a steel wire shaft 1-9, one end of the steel wire 1-8 is connected with a sliding connector 1-18, two steel wire shafts 1-9 are arranged, the steel wire shafts 1-9 are in sliding fit with baffle plates 1-1, a connecting plate 1-10 is fixed between the two baffle plates 1-1, four support columns 1-11 are arranged, the support columns 1-11 are positioned at the outer sides of the baffle plates 1-1, vent holes 1-12 are positioned on the baffle plates 1-1, vent covers 1-13 are fixed at the outer sides of the vent holes 1-12, vent motors 1-14 are fixed at the outer sides of the vent covers 1-13, impellers 1-15 are fixed on rotating shafts of the vent motors 1-14, grid frames 1-16 are annular, and grid frames 1-16 are fixed at the inner sides of the vent holes 1-12, the number of the air permeable plates 1-17 is two, the air permeable plates 1-17 are positioned at the inner sides of the grating frames 1-16, the air permeable plates 1-17 are connected with the grating frames 1-16, the number of the sliding connectors 1-18 is two, and the sliding connectors 1-18 are connected with the two ends of the pulling rod 1-7. Connecting a rolling motor 1-4 into a circuit, starting the rolling motor 1-4, enabling the rolling motor 1-4 to rotate to drive a scroll 1-6 to rotate, releasing a protective roll 1-3, meanwhile, enabling the scroll 1-6 to rotate to drive a transmission rod 1-5 to rotate, enabling the transmission rod 1-5 to drive a steel wire shaft 1-9 to rotate, enabling the steel wire shaft 1-9 to rotate to roll up a steel wire 1-8, enabling the steel wire 1-8 to drive a sliding connector 1-18 to move along a sliding chute 1-2, enabling the sliding connector 1-18 to drive a pulling rod 1-7 to move, and enabling the pulling rod 1-7 to drive the protective roll 1-3 to be unfolded; starting the air permeable motors 1-14, rotating the air permeable motors 1-4 to drive the impellers 1-15 to rotate, blowing air into the impellers 1-15 in proper amount, and pushing the air permeable plates 1-17 to open by the air to blow the air into the impellers; when the pulling rod 1-7 reaches the other side of the sliding chute 1-2, the rolling motor 1-4 is stopped.
The third concrete implementation mode:
the following describes the present embodiment with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, and the present embodiment further describes the first embodiment, 3. the support seat 2 includes a support plate 2-1, a moving plate 2-2, a lower support frame 2-3, a stop bar 2-4, and a driving mechanism 2-5, a sliding slot is formed at the lower portion of the support plate 2-1, the support plate 2-1 is slidably engaged with the lower support frame 2-3, the moving plate 2-2 is located at the upper portion of the lower support frame 2-3, the lower portion of the moving plate 2-3 is fixed with the base 3, the stop bar 2-4 is connected with the support plate 2-1, the driving mechanism 2-5 is connected with the lower support frame 2-3, the driving mechanism 2-5 is connected with the support plate 2-1, and the driving mechanism 2-5 is connected with the movable plate 2-2; the support plate 2-1 comprises a plate frame 2-1-1, a connecting block 2-1-2, a sliding rail 2-1-3, a lower support 2-1-4 and an upper support 2-1-5, wherein the plate frame 2-1-1 is U-shaped, the plate frame 2-1-1 is positioned at the upper part of the lower support 2-3, the connecting block 2-1-2 is fixed with the sliding rail 2-1-3, the connecting block 2-1-2 is fixed with a driving mechanism 2-5, the sliding rail 2-1-3 is provided with two sliding rails, the sliding rail 2-1-3 is fixed at the lower part of the frame plate 2-1-1, the lower support 2-1-4 is provided with two sliding rails, the lower support 2-1-4 is fixed at two ends of the frame plate 2-1-1, two upper supports 2-1-5 are arranged, and the upper supports 2-1-5 are connected with the stop bars 2-4; the moving plate 2-2 comprises a human body supporting plate 2-2-1, rollers 2-2-2, supporting ribs 2-2-3 and telescopic connecting rods 2-2-4, the lower part of the human body supporting plate 2-2-1 is provided with a supporting frame, the human body supporting plate 2-2-1 is positioned at the upper part of the lower supporting frame 2-3, four rollers 2-2-2 are arranged, two rollers 2-2-2 are positioned at the lower part of the human body supporting plate 2-2-1, supporting ribs 2-2-3 are fixed at the lower part of the human body supporting plate 2-2-1, two telescopic connecting rods 2-2-4 are arranged, the telescopic connecting rods 2-2-4 are fixed at the lower part of the human body supporting plate 2-2-1, and the lower parts of the telescopic connecting rods 2-2-4 are connected with a driving framework 2-5; the stop strip 2-4 comprises two rotating frames 2-4-1, two belts 2-4-2, two windproof stop strips 2-4-3, two springs 2-4-4, a furling motor 2-4-5, two corner belts 2-4-6, two corner shafts 2-4-7, two corner driving shafts 2-4-8, two tensioning shafts 2-4-9 and two rotating shafts 2-4-10, the rotating frames 2-4-1 are fixed with the rotating shafts 2-4-10, the rotating frames 2-4-1 are contacted with the supporting plate 2-1, the belts 2-4-2 are provided, the belts 2-4-2 are connected with the windproof stop strips 2-4-3, the belt 2-4-2 is connected with a furling motor 2-4-5, the number of windproof shelves 2-4-3 is two, the windproof shelves 2-4-3 is connected with a rotating frame 2-4-1, the number of springs 2-4-4 is four, the lower part of the spring 2-4-4 is connected with the rotating frame 2-4-1, the upper part of the spring 2-4-4 is connected with the windproof shelves 2-4-3, the number of furling motors 2-4-5 is two, the furling motor 2-4-5 is fixed at the outer side of the rotating frame 2-4-1, the furling motor 2-4-5 is connected with the belt 2-4-2, the number of corner belts 2-4-6 is two, the upper parts of the corner belts 2-4-6 are connected with the rotating shafts 2-4-10, the lower parts of the corner belts 2-4-6 are connected with the corner shafts 2-4-7, the corner shafts 2-4-7 are connected with the lower support 2-1-4, the corner shafts 2-4-7 are connected with the corner driving shafts 2-4-8, the corner shafts 2-4-7 are connected with the motor, the corner driving shafts 2-4-8 are connected with the lower support 2-1-4, the tensioning shafts 2-4-9 are positioned at one end of the rotating frame 2-4-1, the tensioning shafts 2-4-9 are in rotating fit with the rotating frame 2-4-1, two rotating shafts 2-4-10 are arranged, the rotating shafts 2-4-10 are fixed with the rotating frame 2-4-1, the rotating shaft 2-4-10 is connected with the upper bracket 2-1-5; the driving mechanism 2-5 comprises a fixed plate 2-5-1, a rotating rod 2-5-2, a connecting rod 2-5-3, a threaded rod 2-5-4, a motor 2-5-5, a supporting plate connecting slide block 2-5-6, a middle slide block 2-5-7, a human body supporting plate connecting block 2-5-8, a rotating pin 2-5-9, a lower shaft rod 2-5-10 and a driving motor 2-5-11, wherein the fixed plate 2-5-1 is cuboid, the fixed plate 2-5-1 is fixed at the lower part of the lower supporting frame 2-3, two rotating rods 2-5-2 are arranged, the rotating rods 2-5-2 are positioned inside the lower supporting frame 2-3, and the rotating rods 2-5-2 are connected with the threaded rod 2-5-4, the connecting rod 2-5-3 is positioned at the lower part of the fixed plate 2-5-1, the connecting rod 2-5-3 is connected with the rotating rod 2-5-2, two ends of the threaded rod 2-5-4 are connected with the lower support frame 2-3, the motor 2-5-5 is connected with the connecting rod 2-5-3, the motor 2-5-5 is fixed at the lower part of the fixed plate 2-5-1, the support plate connecting slide block 2-5-6 is in threaded fit with the threaded rod 2-5-4, one side of the support plate connecting slide block 2-5-6 is fixed with the connecting block 2-1-2, the middle slide block 2-5-7 is in sliding fit with the lower support frame 2-3, a hole is processed at the middle part of the middle slide block 2-5-7, the human body supporting plate connecting block 2-5-8 and the middle sliding block 2-5-7 are fixed together, the middle part of the human body supporting plate connecting block 2-5-8 is provided with a hole, the human body supporting plate connecting block 2-5-8 is in threaded fit with the threaded rod 2-5-4, two rotating pins 2-5-9 are arranged, the rotating pins 2-5-9 are in rotating fit with the middle sliding block 2-5-7, the rotating pins 2-5-9 are in rotating fit with the human body supporting plate connecting block 2-5-9, the upper parts of the rotating pins 2-5-9 are provided with grooves, the upper parts of the rotating pins 2-5-9 are connected with the telescopic connecting rod 2-2-4, the lower shaft levers 2-5-10 are connected with the middle sliding block 2-5-7, the lower shaft lever 2-5-10 is connected with the human body supporting plate connecting block 2-5-8, the lower shaft lever 2-5-10 is connected with the rotating pin 2-5-9, the driving motor 2-5-11 is fixed on the side surface of the human body supporting plate connecting block 2-5-8, and the driving motor 2-5-11 is connected with the lower rotating shaft 2-5-10. Under the action of the spring 2-4-4, the windproof barrier strip 2-4-3 is pressed on the unfolded protective roll 1-3; when the furling motor 2-4-5 is started, the furling motor 2-4-5 rotates to drive the belt 2-4-2 to rotate, the belt 2-4-2 drives the windproof barrier strip 2-4-3 to rotate, the windproof barrier strip 2-4-3 is pulled up, and the windproof barrier strip is separated from the protective roll 1-3; the motor drives the corner shaft 2-4-7 to rotate, the corner shaft 2-4-7 rotates to drive the corner driving shaft 2-4-8 to rotate, the corner driving shaft 2-4-8 drives the other corner shaft 2-4-7 to rotate, the corner shaft 2-4-7 drives the corner belt 2-4-6 to rotate, the corner belt 2-4-6 drives the rotating shaft 2-4-10 to rotate, the rotating shaft 2-4-10 drives the rotating frame 2-4-1 to rotate, and the stop strip 2-4 is lifted; connecting the motor 2-5-5 into the circuit, starting the motor 2-5-5, rotating the motor 2-5-5 to drive the connecting rod 2-5-3 to rotate, driving the rotating rod 2-5-2 to rotate, driving the threaded rod 2-5-2 to rotate, driving the supporting plate connecting slide block 2-5-6 to move by the threaded rod 2-5-4, driving the connecting block 2-1-2 to move by the supporting plate connecting slide block 2-5-6, driving the plate frame 2-1-1 to move by the connecting block 2-1-2, driving the plate frame 2-1-1 to move by the other threaded rod 2-5-4, driving the human body supporting plate connecting block 2-5-8 to move reversely by the human body supporting plate connecting block 2-5-8, and driving the upper human body supporting plate 2-5-5 -1 movement is separation of the body support plate 2-2-1 from the support plate 2-1; when the driving motor 2-5-11 rotates to drive the lower shaft lever 2-5-10 to rotate, the lower shaft lever 2-5-10 drives the rotating pin 2-5-9 to rotate, and the rotating pin 2-5-9 rotates to rotate the groove at the upper part to a vertical position, so that the human body supporting plate 2-2-1 can be separated.
The fourth concrete implementation mode:
the embodiment is 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, and fig. 16, and the embodiment further describes the embodiment, where the base 3 includes a sliding support 3-1, a stand 3-2, a sliding sleeve 3-3, a driving screw 3-4, a synchronizing screw 3-5, an anti-slip leg 3-6, a moving support 3-7, an anti-slip rotating rod 3-8, an anti-slip synchronizing rod 3-9, a guard motor 3-10, an anti-slip belt 3-11, a square leg 3-12, and a pulley 3-13, the sliding support 3-1 is U-shaped, the stand 3-2 is provided with two stands 3-2 fixed on the upper portion of the sliding support 3-1, two sliding sleeves 3-3 are provided, the upper part of the sliding sleeve 3-3 is fixed with a lower support frame 2-3, threaded holes are provided inside the sliding sleeve 3-3, two groups of driving screws 3-4 are provided, each group is provided with two groups, the lower part of the driving screw 3-4 is connected with a vertical frame 3-2, the middle part of the driving screw 3-4 is in threaded fit with the sliding sleeve 3-3, a synchronous screw 3-5 is connected with the driving screw 3-4, one end of the synchronous screw 3-5 is connected with a motor, four anti-slip legs 3-6 are provided, the anti-slip legs 3-6 are in threaded fit with a sliding support 3-1, four moving supports 3-7 are provided, the moving supports 3-7 are in sliding fit with the sliding support 3-1, and two anti-slip rotating rods 3-8 are provided, the anti-skid rotating rod 3-8 is connected with the anti-skid legs 3-6, the anti-skid rotating rod 3-8 is connected with the anti-skid synchronous rod 3-9, the anti-skid synchronous rod 3-9 is connected with the sliding support 3-1, the anti-skid synchronous rod 3-9 is connected with the anti-skid belt 3-11, the protection motor 3-10 is fixed on the upper portion of the sliding support 3-1, the protection motor 3-10 is connected with the anti-skid belt 3-11, the square legs 3-12 are in sliding fit with the sliding support 3-1, the square legs 3-12 are connected with the protection legs 3-6, four pulleys 3-13 are arranged, and the pulleys 3-13 are connected with the moving support 3-7. Connecting a protection motor 3-10 into a circuit, wherein the rotation of the protection motor 3-10 drives an anti-skid belt 3-11 to rotate, the rotation of the anti-skid belt 3-11 drives an anti-skid synchronous rod 3-9 to rotate, the rotation of the anti-skid synchronous rod 3-9 drives an anti-skid leg 3-6 to rotate, and the lifting of the anti-skid leg 3-6 drives a square leg 3-12 to lift; the motor rotates to drive the synchronous screw rods 3-5 to rotate, the synchronous screw rods 3-5 drive the driving screw rods 3-4 to rotate, and the driving screw rods 3-4 drive the sliding sleeves 3-3 to move up and down, so that the upper mechanism is driven to lift.
The fifth concrete implementation mode:
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 and 16, and the present embodiment further describes that the rear portion of the air-permeable plate 1-17 is provided with a stopper contacting the rear portion of the grill 1-16.
The sixth specific implementation mode:
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, and fig. 16, and the present embodiment further describes the first embodiment, in which the human body supporting plate 2-2-1 is flush with the upper surface of the plate frame 2-1-1.
The working principle of the device is as follows: 1 protective cover working principle: connecting a rolling motor 1-4 into a circuit, starting the rolling motor 1-4, enabling the rolling motor 1-4 to rotate to drive a scroll 1-6 to rotate, releasing a protective roll 1-3, meanwhile, enabling the scroll 1-6 to rotate to drive a transmission rod 1-5 to rotate, enabling the transmission rod 1-5 to drive a steel wire shaft 1-9 to rotate, enabling the steel wire shaft 1-9 to rotate to roll up a steel wire 1-8, enabling the steel wire 1-8 to drive a sliding connector 1-18 to move along a sliding chute 1-2, enabling the sliding connector 1-18 to drive a pulling rod 1-7 to move, and enabling the pulling rod 1-7 to drive the protective roll 1-3 to be unfolded; starting the air permeable motors 1-14, rotating the air permeable motors 1-4 to drive the impellers 1-15 to rotate, blowing air into the impellers 1-15 in proper amount, and pushing the air permeable plates 1-17 to open by the air to blow the air into the impellers; when the pulling rod 1-7 reaches the other side of the sliding chute 1-2, the rolling motor 1-4 is stopped.
2, the working principle of the supporting seat is as follows: under the action of the spring 2-4-4, the windproof barrier strip 2-4-3 is pressed on the unfolded protective roll 1-3; when the furling motor 2-4-5 is started, the furling motor 2-4-5 rotates to drive the belt 2-4-2 to rotate, the belt 2-4-2 drives the windproof barrier strip 2-4-3 to rotate, the windproof barrier strip 2-4-3 is pulled up, and the windproof barrier strip is separated from the protective roll 1-3; the motor drives the corner shaft 2-4-7 to rotate, the corner shaft 2-4-7 rotates to drive the corner driving shaft 2-4-8 to rotate, the corner driving shaft 2-4-8 drives the other corner shaft 2-4-7 to rotate, the corner shaft 2-4-7 drives the corner belt 2-4-6 to rotate, the corner belt 2-4-6 drives the rotating shaft 2-4-10 to rotate, the rotating shaft 2-4-10 drives the rotating frame 2-4-1 to rotate, and the stop strip 2-4 is lifted; connecting the motor 2-5-5 into the circuit, starting the motor 2-5-5, rotating the motor 2-5-5 to drive the connecting rod 2-5-3 to rotate, driving the rotating rod 2-5-2 to rotate, driving the threaded rod 2-5-2 to rotate, driving the supporting plate connecting slide block 2-5-6 to move by the threaded rod 2-5-4, driving the connecting block 2-1-2 to move by the supporting plate connecting slide block 2-5-6, driving the plate frame 2-1-1 to move by the connecting block 2-1-2, driving the plate frame 2-1-1 to move by the other threaded rod 2-5-4, driving the human body supporting plate connecting block 2-5-8 to move reversely by the human body supporting plate connecting block 2-5-8, and driving the upper human body supporting plate 2-5-5 -1 movement is separation of the body support plate 2-2-1 from the support plate 2-1; when the driving motor 2-5-11 rotates to drive the lower shaft lever 2-5-10 to rotate, the lower shaft lever 2-5-10 drives the rotating pin 2-5-9 to rotate, and the rotating pin 2-5-9 rotates to rotate the groove at the upper part to a vertical position, so that the human body supporting plate 2-2-1 can be separated.
3, the working principle of the base is as follows: connecting a protection motor 3-10 into a circuit, wherein the rotation of the protection motor 3-10 drives an anti-skid belt 3-11 to rotate, the rotation of the anti-skid belt 3-11 drives an anti-skid synchronous rod 3-9 to rotate, the rotation of the anti-skid synchronous rod 3-9 drives an anti-skid leg 3-6 to rotate, and the lifting of the anti-skid leg 3-6 drives a square leg 3-12 to lift; the motor rotates to drive the synchronous screw rods 3-5 to rotate, the synchronous screw rods 3-5 drive the driving screw rods 3-4 to rotate, and the driving screw rods 3-4 drive the sliding sleeves 3-3 to move up and down, so that the upper mechanism is driven to lift.
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.