CN114345891A

CN114345891A - Gypsum strip recovery processing device for orthopedics

Info

Publication number: CN114345891A
Application number: CN202111515420.XA
Authority: CN
Inventors: 周素云
Original assignee: Individual
Current assignee: Nanjing Xingqi Nanyong Technology Development Co ltd
Priority date: 2021-12-13
Filing date: 2021-12-13
Publication date: 2022-04-15
Anticipated expiration: 2041-12-13
Also published as: CN114345891B

Abstract

The invention relates to a processing device, in particular to a gypsum strip recovery processing device for orthopedics. The invention provides a recovery processing device for orthopedic gypsum strips, which can automatically filter, feed and intermittently discharge materials. The utility model provides an orthopedics is with gypsum strip recovery processing device, is equipped with transport mechanism including shell, blade, transport mechanism, segmentation mechanism and rubbing crusher structure, the inside upside of shell, is equipped with segmentation mechanism on the transport mechanism, and segmentation mechanism is connected with the shell, is equipped with the blade in the segmentation mechanism, and blade and shell cooperation, shell inboard are equipped with rubbing crusher structure, and rubbing crusher structure is connected with transport mechanism. According to the invention, the segmenting mechanism and the crushing mechanism are arranged, the segmenting mechanism operates and enables the blade to intermittently move downwards, so that gypsum strips are segmented and cut, and then the crushing mechanism is used for crushing the crushed gypsum strips, so that the effect of automatic crushing is achieved, and the operation is time-saving and labor-saving.

Description

Gypsum strip recovery processing device for orthopedics

Technical Field

The invention relates to a processing device, in particular to a gypsum strip recovery processing device for orthopedics.

Background

Orthopedics mainly uses medicine, operation and physical method to keep and develop the normal form and the function of skeletal muscle system, and the sick and wounded of skeletal muscle system of treatment, in orthopedic patient's treatment, need to use gypsum strip to fix patient's wound position, at present, the gypsum strip that the doctor used is calcined for natural gypsum to form, evenly sprinkle white powder gypsum powder on the bandage that has certain specification, make the bandage roll into gypsum strip again, current processing apparatus when retrieving medical gypsum, need carry out shredding to the gypsum strip of retrieving, however current processing apparatus is not complete enough when smashing gypsum, and then be unfavorable for people to retrieve gypsum, in addition current processing apparatus need artifical manual material loading when handling gypsum strip, and then easy cutter cuts, it is unsafe.

Patent application CN112403594A, the publication date is 2021.02.26, discloses a be used for orthopedics gypsum recovery processing device, including organism, push down spout, time delay spout, half arc arm, worm wheel pivot, rotation swing arm, drive worm wheel, drive worm and motor etc. when needs retrieve the gypsum, start broken motor to drive the left side broken pivot clockwise turns, the right side broken pivot anticlockwise rotation, thereby drives the left side broken cylinder clockwise turns, the right side broken cylinder anticlockwise turns to carry out the breakage to the gypsum that falls, however the device can not filter kibbling gypsum granule to be not convenient for people to retrieve the gypsum.

Therefore, the gypsum strip recycling device for orthopedics department, which can automatically filter and feed materials and can automatically discharge materials intermittently, is urgently needed to be designed.

Disclosure of Invention

In order to overcome the defects of incomplete crushing, unsafe operation and inconvenience of the conventional treatment device, the invention aims to provide the recovery treatment device for the gypsum strips for the orthopedics department, which can automatically filter, automatically feed and automatically discharge intermittently.

The purpose of the invention is realized by adopting the following technical scheme:

the utility model provides an orthopedics is with gypsum strip recovery processing device, is equipped with transport mechanism including shell, blade, transport mechanism, segmentation mechanism and rubbing crusher structure, the inside upside of shell, is equipped with segmentation mechanism on the transport mechanism, and segmentation mechanism is connected with the shell, is equipped with the blade in the segmentation mechanism, and blade and shell cooperation, shell inboard are equipped with rubbing crusher structure, and rubbing crusher structure is connected with transport mechanism.

Preferably, the inboard rotary type in shell upper portion is connected with four first pivots, all be equipped with the gyro wheel in four first pivots, be connected with first conveyer belt between the gyro wheel of upper portion both sides, be connected with second conveyer belt between the gyro wheel of lower part both sides, all be equipped with two spur gears in two first pivots of one side that is close to the blade, the straight gear intermeshing that upper and lower both sides correspond, the shell inboard is equipped with first fixed cover, servo motor is installed to first fixed cover inboard, all be equipped with first belt pulley on servo motor's the output shaft and the first pivot of one side, be connected with first flat belt between two first belt pulleys.

Preferably, two bumps are arranged on the first rotating shaft on the upper side of the rear portion, two fixing rods are arranged on the shell, the blade is connected with the two fixing rods in a sliding mode, first springs are wound on the two fixing rods, the first springs are connected between the blade and the shell, two sliding blocks are arranged on the blade, and the sliding blocks are matched with the bumps.

Preferably, the shell inboard is equipped with the fixed cover of second, the fixed cover inboard of second is equipped with two crushing barrels, the inboard equal rotary type in two crushing barrel upper portions is equipped with the second pivot, the second pivot of one side and servo motor's output shaft, all be equipped with the second belt pulley in the second pivot of opposite side and the first pivot of one side, be connected with the flat belt of second between the second belt pulley of upper and lower both sides, the inboard equal rotary type of two crushing barrels is equipped with the third pivot, be connected with bevel gear group between the inboard and close third pivot of second pivot, bevel gear group's quantity is two, all be equipped with four powder fragments in two third pivots, two third pivot lower parts all are equipped with helical blade, helical blade is connected with the crushing barrel rotary type.

Preferably, the shell is provided with two guide grooves, the bottoms of the two crushing barrels are respectively provided with a first fixed block, the inner sides of the two first fixed blocks are respectively provided with a first striker plate in a sliding manner, the first striker plates are matched with the crushing barrels and are connected with the guide grooves in a sliding manner, the inner sides of the two first striker plates are respectively provided with two first guide rods, the first guide rods are connected with the first fixed blocks in a sliding manner, second springs are wound on the four first guide rods and are connected between the first guide rods and the first fixed blocks, first slide rods are arranged on the two guide grooves in a sliding manner and are connected with the first striker plates, third springs are wound on the two guide grooves and are connected between the first slide rods and the guide grooves, the second fixed sleeve is provided with a second fixed block, the second fixed block is rotatably provided with two rotating blocks, and the rotating blocks are connected with the first slide rods at the same side, torsion springs are wound on the two rotating blocks and connected between the second fixing block and the rotating blocks, two pressing rods are arranged on the inner side of the upper portion of the shell and matched with the rotating blocks and the sliding blocks, fourth springs are wound on the two pressing rods, and the fourth springs are connected between the pressing rods and the shell.

Preferably, the inside two filters that are equipped with of shell, the filter is located the crushing barrel below, be connected with the deflector between two filters, the deflector is connected with the shell, all be equipped with on two first striker plates and draw the piece, sliding connection has the push pedal between two filters, two filter inboards all are equipped with the second guide bar, second guide bar and push pedal sliding connection, all around having the fifth spring on two second guide bars, fifth spring coupling is between push pedal and second guide bar, be equipped with two sloping blocks in the push pedal, sloping block and draw the piece cooperation.

Preferably, a material storage frame is connected between the filter plate and the shell in a sliding manner, a third fixing block is arranged on the material storage frame, a second material retaining plate is arranged on the inner side of the third fixing block in a sliding manner, the second material retaining plate is matched with the material storage frame, a second sliding rod is arranged on the upper side of the second material retaining plate, the second sliding rod is connected with the third fixing block in a sliding manner, a sixth spring is wound on the second sliding rod, and the sixth spring is connected between the third fixing block and the second material retaining plate.

Preferably, the filter plate functions to filter gypsum particles.

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

1. according to the automatic feeding device, the conveying mechanism is arranged, the conveying mechanism operates and drives the gypsum strips to move backwards, and then the blades cut the gypsum strips, so that the effect of automatic feeding is achieved;

2. according to the automatic gypsum strip smashing machine, the segmenting mechanism and the smashing mechanism are arranged, the segmenting mechanism operates and enables the blades to intermittently move downwards, so that gypsum strips are segmented and cut, then the smashing mechanism smashes smashed gypsum strips, the automatic smashing effect is achieved, and the operation is time-saving and labor-saving;

3. the automatic intermittent discharge mechanism is provided with the swing mechanism, and the swing mechanism operates to enable gypsum particles in the crushing barrel to intermittently flow downwards, so that the effect of automatic intermittent discharge is achieved;

4. according to the invention, the pushing mechanism and the storage mechanism are arranged, the pushing mechanism operates and filters gypsum particles, and then the storage mechanism stores and collects the screened gypsum particles, so that the effects of automatic filtration and automatic collection are achieved.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic sectional perspective view of the present invention.

Fig. 3 is a schematic view of a first cross-sectional three-dimensional structure of the conveying mechanism of the present invention.

Fig. 4 is a schematic diagram of a second cross-sectional three-dimensional structure of the conveying mechanism of the present invention.

Fig. 5 is a schematic sectional perspective view of the segmenting mechanism of the present invention.

Fig. 6 is a schematic view of a first sectional three-dimensional structure of the pulverizing mechanism of the present invention.

Fig. 7 is a schematic diagram of a second sectional three-dimensional structure of the pulverizing mechanism of the present invention.

Fig. 8 is a first sectional perspective view of the swing mechanism of the present invention.

Fig. 9 is a schematic diagram of a first three-dimensional structure of the swing mechanism of the present invention.

Fig. 10 is a schematic diagram of a second sectional three-dimensional structure of the swing mechanism of the present invention.

Fig. 11 is a second perspective view of the swing mechanism of the present invention.

Fig. 12 is a perspective view of the pushing mechanism of the present invention.

Fig. 13 is a schematic structural view of the pushing mechanism of the present invention.

Fig. 14 is a schematic sectional perspective view of a part of the storing mechanism of the invention.

Fig. 15 is a schematic perspective view of the storing mechanism of the present invention.

Wherein: 1-housing, 2-blade, 3-conveying mechanism, 31-first rotating shaft, 32-roller, 33-first conveying belt, 34-second conveying belt, 35-spur gear, 36-first fixing sleeve, 37-servo motor, 38-first belt pulley, 39-first flat belt, 4-segmentation mechanism, 41-bump, 42-fixing rod, 43-first spring, 44-slider, 5-crushing mechanism, 51-second fixing sleeve, 52-crushing cylinder, 53-second rotating shaft, 54-second belt pulley, 55-second flat belt, 56-third rotating shaft, 57-bevel gear group, 58-crushing sheet, 59-helical blade, 6-swinging mechanism, 61-guide groove, 62-first fixing block, 63-a first striker plate, 64-a first guide bar, 65-a second spring, 66-a third spring, 67-a first slide bar, 68-a second fixed block, 69-a rotating block, 610-a torsion spring, 611-a press bar, 612-a fourth spring, 7-a pushing mechanism, 71-a filter plate, 72-a guide plate, 73-a pulling block, 74-a pushing plate, 75-a second guide bar, 76-a fifth spring, 77-a skew block, 8-a storage mechanism, 81-a storage frame, 82-a third fixed block, 83-a second striker plate, 84-a second slide bar, 85-a sixth spring.

Detailed Description

The invention will be further described with reference to the accompanying drawings and the detailed description below:

the device for recovering and processing plaster bar for orthopedics as shown in fig. 1-15 comprises a shell 1, a blade 2, a transmission mechanism 3, a first rotating shaft 31, a roller 32, a first transmission belt 33, a second transmission belt 34, a spur gear 35, a first fixing sleeve 36, a servo motor 37, a first flat belt 39, a first belt pulley 38, a segmenting mechanism 4, a convex block 41, a fixing rod 42, a first spring 43, a slide block 44, a crushing mechanism 5, a second fixing sleeve 51, a crushing cylinder 52, a second rotating shaft 53, a second belt pulley 54, a second flat belt 55, a third rotating shaft 56, a bevel gear set 57, a crushing sheet 58, a helical blade 59, a swing mechanism 6, a guide groove 61, a first fixing block 62, a first material baffle 63, a first guide rod 64, a second spring 65, a third spring 66, a first sliding rod 67, a second fixing block 68, a rotating block 69, a torsion spring 610, a compression rod 611, a compression rod, a

second fixing block

610, 611, a compression rod, a second fixing rod, a second spring 6, a second spring 6, a second fixing rod, a fixing rod, the crushing device comprises a fourth spring 612, a pushing mechanism 7, a filter plate 71, a guide plate 72, a pull block 73, a push plate 74, a second guide rod 75, a fifth spring 76, an inclined block 77, a material storage mechanism 8, a material storage frame 81, a third fixing block 82, a second material blocking plate 83, a second sliding rod 84 and a sixth spring 85, wherein a conveying mechanism 3 is arranged on the upper side inside a shell 1, a segmenting mechanism 4 is arranged on the conveying mechanism 3, the segmenting mechanism 4 is connected with the shell 1, a blade 2 is arranged on the segmenting mechanism 4, the blade 2 is matched with the shell 1, a crushing mechanism 5 is arranged on the rear portion of the inner side of the shell 1, and the crushing mechanism 5 is connected with the conveying mechanism 3.

When people need to recycle gypsum strips used by patients in an orthopedic department, firstly, people put the gypsum strips into the conveying mechanism 3 one by one, then the conveying mechanism 3 operates, the conveying mechanism 3 moves the gypsum strips backwards, simultaneously, the conveying mechanism 3 operates the segmenting mechanism 4, and further, the blade 2 intermittently moves downwards, so as to segment and cut the gypsum strips, then the cut gypsum strips slide downwards from the shell 1 to the crushing mechanism 5 due to gravity, then the conveying mechanism 3 operates the crushing mechanism 5, and further, the cut gypsum strips are crushed, people collect crushed gypsum particles, so that the purpose of processing the gypsum strips is achieved, after the processing work of the gypsum strips is finished, people stop the operation of the conveying mechanism 3, stop the operation of the segmenting mechanism 4 and the crushing mechanism 5, and stop the movement of the blade 2, if the equipment is used again, the steps are repeated.

As a preferred embodiment, four first rotating shafts 31 are rotatably connected to the inner side of the upper portion of the housing 1, rollers 32 are disposed on the four first rotating shafts 31, first transmission belts 33 are connected between the rollers 32 on the front and rear sides of the upper portion, second transmission belts 34 are connected between the rollers 32 on the front and rear sides of the lower portion, spur gears 35 are disposed on the left and right sides of the first rotating shafts 31 on the upper and lower sides of the rear portion, the corresponding spur gears 35 on the upper and lower sides are engaged with each other, a first fixing sleeve 36 is disposed on the rear portion of the right side of the top portion of the inner side of the housing 1, a servo motor 37 is mounted on the inner side of the first fixing sleeve 36, first belt pulleys 38 are disposed on the output shaft of the servo motor 37 and on the right portion of the first rotating shaft 31 on the upper side of the rear portion, and a first flat belt 39 is connected between the two first belt pulleys 38.

In a preferred embodiment, the left and right sides of the first rotating shaft 31 on the upper side of the rear portion are provided with protrusions 41, the left and right sides of the upper portion of the housing 1 are provided with fixing rods 42, the blade 2 is slidably connected with the two fixing rods 42, the two fixing rods 42 are wound with first springs 43, the first springs 43 are connected between the blade 2 and the housing 1, the left and right sides of the front portion of the blade 2 are provided with sliders 44, and the sliders 44 are engaged with the protrusions 41.

As a preferred embodiment, a second fixing sleeve 51 is provided at the rear part of the inner side of the housing 1, two crushing cylinders 52 are provided at the inner side of the second fixing sleeve 51, a second rotating shaft 53 is rotatably provided at the inner side of the upper part of each of the two crushing cylinders 52, the second rotating shaft 53 at the right side is connected with the output shaft of the servo motor 37, a second pulley 54 is provided at the left side of the second rotating shaft 53 at the left side and at the left side of the first rotating shaft 31 at the lower side of the rear part, a second flat belt 55 is connected between the second pulleys 54 at the upper and lower sides, a third rotating shaft 56 is rotatably provided at the inner side of each of the two crushing cylinders 52, a bevel gear set 57 is connected between the inner side of the second rotating shaft 53 and the adjacent third rotating shaft 56, the number of the bevel gear set 57 is two, four pieces of powder pieces 58 are provided at each of the two third rotating shafts 56, a helical blade 59 is provided at the lower part of each of the two third rotating shafts 56, and the helical blade 59 is rotatably connected with the crushing cylinder 52.

As a preferred embodiment, the left and right sides of the lower part of the rear side inside the shell 1 are provided with guide grooves 61, the bottoms of the two crushing cylinders 52 are provided with first fixing blocks 62, the inner sides of the two first fixing blocks 62 are provided with first baffle plates 63 in a sliding manner, the first baffle plates 63 are matched with the crushing cylinders 52, the first baffle plates 63 are connected with the guide grooves 61 in a sliding manner, the inner sides of the two first baffle plates 63 are provided with two first guide rods 64, the first guide rods 64 are connected with the first fixing blocks 62 at the same side in a sliding manner, the four first guide rods 64 are wound with second springs 65, the second springs 65 are connected between the first guide rods 64 and the first fixing blocks 62, the two guide grooves 61 are provided with first slide rods 67 in a sliding manner, the first slide rods 67 are connected with the first baffle plates 63, the two guide grooves 61 are wound with third springs 66, the third springs 66 are connected between the first slide rods 67 and the guide grooves 61, the front side of the second fixing sleeve 51 is provided with a second fixing block 68, the left side and the right side of the second fixing block 68 are respectively rotatably provided with a rotating block 69, the rotating block 69 is connected with the first sliding rod 67 on the same side, two rotating blocks 69 are respectively wound with a torsion spring 610, the torsion spring 610 is connected between the second fixing block 68 and the rotating block 69, the inner side of the upper part of the shell 1 is provided with two pressing rods 611, the pressing rods 611 are matched with the rotating blocks 69 and the sliding block 44, the two pressing rods 611 are respectively wound with a fourth spring 612, and the fourth spring 612 is connected between the pressing rods 611 and the shell 1.

As a preferred embodiment, two filter plates 71 are arranged at the lower part of the rear side inside the shell 1, the filter plates 71 are positioned below the crushing barrel 52, a guide plate 72 is connected between the front sides of the two filter plates 71, the guide plate 72 is connected with the shell 1, pull blocks 73 are arranged on the outer sides of the two first material blocking plates 63, a push plate 74 is connected between the two filter plates 71 in a sliding manner, second guide rods 75 are arranged on the inner sides of the two filter plates 71, the second guide rods 75 are connected with the push plate 74 in a sliding manner, fifth springs 76 are wound on the two second guide rods 75, the fifth springs 76 are connected between the push plate 74 and the second guide rods 75, oblique blocks 77 are arranged on the left side and the right side of the push plate 74, and the oblique blocks 77 are matched with the pull blocks 73.

As a preferred embodiment, a storage frame 81 is slidably connected between the filter plate 71 and the housing 1, a third fixed block 82 is disposed at the rear side of the storage frame 81, a second stopper 83 is slidably disposed at the inner side of the third fixed block 82, the second stopper 83 is engaged with the storage frame 81, a second slide rod 84 is disposed at the upper side of the second stopper 83, the second slide rod 84 is slidably connected with the third fixed block 82, a sixth spring 85 is wound on the second slide rod 84, and the sixth spring 85 is connected between the third fixed block 82 and the second stopper 83.

People put the plaster strips on the top of the second conveying belt 34 on the lower side one by one, simultaneously people start the servo motor 37, the output shaft of the servo motor 37 rotates to drive the first belt pulley 38 on the lower side to rotate, and further the first flat belt 39 rotates, so that the first belt pulley 38 on the upper side rotates, and further the first rotating shaft 31 on the lower side of the rear part rotates, and further the roller 32 on the lower side of the rear part and the two straight gears 35 on the lower side rotate, and the roller 32 on the lower side of the rear part rotate to drive the second conveying belt 34 to rotate, and further the roller 32 on the lower side of the front part rotate, so that the first rotating shaft 31 on the lower side of the front part rotates, and further the straight gears 35 on the upper side and the lower side are meshed with each other, and the straight gears 35 on the lower side drive the straight gears 35 on the upper side to rotate, and then the first rotating shaft 31 on the upper side of the rear part rotates, and the first conveying belt 33 rotates, then the roller 32 on the upper side of the front part is rotated, so that the first rotating shaft 31 on the upper side of the front part is rotated, the first conveying belt 33 and the second conveying belt 34 are rotated to move the gypsum strips backwards, and therefore the purpose of automatic feeding is achieved, and after the processing work of the gypsum strips is finished, people turn off the servo motor 37.

The first rotating shaft 31 on the upper side of the rear part rotates the lug 41, when the convex part of the lug 41 contacts the slide block 44, the lug 41 can make the slide block 44 move downwards, so that the blade 2 moves downwards, and the plaster strip is cut, meanwhile, the first spring 43 is compressed, after the convex part of the lug 41 is separated from the slide block 44, the first spring 43 is reset, so that the slide block 44 and the blade 2 move back to the original position, and the blade 2 intermittently moves downwards, and the purpose of section cutting is achieved.

Servo motor 37's output shaft rotates the second pivot 53 that can drive the right side and rotates, the first pivot 31 of rear portion downside rotates the second belt pulley 54 that can drive the upside simultaneously and rotates, then make the flat belt 55 of second rotate, make the second belt pulley 54 of downside rotate, then make left second pivot 53 rotate, second pivot 53 rotates and can drive bevel gear group 57 and rotate, and then make third pivot 56 rotate, make crushing piece 58 and helical blade 59 rotate, crushing piece 58 rotates and stirs garrulous the garrulous gypsum strip of cutting up, then kibbling gypsum strip flows out from crushing barrel 52 bottom through helical blade 59, people collect kibbling gypsum strip again, so reached automatic kibbling purpose.

The slide block 44 moves downwards to push the pressing rod 611 to move downwards, the fourth spring 612 is compressed, the rotating block 69 is further rotated, the torsion spring 610 is compressed, the first sliding rod 67 slides backwards on the guide groove 61, the third spring 66 is compressed, the first material baffle 63 moves outwards, the first guide rod 64 moves outwards, the second spring 65 is compressed, the crushed gypsum strips in the crushing barrel 52 can flow downwards through the first material baffle 63, when the slide block 44 moves upwards, the fourth spring 612, the torsion spring 610, the third spring 66 and the second spring 65 are sequentially reset, the first material baffle 63 is restored to the original position, the crushed gypsum strips are prevented from flowing out, and the purpose of automatic intermittent discharging is achieved.

The crushed gypsum strips flowing out of the crushing cylinder 52 fall to the filter plate 71 due to gravity, the filter plate 71 filters again, in addition, the first baffle plate 63 moves outwards to drive the pull block 73 to move outwards, and further the inclined block 77 moves forwards, so that the push plate 74 moves forwards, the fifth spring 76 is compressed, when the first baffle plate 63 drives the pull block 73 to move back to the original position inwards, the fifth spring 76 resets, so that the push plate 74 and the inclined block 77 move back to the original position, the push plate 74 moves forwards and backwards and pushes the crushed gypsum strips, and therefore the crushed gypsum strips can be prevented from being accumulated on the filter plate 71, in addition, the push plate 74 moves forwards to push the incompletely crushed gypsum strips on the filter plate 71 to move forwards, then the incompletely crushed gypsum strips slide forwards along the surface of the guide plate 72 due to gravity, people collect the incompletely crushed gypsum strips again, and then carry out secondary crushing on the incompletely crushed gypsum strips, in addition, the completely crushed gypsum strips fall down through the filter plate 71 due to gravity, and then are collected by people.

The completely crushed gypsum strips fall into the storage frame 81 through the filter plate 71 due to gravity, the storage frame 81 collects the completely crushed gypsum strips, after sufficient gypsum particles are accumulated in the storage frame 81, people can manually pull the storage frame 81 forwards and pour out the gypsum particles in the storage frame 81, then people move the storage frame 81 back to the original position, or people can pull the second baffle 83 leftwards to further move the second slide bar 84 leftwards, the sixth spring 85 is stretched, the gypsum particles in the storage frame 81 can flow backwards through the second baffle 83, people collect the gypsum particles flowing out again, and after collection is completed, people loosen the second baffle 83, reset the sixth spring 85 and move the second baffle 83 back to the original position.

Various other modifications and changes may be made by those skilled in the art based on the above-described technical solutions and concepts, and all such modifications and changes should fall within the scope of the claims of the present invention.

Claims

1. The utility model provides an orthopedics is with gypsum strip recovery processing device, characterized by, including shell (1), blade (2), transport mechanism (3), segmentation mechanism (4) and rubbing crusher constructs (5), the inside upside of shell (1) is equipped with transport mechanism (3), be equipped with segmentation mechanism (4) on transport mechanism (3), segmentation mechanism (4) are connected with shell (1), be equipped with blade (2) on segmentation mechanism (4), blade (2) and shell (1) cooperation, shell (1) inboard is equipped with rubbing crusher constructs (5), rubbing crusher constructs (5) and is connected with transport mechanism (3).

2. The recovery and processing device for the gypsum lath used in the orthopedics department as claimed in claim 1, wherein four first rotating shafts (31) are rotatably connected to the inner side of the upper part of the housing (1), rollers (32) are arranged on the four first rotating shafts (31), a first conveying belt (33) is connected between the rollers (32) on the two sides of the upper part, a second conveying belt (34) is connected between the rollers (32) on the two sides of the lower part, two straight gears (35) are arranged on the two first rotating shafts (31) on one side close to the blade (2), the straight gears (35) on the upper and lower sides are meshed with each other, a first fixing sleeve (36) is arranged on the inner side of the housing (1), a servo motor (37) is arranged on the inner side of the first fixing sleeve (36), a first belt pulley (38) is arranged on the output shaft of the servo motor (37) and the first rotating shaft (31) on one side, and a first flat belt (39) is connected between the two first belt pulleys (38).

3. An orthopedic plaster bar recycling device as claimed in claim 2, wherein the first shaft (31) on the upper side of the rear portion is provided with two protrusions (41), the housing (1) is provided with two fixing rods (42), the blade (2) is slidably connected with the two fixing rods (42), the two fixing rods (42) are wound with first springs (43), the first springs (43) are connected between the blade (2) and the housing (1), the blade (2) is provided with two sliding blocks (44), and the sliding blocks (44) are matched with the protrusions (41).

4. The recovery and processing device of the gypsum strip for orthopedics department according to claim 3, characterized in that a second fixing sleeve (51) is arranged on the inner side of the shell (1), two crushing cylinders (52) are arranged on the inner side of the second fixing sleeve (51), a second rotating shaft (53) is rotatably arranged on the inner sides of the upper parts of the two crushing cylinders (52), the second rotating shaft (53) on one side is connected with the output shaft of the servo motor (37), a second belt pulley (54) is arranged on the second rotating shaft (53) on the other side and the first rotating shaft (31) on one side, a second flat belt (55) is connected between the second belt pulleys (54) on the upper side and the lower side, a third rotating shaft (56) is rotatably arranged on the inner sides of the two crushing cylinders (52), a bevel gear set (57) is connected between the inner side of the second rotating shaft (53) and the adjacent third rotating shaft (56), the number of the bevel gear set (57) is two, four pieces of the powder (58) are arranged on the two third rotating shafts (56), helical blades (59) are arranged at the lower parts of the two third rotating shafts (56), and the helical blades (59) are rotatably connected with the crushing barrel (52).

5. The recovery and treatment device for the gypsum strips used in the orthopedics department according to claim 4 is characterized in that two guide grooves (61) are arranged on the shell (1), first fixing blocks (62) are arranged at the bottoms of the two crushing cylinders (52), first baffle plates (63) are arranged on the inner sides of the two first fixing blocks (62) in a sliding mode, the first baffle plates (63) are matched with the crushing cylinders (52), the first baffle plates (63) are connected with the guide grooves (61) in a sliding mode, two first guide rods (64) are arranged on the inner sides of the two first baffle plates (63), the first guide rods (64) are connected with the first fixing blocks (62) in a sliding mode, second springs (65) are wound on the four first guide rods (64), the second springs (65) are connected between the first guide rods (64) and the first fixing blocks (62), first slide rods (67) are arranged on the two guide grooves (61) in a sliding mode, first slide bar (67) and first striker plate (63) sliding connection, all around having third spring (66) on two guide ways (61), third spring (66) are connected between first slide bar (67) and guide way (61), be equipped with second fixed block (68) on the fixed cover of second (51), second fixed block (68) go up the rotation type and are equipped with two commentaries on classics piece (69), commentaries on classics piece (69) are connected with the first slide bar (67) of homonymy, all around torsion spring (610) on two commentaries on classics piece (69), torsion spring (610) are connected between second fixed block (68) and commentaries on classics piece (69), shell (1) upper portion inboard is equipped with two depression bars (611), depression bar (611) and commentaries on classics piece (69) and slider (44) cooperation, all around fourth spring (612) on two depression bars (611), fourth spring (612) are connected between depression bar (611) and shell (1).

6. An orthopedics gypsum strip recovery processing device, according to claim 5, characterized in that, two filter plates (71) are arranged inside the shell (1), the filter plates (71) are located below the grinding cylinder (52), a guide plate (72) is connected between the two filter plates (71), the guide plate (72) is connected with the shell (1), pull blocks (73) are arranged on the two first material blocking plates (63), a push plate (74) is connected between the two filter plates (71) in a sliding manner, second guide rods (75) are arranged on the inner sides of the two filter plates (71), the second guide rods (75) are connected with the push plate (74) in a sliding manner, fifth springs (76) are wound on the two second guide rods (75), the fifth springs (76) are connected between the push plate (74) and the second guide rods (75), inclined blocks (77) are arranged on the push plate (74), and the inclined blocks (77) are matched with the pull blocks (73).

7. The recovery and processing device for the gypsum strips used in the orthopedics department according to claim 6, characterized in that a storage frame (81) is connected between the filter plate (71) and the shell (1) in a sliding manner, a third fixed block (82) is arranged on the storage frame (81), a second baffle plate (83) is arranged on the inner side of the third fixed block (82) in a sliding manner, the second baffle plate (83) is matched with the storage frame (81), a second slide rod (84) is arranged on the upper side of the second baffle plate (83), the second slide rod (84) is connected with the third fixed block (82) in a sliding manner, a sixth spring (85) is wound on the second slide rod (84), and the sixth spring (85) is connected between the third fixed block (82) and the second baffle plate (83).

8. An orthopedic gypsum strip recycling apparatus as claimed in claim 6, wherein the filter plate (71) is adapted to filter gypsum particles.