Disclosure of Invention
The invention relates to gauze bandage processing equipment, in particular to gauze bandage processing equipment used in an operating room.
In order to solve the technical problem, the invention relates to gauze bandage treatment equipment, in particular to gauze bandage treatment equipment for an operating room, which comprises an installation supporting plate, a feeding device, a power transmission device, a smashing and scattering device and a cleaning and drying device, wherein the used gauze bandage is pushed forwards through the feeding device, the power transmission device provides power for feeding and smashing and scattering, the smashing and scattering device cuts and scatters the gauze bandage fed by the feeding device, and the cleaning and drying device cleans, calculates, dries and discharges the scattered gauze bandage and is characterized in that: the feeding device is fixedly arranged on the stirring and scattering device, the power transmission device is fixedly arranged on the stirring and scattering device, the stirring and scattering device is fixedly arranged on the cleaning and drying device, and the cleaning and drying device is fixedly arranged on the mounting support plate.
As a further optimization of the technical scheme, the feeding device for the operating room gauze bandage treatment equipment comprises a feeding box, a feeding roller mounting frame, a rotating shaft, a crushing belt wheel, a feeding roller, a fixed cylinder, a spring, a sliding plate, a connecting rod, a transmission shaft, a transmission belt wheel, a transmission belt wheel I, a tensioning cylinder mounting frame, a tensioning cylinder, a spring I, a sliding plate I, a connecting square rod, a tensioning wheel mounting seat and a tensioning wheel, wherein the feeding roller mounting frame is slidably mounted inside the feeding box, the rotating shaft is rotatably mounted on the feeding roller mounting frame, the crushing belt wheel is mounted and fixed on the rotating shaft, the feeding roller is mounted and fixed on the rotating shaft, the fixed cylinder is mounted and fixed inside the feeding box, the spring is slidably mounted inside the fixed cylinder, the sliding plate is slidably mounted inside the fixed cylinder, the connecting rod is mounted and fixed on the feeding roller mounting frame, the transmission shaft rotates and installs on the feed roll mounting bracket, driving pulley installation is fixed on the transmission shaft, driving belt installs at driving pulley and stirs garrulous band pulley, driving pulley installation is fixed on the transmission shaft, driving belt installs on driving pulley and take-up pulley, tensioning section of thick bamboo mounting bracket installation is fixed on the feed box, tensioning section of thick bamboo installation is fixed on tensioning section of thick bamboo mounting bracket, spring suit is on connecting the square pole, sliding plate slidable mounting is inside tensioning section of thick bamboo, connecting the square pole installation and fixing on sliding plate one, take-up pulley mount pad installation is fixed on connecting the square pole, the take-up pulley rotates and installs on the take-up pulley mount pad.
As a further optimization of the technical scheme, the power transmission device for the operating room gauze bandage treatment equipment comprises a motor, an output belt wheel, a transmission belt II, a transmission belt III, a driving shaft, a receiving belt wheel III, an output belt wheel III, a driving gear, a driven shaft, a driven gear, an output belt wheel IV and a mounting plate, wherein the output belt wheel II is fixedly arranged on the motor, the transmission belt II is fixedly arranged on the output belt wheel and the receiving belt wheel III, the transmission belt III is arranged on the output belt wheel, the driving shaft is rotatably arranged on the mounting plate, the receiving belt wheel III is fixedly arranged on the driving shaft, the transmission belt I is arranged on the output belt wheel III, the output belt wheel III is fixedly arranged on the driving shaft, the driving gear is fixedly arranged on the driving shaft, the driven shaft is rotatably arranged on the mounting plate, the driven gear is fixedly arranged on the driven shaft, and the driven gear is meshed with the driving gear, the first transmission belt is installed on the fourth output belt wheel, and the fourth output belt wheel is installed and fixed on the driven shaft.
As a further optimization of the technical scheme, the stirring and scattering device for the gauze bandage treatment equipment in the operating room comprises a fixed scattering cylinder, a feeding hole, a discharging hole, a rotating shaft four, a receiving belt wheel five, a scattering knife, a connecting rod four, a lower knife, a transmission shaft four, a transmission gear four, a rotating inner toothed ring, a connecting outer rod and an upper knife, a feeding box is fixedly installed on the fixed scattering cylinder, the feeding hole is formed in the fixed scattering cylinder, the discharging hole is formed in the fixed scattering cylinder, the rotating shaft four is rotatably installed on the fixed scattering cylinder, a transmission belt three is installed on the receiving belt wheel five, the receiving belt wheel five is fixedly installed on the rotating shaft four, the scattering knife is fixedly installed on the rotating shaft four, the connecting rod four is fixedly installed on the rotating shaft four, the lower knife is fixedly installed on the scattering knife and the connecting rod four, the transmission shaft four is rotatably installed on the fixed scattering cylinder, the transmission gear four is fixedly installed on the transmission shaft four, the transmission gear IV is respectively meshed with the rotating shaft IV and the rotating inner toothed ring, the rotating inner toothed ring is rotatably installed on the fixed scattering cylinder, the connecting outer rod is fixedly installed on the rotating inner toothed ring, and the upper cutter is fixedly installed on the connecting outer rod.
As a further optimization of the technical scheme, the cleaning and drying device for the operating room gauze bandage treatment equipment comprises a cleaning cylinder, a feed inlet five, a motor five, a bevel gear, a rotating shaft five, a receiving bevel gear, a mounting ring, a stirring push plate, a material pushing plate, a mounting frame five, a fixed outer cylinder, an output bevel gear five, a mounting plate five, an output shaft five, a receiving bevel gear five, a spiral discharge plate, a fixed hole cylinder, a drying cylinder, an air pump, a heating box and a connecting air pipe, wherein the mounting plate is fixedly arranged on the cleaning cylinder, the fixed scattering cylinder is fixedly arranged on the cleaning cylinder, the cleaning cylinder is fixedly arranged on the mounting support plate, the feed inlet five is arranged on the cleaning cylinder, the motor five is fixedly arranged on the mounting support plate, the bevel gear is fixedly arranged on the motor five, the rotating shaft five is rotatably arranged on the cleaning cylinder and the fixed outer cylinder, and the bevel gear is meshed with the receiving bevel gear, the receiving bevel gear is fixedly installed on the fifth rotating shaft, the mounting ring is fixedly installed on the fifth rotating shaft, the stirring pushing plate is fixedly installed on the mounting ring, the pushing plate is fixedly installed on the fifth rotating shaft, the fifth mounting frame is fixedly installed inside the cleaning barrel, the fifth fixing outer barrel is fixedly installed on the fifth mounting frame, the fifth output bevel gear is fixedly installed on the fifth rotating shaft, the fifth mounting plate is fixedly installed on the cleaning barrel, the fifth output shaft is rotatably installed on the fifth mounting plate, the fifth receiving bevel gear is fixedly installed on the fifth output shaft, the spiral discharging plate is fixedly installed on the fifth output shaft, the fixed hole barrel is fixedly installed on the cleaning barrel, the drying barrel is fixedly installed on the fixed hole barrel, the air pump is fixedly installed on the cleaning barrel, the heating box is fixedly installed on the cleaning barrel, and the connecting air pipe is fixedly installed on the drying barrel, the air pump and the heating box.
As a further optimization of the technical scheme, the number of the feeding roller mounting frames of the feeding device for the operating room gauze bandage processing equipment is two, eighteen rotating shafts, stirring belt wheels and feeding rollers are provided, and two fixed cylinders, two springs, two sliding plates, two connecting rods, two transmission shafts, two transmission belt wheels, two transmission belts, two tensioning cylinder mounting frames, two tensioning cylinders, two spring wheels, two sliding plates, two connecting square rods, two tensioning wheel mounting seats and two tensioning wheels are provided.
The gauze bandage treatment equipment for the operating room has the beneficial effects that:
the invention relates to gauze bandage processing equipment, in particular to gauze bandage processing equipment for an operating room, which realizes the functions of pushing a used gauze bandage forwards through a feeding device, providing power for feeding, crushing and scattering by a power transmission device, cutting and scattering the gauze bandage fed by the feeding device by a crushing and scattering device, cleaning, drying and discharging the scattered gauze bandage after cleaning and calculation by a cleaning and drying device, and the like.
Detailed Description
The first embodiment is as follows:
in order to solve the technical problems, the invention relates to a gauze bandage processing device, in particular to a gauze bandage processing device for an operating room, which comprises an installation supporting plate 1, a feeding device 2, a power transmission device 3, a smashing and scattering device 4 and a cleaning and drying device 5, wherein the used gauze bandage is pushed forwards through the feeding device, the power transmission device provides power for feeding and smashing and scattering, the smashing and scattering device cuts and scatters the gauze bandage fed by the feeding device, and the cleaning and drying device cleans, calculates, dries and discharges the scattered gauze bandage, and is characterized in that: the feeding device 2 is fixedly arranged on the smashing and scattering device 4, the power transmission device 3 is fixedly arranged on the smashing and scattering device 4, the smashing and scattering device 4 is fixedly arranged on the cleaning and drying device 5, and the cleaning and drying device 5 is fixedly arranged on the mounting support plate 1.
The second embodiment is as follows:
the embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, and the embodiment is further described, wherein the feeding device 2 comprises a feeding box 2-1, a feeding roller mounting frame 2-2, a rotating shaft 2-3, a mincing belt wheel 2-4, a feeding roller 2-5, a fixed cylinder 2-6, a spring 2-7, a sliding plate 2-8, a connecting rod 2-9, a transmission shaft 2-10, a transmission belt wheel 2-11, a transmission belt 2-12, a transmission belt wheel 2-13, a transmission belt wheel 2-14, a tensioning cylinder mounting frame 2-15, a tensioning cylinder 2-16, a spring 1-17, a sliding plate 2-18, a connecting square rod 2-19, a feeding rod 2-4, a mincing belt wheel 2-4, a feeding roller mounting frame 2-5, a spring 2-7, a sliding rod 2-10, a transmission belt 2-11, a transmission belt 2-12, a transmission belt wheel 2-13, a transmission belt 2-14, a tensioning cylinder mounting frame 2-15, a tensioning cylinder 2-16, a spring 2-17, a connecting square rod 2-18, a connecting square rod 2-19, a connecting rod, a, 2-20 parts of a tensioning wheel mounting seat and 2-21 parts of a tensioning wheel, wherein a first transmission belt wheel 2-13 drives a transmission shaft 2-10 to rotate, the transmission shaft 2-10 drives a transmission belt wheel 2-11 to rotate, the transmission belt wheel 2-11 drives a crushing belt wheel 2-4 to rotate through a transmission belt 2-12, the crushing belt wheel 2-4 drives a rotating shaft 2-3 to rotate, the rotating shaft 2-3 drives a feed roller 2-5 to rotate to push gauze and bandages in the feeding box 2-1 forwards, when too much gauze and bandages are added, the feed roller mounting frame 2-2 drives the feed roller 2-5 to move outwards and simultaneously drives the connecting rod 2-9 to move, the connecting rod 2-9 drives a sliding plate 2-8 to move and compresses a spring 2-7 in a fixed cylinder 2-6, meanwhile, the feeding roller mounting rack 2-2 drives the transmission shaft 2-10 to move together and the springs 2-17 in the tensioning cylinders 2-16 change the positions of the sliding plates 2-18 on the connecting square rods 2-19 so that the copper drum connecting square rods 2-19 change the positions of the tensioning wheels 2-21 on the tensioning wheel mounting seats 2-20 to keep the transmission belts 2-14 tensioned, the feeding roller mounting rack 2-2 is slidably mounted in the feeding box 2-1, the rotating shaft 2-3 is rotatably mounted on the feeding roller mounting rack 2-2, the crushing belt wheel 2-4 is fixedly mounted on the rotating shaft 2-3, the feeding roller 2-5 is fixedly mounted on the rotating shaft 2-3, the fixed cylinder 2-6 is fixedly mounted in the feeding box 2-1, and the springs 2-7 are slidably mounted in the fixed cylinders 2-6, a sliding plate 2-8 is slidably arranged in a fixed cylinder 2-6, a connecting rod 2-9 is fixedly arranged on a feeding roller mounting frame 2-2, a transmission shaft 2-10 is rotatably arranged on the feeding roller mounting frame 2-2, a transmission belt wheel 2-11 is fixedly arranged on the transmission shaft 2-10, a transmission belt 2-12 is arranged on the transmission belt wheel 2-11 and a mincing belt wheel 2-4, a transmission belt wheel 2-13 is fixedly arranged on the transmission shaft 2-10, a transmission belt wheel 2-14 is arranged on the transmission belt wheel 2-13 and a tension pulley 2-21, a tension cylinder mounting frame 2-15 is fixedly arranged on a feeding box 2-1, a tension cylinder 2-16 is fixedly arranged on a tension cylinder mounting frame 2-15, a spring I2-17 is sleeved on a connecting square rod 2-19, the sliding plate I2-18 is slidably installed inside the tensioning cylinder II 2-16, the connecting square rod II 2-19 is fixedly installed on the sliding plate I2-18, the tensioning wheel installation seat II 2-20 is fixedly installed on the connecting square rod II 2-19, and the tensioning wheel II 2-21 is rotatably installed on the tensioning wheel installation seat II 2-20.
The third concrete implementation mode:
the embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, and the embodiment further describes the embodiment, where the power transmission device 3 includes a motor 3-1, an output pulley 3-2, a transmission belt two 3-3, a transmission belt three 3-4, a driving shaft 3-5, a receiving pulley three 3-6, an output pulley three 3-7, a driving gear 3-8, a driven shaft 3-9, a driven gear 3-10, an output pulley four 3-11, and a mounting plate 3-12, gauze and bandage to be treated are added into a feeding box 2-1 of the feeding device 2, and then the motor 3-1 of the power transmission device 3 drives the output pulley 3-2 to rotate, the output belt wheel 3-2 drives the receiving belt wheel three 3-6 to rotate through the transmission belt two 3-3, the receiving belt wheel three 3-6 drives the driving shaft 3-5 to rotate, the driving shaft 3-5 drives the output belt wheel three 3-7 and the driving gear 3-8 to rotate, the driving gear 3-8 drives the driven gear 3-10 to rotate, the driven gear 3-10 drives the driven shaft 3-9 to rotate, the driven shaft 3-9 drives the output belt wheel four 3-11 to rotate, the output belt wheel 3-2 drives the receiving belt wheel five 4-5 of the crushing and scattering device 4 to rotate through the transmission belt three 3-4, the output belt wheel three 3-7 and the output belt wheel four 3-11 drive the transmission belt wheel one 2-13 to rotate through the transmission belt one 2-14 of the feeding device 2, an output belt wheel 3-2 is fixedly arranged on a motor 3-1, a transmission belt II 3-3 is arranged on the output belt wheel 3-2 and a receiving belt wheel III 3-6, a transmission belt III 3-4 is arranged on the output belt wheel 3-2, a driving shaft 3-5 is rotatably arranged on a mounting plate 3-12, the receiving belt wheel III 3-6 is fixedly arranged on a driving shaft 3-5, a transmission belt I2-14 is arranged on the output belt wheel III 3-7, an output belt wheel III 3-7 is fixedly arranged on the driving shaft 3-5, a driving gear 3-8 is fixedly arranged on the driving shaft 3-5, a driven shaft 3-9 is rotatably arranged on the mounting plate 3-12, a driven gear 3-10 is fixedly arranged on a driven shaft 3-9, and the driven gear 3-10 is meshed with the driving gear 3-8, the first transmission belt 2-14 is arranged on the fourth output belt wheel 3-11, and the fourth output belt wheel 3-11 is fixedly arranged on the driven shaft 3-9.
The fourth concrete implementation mode:
the embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17. the embodiment further describes the first embodiment, the crushing and scattering device 4 includes a fixed scattering cylinder 4-1, a feeding port 4-2, a discharging port 4-3, a rotating shaft four 4-4, a receiving belt wheel five 4-5, a scattering knife 4-6, a connecting rod four 4-7, a lower knife 4-8, a driving shaft four 4-9, a driving gear four 4-10, a rotating inner gear ring 4-11, a connecting outer rod 4-12, and an upper knife 4-13, then the gauze and the bandage enter the fixed scattering cylinder 4-1 through the feeding port 4-2, then the receiving belt wheel five 4-5 drives the rotating shaft four 4-4 to rotate, the rotating shaft four 4-4 drives the scattering knife 4-6 and the lower knife 4-8 to rotate, the rotating shaft four 4-4 drives the rotating inner toothed ring 4-11 to rotate through the transmission gear four 4-10, the rotating inner toothed ring 4-11 drives the upper knife 4-13 to rotate through the connecting outer rod 4-12 and rotates in the direction opposite to the rotating direction of the lower knife 4-8 to cut the gauze bandage, then the scattering knife 4-6 breaks the gauze bandage into pieces which enter the cleaning cylinder 5-1 of the cleaning and drying device 5 through the discharge port 4-3, the feeding box 2-1 is fixedly arranged on the fixed scattering cylinder 4-1, the feeding port 4-2 is arranged on the fixed scattering cylinder 4-1, the discharge port 4-3 is arranged on the fixed scattering cylinder 4-1, the rotating shaft four 4-4 is rotatably arranged on the fixed scattering cylinder 4-1, a third transmission belt 3-4 is arranged on a fifth receiving belt wheel 4-5, the fifth receiving belt wheel 4-5 is fixedly arranged on a fourth rotating shaft 4-4, a scattering knife 4-6 is fixedly arranged on the fourth rotating shaft 4-4, a fourth connecting rod 4-7 is fixedly arranged on the fourth rotating shaft 4-4, a lower knife 4-8 is fixedly arranged on the scattering knife 4-6 and the fourth connecting rod 4-7, a fourth transmission shaft 4-9 is rotatably arranged on a fixed scattering cylinder 4-1, a fourth transmission gear 4-10 is fixedly arranged on the fourth transmission shaft 4-9, the fourth transmission gear 4-10 is respectively meshed with the fourth rotating shaft 4-4 and a rotating inner gear ring 4-11, the rotating inner gear ring 4-11 is rotatably arranged on the fixed scattering cylinder 4-1, and a connecting outer rod 4-12 is fixedly arranged on the rotating inner gear ring 4-11, the upper knife 4-13 is fixed on the connecting outer rod 4-12.
The fifth concrete implementation mode:
the present embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, and 17, and the present embodiment further describes the first embodiment, where the cleaning and drying device 5 includes a cleaning cylinder 5-1, a feed inlet five 5-2, a motor five 5-3, a bevel gear 5-4, a rotation shaft five 5-5, a receiving bevel gear 5-6, a mounting ring 5-7, a stirring and pushing plate 5-8, a material pushing plate 5-9, a mounting frame five 5-10, a fixed outer cylinder 5-11, an output bevel gear five 5-12, a mounting plate five 5-13, an output shaft five 5-14, a receiving bevel gear five 5-15, a spiral discharging plate 5-16, a fixed bore cylinder 5-17, a drying cylinder 5-18, an air pump 5-19, and a screw pump 5-13, 5-20 parts of a heating box and 5-21 parts of a connecting air pipe, then 5-3 parts of a motor drive a bevel gear 5-4 to rotate, 5-4 parts of a rotating shaft 5-5 to rotate, 5-5 parts of the rotating shaft drive a stirring push plate 5-8 to stir and clean, after cleaning and tightening, 5-3 parts of the motor drive the bevel gear 5-4 to rotate reversely, then 5-4 parts of the bevel gear drive the rotating shaft five 5-5 to rotate, 5-5 parts of the rotating shaft drive a material pushing plate 5-9 to rotate to lift the mixed solution in a fixed outer cylinder 5-11 to a fixed hole cylinder 5-17, then 5-5 parts of the rotating shaft drive a receiving bevel gear five 5-15 to rotate through a five output bevel gear 5-12, 5-15 parts of the receiving bevel gear five drive an output shaft five 5-14 to rotate, the output shaft five 5-14 drives the spiral discharging plate 5-16 to rotate in the fixed hole cylinder 5-17 to push the cloth scrap in the solution forward to fall back to the cleaning cylinder 5-1 through the hole, then the air pump 5-19 heats the air through the heating box 5-20 and dries the air in the drying cylinder 5-18, the mounting plate 3-12 is installed and fixed on the cleaning cylinder 5-1, the fixed scattering cylinder 4-1 is installed and fixed on the cleaning cylinder 5-1, the cleaning cylinder 5-1 is installed and fixed on the mounting support plate 1, the feeding port five 5-2 is arranged on the cleaning cylinder 5-1, the motor five 5-3 is installed and fixed on the mounting support plate 1, the bevel gear 5-4 is installed and fixed on the motor five 5-3, the rotating shaft five 5-5 is installed on the cleaning cylinder 5-1 and the fixed outer cylinder 5-11 in a rotating way, the bevel gears 5-4 are meshed with the receiving bevel gears 5-6, the receiving bevel gears 5-6 are fixedly arranged on a five 5-5 rotating shaft, a mounting ring 5-7 is fixedly arranged on the five 5-5 rotating shaft, a stirring pushing plate 5-8 is fixedly arranged on the mounting ring 5-7, a material pushing plate 5-9 is fixedly arranged on the five 5-5 rotating shaft, a five 5-10 mounting frame is fixedly arranged inside a cleaning cylinder 5-1, a five 5-11 fixed outer cylinder is fixedly arranged on the five 5-10 mounting frame, a five 5-12 output bevel gear is fixedly arranged on the five 5-5 rotating shaft, a five 5-13 mounting plate is fixedly arranged on the 5-1 cleaning cylinder, a five 5-14 output shaft is rotatably arranged on a five 5-13 mounting plate, and a five 5-15 receiving bevel gear is fixedly arranged on a five 5-14 output shaft, the spiral discharging plate 5-16 is fixedly arranged on the output shaft five 5-14, the fixed hole cylinder 5-17 is fixedly arranged on the cleaning cylinder 5-1, the drying cylinder 5-18 is fixedly arranged on the fixed hole cylinder 5-17, the air pump 5-19 is fixedly arranged on the cleaning cylinder 5-1, the heating box 5-20 is fixedly arranged on the cleaning cylinder 5-1, and the connecting air pipe 5-21 is fixedly arranged on the drying cylinder 5-18, the air pump 5-19 and the heating box 5-20.
The sixth specific implementation mode:
referring to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17 for describing the present embodiment, the present embodiment further describes an embodiment two, the number of the feeding roller mounting frames 2-2 of the feeding device 2 is two, the number of the rotating shafts 2-3, the mincing pulleys 2-4 and the feeding rollers 2-5 are eighteen, the number of the fixed cylinders 2-6, the springs 2-7, the sliding plates 2-8, the connecting rods 2-9, the transmission shafts 2-10, the transmission pulleys 2-11, the transmission belts 2-12, the transmission pulleys one 2-13, the transmission belts one 2-14, the tensioning cylinder mounting frames 2-15, the tensioning cylinders 2-16, the springs one 2-17, the sliding plates one 2-18, the connecting square rods 2-19, the tension force generated by the tensioning belt 2-6, the springs 2-7, the connecting rods 2-8, the connecting rods 2-9, the transmission shafts 2-10, the transmission belt 2-11, the transmission belt 2-12, the transmission belt one transmission belt 2-13, the tensioning belt one transmission belt 2-14, the tensioning cylinder mounting frames 2-15, the tensioning cylinder mounting frames 2-16, the tensioning cylinder 2-16, the connecting square rods 2-17, and the connecting square rods 2-19, The number of the tensioning wheel mounting seats 2-20 and the number of the tensioning wheels 2-21 are two.
The working principle of the invention is as follows:
a working principle of gauze bandage treatment equipment for an operating room is that before use, whether the connection condition between devices meets requirements is checked, gauze and bandage to be treated are added into a feeding box 2-1 of a feeding device 2, then a motor 3-1 of a power transmission device 3 drives an output belt wheel 3-2 to rotate, the output belt wheel 3-2 drives a receiving belt wheel three 3-6 to rotate through a transmission belt two 3-3, the receiving belt wheel three 3-6 drives a driving shaft 3-5 to rotate, the driving shaft 3-5 drives an output belt wheel three 3-7 and a driving gear 3-8 to rotate, the driving gear 3-8 drives a driven gear 3-10 to rotate, the driven gear 3-10 drives a driven shaft 3-9 to rotate, and the driven shaft 3-9 drives an output belt wheel four 3-11 to rotate, the output belt wheel 3-2 drives the receiving belt wheel five 4-5 of the stirring and scattering device 4 to rotate through the transmission belt three 3-4, the output belt wheel three 3-7 and the output belt wheel four 3-11 drive the transmission belt wheel one 2-13 to rotate through the transmission belt one 2-14 of the feeding device 2, the transmission belt wheel one 2-13 drives the transmission shaft 2-10 to rotate, the transmission shaft 2-10 drives the transmission belt wheel 2-11 to rotate, the transmission belt wheel 2-11 drives the stirring belt wheel 2-4 to rotate through the transmission belt 2-12, the stirring belt wheel 2-4 drives the rotating shaft 2-3 to rotate, the rotating shaft 2-3 drives the feeding roller 2-5 to rotate to push the gauze and the bandage in the feeding box 2-1 forwards, and when too much gauze and bandage is added, the feeding roller mounting rack 2-2 drives the feeding roller 2-5 to move outwards and simultaneously drives the feeding roller mounting rack 2-5 to rotate 2 pushing the connecting rod 2-9 to move, the connecting rod 2-9 driving the sliding plate 2-8 to move and compressing the spring 2-7 in the fixed cylinder 2-6, at the same time, the feed roller mounting frame 2-2 driving the transmission shaft 2-10 to move together and the spring 2-17 in the tensioning cylinder 2-16 changing the position of the sliding plate 2-18 on the connecting square rod 2-19 so that the bronze drum connecting square rod 2-19 changes the position of the tensioning wheel 2-21 on the tensioning wheel mounting seat 2-20 to keep the tensioning of the transmission belt 2-14, then the gauze and the bandage enter the fixed scattering cylinder 4-1 through the feed port 4-2, then the receiving belt wheel five 4-5 driving the rotating shaft four 4-4 to rotate, the rotating shaft four 4-4 driving the scattering knife 4-6 and the lower knife 4-8 to rotate, the rotating shaft IV 4-4 drives the rotating inner gear ring 4-11 to rotate through the transmission gear IV 4-10, the rotating inner gear ring 4-11 drives the upper knife 4-13 to rotate through the connecting outer rod 4-12 and cuts the gauze bandage in the direction opposite to the rotating direction of the lower knife 4-8, then the scattering knife 4-6 breaks the gauze bandage into pieces which enter the cleaning cylinder 5-1 of the cleaning and drying device 5 through the discharge port 4-3, then the motor V5-3 drives the bevel gear 5-4 to rotate, the bevel gear 5-4 drives the rotating shaft V5-5 to rotate, the rotating shaft V5-5 drives the stirring and pushing plate 5-8 to stir and clean, after the cleaning is tight, the motor V5-3 drives the bevel gear 5-4 to rotate reversely, then the bevel gear 5-4 drives the rotating shaft V5-5 to rotate, the rotating shaft five 5-5 drives the material pushing plate 5-9 to rotate, mixed solution is lifted upwards in the fixed outer cylinder 5-11 to enter the fixed hole cylinder 5-17, then the rotating shaft five 5-5 drives the receiving bevel gear five 5-15 to rotate through the output bevel gear five 5-12, the receiving bevel gear five 5-15 drives the output shaft five 5-14 to rotate, the output shaft five 5-14 drives the spiral discharging plate 5-16 to rotate in the fixed hole cylinder 5-17, cloth scraps in the solution push the solution forwards to fall back to the cleaning cylinder 5-1 through holes, and then the air pump 5-19 heats air through the heating box 5-20 and dries the air in the drying cylinder 5-18.
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.