CN112827566A

CN112827566A - Medical science orthopedics is with gypsum manufacturing installation

Info

Publication number: CN112827566A
Application number: CN202110041467.0A
Authority: CN
Inventors: 罗嘉豪
Original assignee: Individual
Current assignee: Beijing Boyi Cloud Information Technology Co ltd
Priority date: 2021-01-13
Filing date: 2021-01-13
Publication date: 2021-05-25
Anticipated expiration: 2041-01-13
Also published as: CN112827566B

Abstract

The invention relates to a gypsum manufacturing device, in particular to a gypsum manufacturing device for medical orthopedics. The invention provides a medical orthopaedics gypsum manufacturing device which has higher gypsum manufacturing efficiency and can process the obtained gypsum by layers. A medical orthopaedics plaster manufacturing device comprises: the base is provided with four first support frames; the four first support frames are provided with blanking frames; the crushing mechanism is arranged on the blanking frame; the base is provided with a rotating mechanism, and the rotating mechanism is connected with the crushing mechanism. The invention achieves the effect of improving the efficiency of manufacturing the medical gypsum powder, can grind the gypsum with larger volume after being fired into the gypsum with smaller volume by matching the crushing mechanism and the rotating mechanism, saves the time of manual grinding, and achieves the effect of separately collecting the finely-divided gypsum and the larger gypsum by matching the screening mechanism and the transmission mechanism.

Description

Medical science orthopedics is with gypsum manufacturing installation

Technical Field

The invention relates to a gypsum manufacturing device, in particular to a gypsum manufacturing device for medical orthopedics.

Background

The plaster for orthopedic treatment is calcined plaster, and the plaster has large volume and is hard.

When gypsum is manually milled, the milling time is long, the efficiency is low, the produced gypsum powder is rough, the publication number is CN209005859U, and the kaolin milling device with the milling equipment is disclosed, wherein the milling equipment comprises kaolin grinding disc equipment and kaolin grinding roller equipment which are matched with each other, and the kaolin grinding disc equipment comprises a disc seat, a lining plate, a pressure ring and a pressure plate; the lining plate is annular and is fixed on the edge part of the disk seat; the pressing ring and the pressing plate are positioned in the middle of the disc seat and are matched with each other to fix the lining plate on the disc seat; the kaolin grinding roller equipment comprises a grinding roller shaft, a roller core, a transparent cover, a gland and a roller sleeve; the roller core is sleeved on the grinding roller shaft; the transparent cover and the gland are respectively fixed on two opposite side surfaces of the roller core; the through cover is sleeved on the grinding roller shaft; the gland is arranged at a position far away from the grinding roll shaft; the roller sleeve is arranged on the periphery of the roller core; the roller sleeve is arranged to be capable of contacting the lining plate. The kaolin grinding device can prepare kaolin fine powder with good particle size uniformity, but the device cannot carry out layering treatment on the ground finished product and is not suitable for grinding medical gypsum.

In view of the above, there is a need to develop a gypsum manufacturing apparatus for medical orthopedics that can not only improve the grinding efficiency of gypsum, but also perform layering treatment on the ground gypsum and make the ground gypsum finer.

Disclosure of Invention

In order to overcome the defects that the gypsum manufacturing efficiency is low and the gypsum obtained by layering treatment cannot be processed, the technical problems are as follows: provides a medical orthopaedics gypsum manufacturing device which has higher gypsum manufacturing efficiency and can process the obtained gypsum by layers.

The technical scheme is as follows: a medical orthopaedics plaster manufacturing device comprises:

the base is provided with four first support frames;

the four first support frames are provided with blanking frames;

the crushing mechanism is arranged on the blanking frame;

the base is provided with a rotating mechanism, and the rotating mechanism is connected with the crushing mechanism.

Preferably, the crushing means comprises:

the blanking frame is rotatably provided with two first rotating shafts;

the first rotating shaft is provided with a roller;

the first gear is arranged on the first rotating shaft, and the two first gears are meshed.

Preferably, the rotating mechanism includes:

the first bevel gear component is arranged on the first rotating shaft on one side;

the blanking frame is provided with a second support frame;

the second rotating shaft is rotatably arranged on the second supporting frame and is connected with the first bevel gear component;

the base is provided with two third support frames;

the middle part of the third supporting frame on one side is provided with a motor;

the two third support frames are rotatably provided with third rotating shafts, and the third rotating shafts are connected with the output shaft of the motor;

and a first belt transmission component is connected between the third rotating shaft and the second rotating shaft.

Preferably, the method further comprises the following steps:

the screening mechanism is arranged on the blanking frame;

screening mechanism including:

the blanking frame is provided with a fourth support frame;

the fourth supporting frame is rotatably provided with a screening frame;

two fifth support frames are arranged on the blanking frame;

the two fifth supporting frames are rotatably provided with a fourth rotating shaft;

two first cams are arranged on the fourth rotating shaft and matched with the screening frame;

the first spring is connected to the fifth supporting frame and is connected with the screening frame.

Preferably, the method further comprises the following steps:

the feeding frame is provided with a feeding mechanism, and the feeding mechanism is connected with the crushing mechanism and the screening mechanism;

the transmission mechanism comprises:

the blanking frame is provided with a sixth supporting frame;

the sixth supporting frame is rotatably provided with a fifth rotating shaft;

the fifth rotating shaft is provided with a second bevel gear assembly, and the second bevel gear assembly is connected with the first rotating shaft on one side;

and a second belt transmission component is connected between the fifth rotating shaft and the fourth rotating shaft.

Preferably, the method further comprises the following steps:

the base is provided with a cleaning mechanism, and the cleaning mechanism is connected with the rotating mechanism;

clean the mechanism including:

the base is provided with two first trays;

the two first trays are connected with the two first sliding rails;

the steel brush is arranged between the two first sliding rails in a sliding manner;

the steel brush is provided with a first deflector rod;

the space cam is arranged on the third rotating shaft and matched with the first deflector rod;

and the base is provided with a second tray which is matched with the steel brush.

Preferably, the method further comprises the following steps:

the first support frame is provided with a pressing mechanism, and the pressing mechanism is connected with the cleaning mechanism;

the mechanism pushes down including:

the four first support frames are provided with two press blocks in a sliding mode, and the press blocks are matched with the first tray;

the pressing block is wound with two second springs, and the second springs are connected with the pressing block and the first support frame;

the first wedge block is arranged on the pressing block;

and the steel brush is provided with two second wedge blocks which are matched with the first wedge blocks.

Preferably, the method further comprises the following steps:

the cleaning mechanism is provided with a self-locking mechanism, the self-locking mechanism is connected with the first support frame, and the self-locking mechanism is matched with the pressing mechanism;

self-locking mechanism includes:

the first support frame is provided with a sliding sleeve;

two third wedge blocks are arranged between the four sliding sleeves in a sliding mode and matched with the second wedge blocks;

the first tray is provided with two first support frames;

the eighth support frame is provided with a stop block in a sliding manner, and the stop block is matched with the pressing block;

the second deflector rod is arranged on the stop block and matched with the third wedge-shaped block;

and two third springs are connected between the eighth support frame and the stop block.

The invention has the beneficial effects that:

1. the invention achieves the effect of improving the efficiency of manufacturing the medical gypsum powder, and can grind the gypsum with larger volume after being fired into the gypsum with smaller volume through the matching of the crushing mechanism and the rotating mechanism, thereby saving the time of manual grinding.

2. The invention achieves the effect of separately collecting the fine crushed gypsum and the larger gypsum, and can screen the crushed gypsum by matching the screening mechanism and the transmission mechanism and synchronously generate the action with the gypsum grinding action.

3. The invention achieves the effect of further grinding the gypsum powder, and can further grind the screened fine gypsum through the matching of the cleaning mechanism, the pressing mechanism and the self-locking mechanism, so that the gypsum is ground more finely.

Drawings

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

Fig. 2 is a perspective view of the crushing mechanism of the present invention.

Fig. 3 is a schematic perspective view of the rotating mechanism of the present invention.

Fig. 4 is a schematic perspective view of the screening mechanism of the present invention.

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

Fig. 6 is a schematic perspective view of the cleaning mechanism of the present invention.

Fig. 7 is a schematic perspective view of the pressing mechanism of the present invention.

Fig. 8 is a schematic perspective view of the transmission mechanism of the present invention.

Description of reference numerals: 1_ base, 2_ first support frame, 3_ blanking frame, 4_ crushing mechanism, 41_ first rotating shaft, 42_ roller, 43_ first gear, 5_ rotating mechanism, 51_ first bevel gear component, 52_ second support frame, 53_ second rotating shaft, 54_ third support frame, 55_ motor, 56_ third rotating shaft, 57_ first belt transmission component, 6_ screening mechanism, 61_ fourth support frame, 62_ screening frame, 63_ fifth support frame, 64_ fourth rotating shaft, 65_ first cam, 66_ first spring, 7_ transmission mechanism, 71_ sixth support frame, 72_ fifth rotating shaft, 73_ second bevel gear component, 74_ second belt transmission component, 8_ cleaning mechanism, 81_ first tray, 82_ first slide rail, 83_ steel brush, 84_ first shift lever, 85_ space cam, 86_ second tray, 9_ pressing mechanism, 91_ pressing block, 92_ second spring, 93_ first wedge block, 94_ second wedge block, 10_ self-locking mechanism, 101_ sliding sleeve, 102_ third wedge block, 103_ eighth support frame, 104_ stop, 105_ second shift lever, 106_ third spring.

Detailed Description

The invention is further described with reference to the following figures and detailed description.

Example 1

The utility model provides a gypsum manufacturing installation is used in medical science orthopedics, as shown in figure 1, including base 1, first support frame 2, unloading frame 3, crushing mechanism 4 and rotary mechanism 5, both sides all are equipped with two first support frames 2 around the base 1, and 2 upper portion inboards of four first support frames are equipped with unloading

frame

3, and 3 middle parts of unloading frame are equipped with crushing mechanism 4, and 1 rear side of base is equipped with rotary mechanism 5, and rotary mechanism 5 is connected with crushing mechanism 4.

When the medical gypsum is manufactured, the efficiency of manually grinding the agglomerated gypsum into powder is low, the invention helps people to improve the efficiency of manufacturing the medical gypsum powder, firstly, the gypsum block is placed in the blanking frame 3, then the rotating mechanism 5 is started, the rotating mechanism 5 drives the crushing mechanism 4 to operate, the gypsum block is crushed by the crushing mechanism 4, the crushed gypsum block falls into the base 1 from the bottom of the blanking frame 3 due to gravity, after the manufacturing of the gypsum is finished, people close the rotating mechanism 5, the gypsum can be collected, and when the equipment is used again, the steps are repeated.

Example 2

On the basis of embodiment 1, as shown in fig. 2 and 3, the crushing mechanism 4 includes a first rotating shaft 41, a roller 42 and a first gear 43, two first rotating shafts 41 are rotatably disposed in the middle of the blanking frame 3, the roller 42 is disposed in the middle of the first rotating shaft 41, the roller 42 is located in the blanking frame 3, the first gear 43 is disposed at the rear of the first rotating shaft 41, and the two first gears 43 are engaged.

When crushing the gypsum cake, start rotary mechanism 5, make left first pivot 41 rotate, left first pivot 41 drives left first gear 43 and rotates, because two first gears 43 mesh, make the first gear 43 of opposite side rotate, the first gear 43 of opposite side drives right first pivot 41 and rotates, first pivot 41 drives the cylinder 42 and rotates, because two first gears 43 rotation direction is opposite, thereby two cylinders 42 rotate relatively, relative pivoted cylinder 42 crushes the gypsum cake, after the gypsum preparation is accomplished, the first pivot 41 of stall, collect the gypsum can, when using this equipment again, repeat above-mentioned step.

The rotating mechanism 5 comprises a first bevel gear component 51, a second support frame 52, a second rotating shaft 53, a third support frame 54, a motor 55, a third rotating shaft 56 and a first belt transmission component 57, the first bevel gear component 51 is arranged on the rear side of the left first rotating shaft 41, the second support frame 52 is arranged on the left side of the blanking frame 3, the second rotating shaft 53 is arranged on the rear side of the second support frame 52 in a rotating mode, the second rotating shaft 53 is connected with the first bevel gear component 51, two third support frames 54 are arranged on the rear side of the base 1, the motor 55 is arranged in the middle of the right third support frame 54, the third rotating shaft 56 is rotatably arranged on the upper portions of the two third support frames 54, the third rotating shaft 56 is connected with an output shaft of the motor 55, and the first belt transmission component 57 is connected between the third.

After the motor 55 is started, the output shaft of the motor 55 drives the third rotating shaft 56 to rotate, the third rotating shaft 56 drives the first belt transmission component 57 to rotate, the first belt transmission component 57 drives the second rotating shaft 53 to rotate, the second rotating shaft 53 drives the first bevel gear component 51 to rotate, the first bevel gear component 51 drives the left first rotating shaft 41 to rotate, the roller 42 pulverizes the gypsum blocks, the motor 55 is turned off after the gypsum is manufactured, and the steps are repeated when the device is used again.

Example 3

Based on embodiment 2, as shown in fig. 1, 4, 5, 6, 7 and 8, the present invention further includes a screening mechanism 6, the screening mechanism 6 is disposed at the lower portion of the blanking frame 3, the screening mechanism 6 includes a fourth support frame 61, a screening frame 62, a fifth support frame 63, a fourth rotating shaft 64, a first cam 65 and a first spring 66, the fourth support frame 61 is disposed at the rear side of the lower portion of the blanking frame 3, the screening frame 62 is rotatably disposed at the bottom of the fourth support frame 61, two fifth support frames 63 are disposed at the front side of the lower portion of the blanking frame 3, the fourth rotating shaft 64 is rotatably disposed at the rear side of the bottoms of the two fifth support frames 63, the first cams 65 are disposed at both left and right sides of the fourth rotating shaft 64, the first cams 65 are matched with the screening frame 62, the first spring 66 is connected to the bottoms of the fifth support frames 63, and the first spring 66 is connected to the screening frame.

The crushed gypsum falls onto the screening frame 62 due to gravity, meanwhile, the fourth rotating shaft 64 is manually rotated, the fourth rotating shaft 64 drives the first cam 65 to rotate, the first cam 65 is matched with the screening frame 62, the convex surface of the first cam 65 pushes the screening frame 62 to rotate, so that the front side of the screening frame 62 inclines downwards, the first spring 66 stretches, when the concave surface of the first cam 65 is contacted with the screening frame 62, the first cam 65 stops pushing the screening frame 62, the first spring 66 restores the initial state, the first spring 66 drives the screening frame 62 to rotate reversely, the screening frame 62 restores the horizontal state, the reciprocating is carried out in such a way, the shaking of the screening frame 62 is realized, the screening frame 62 screens the crushed gypsum, the smaller gypsum falls downwards through the through hole of the screening frame 62 due to gravity, the larger gypsum gradually moves towards the front side of the screening frame 62 in the shaking process, so that people can separately collect the crushed gypsum and the larger gypsum, after the gypsum is manufactured, the fourth rotating shaft 64 is stopped rotating, and the steps are repeated when the device is used again.

The automatic crushing device is characterized by further comprising a transmission mechanism 7, the transmission mechanism 7 is arranged on the lower portion of the blanking frame 3, the transmission mechanism 7 is connected with the crushing mechanism 4 and the screening mechanism 6, the transmission mechanism 7 comprises a sixth supporting frame 71, a fifth rotating shaft 72, a second bevel gear assembly 73 and a second belt transmission assembly 74, the sixth supporting frame 71 is arranged on the left side of the lower portion of the blanking frame 3, the fifth rotating shaft 72 is arranged on the front side of the sixth supporting frame 71 in a rotating mode, the second bevel gear assembly 73 is arranged on the right side of the fifth rotating shaft 72 and connected with the first rotating shaft 41 on the left side, and the second belt transmission assembly 74 is connected between the fifth rotating shaft 72 and the fourth rotating.

When the left first rotating shaft 41 rotates, the left first rotating shaft 41 drives the second bevel gear assembly 73 to rotate, the second bevel gear assembly 73 drives the fifth rotating shaft 72 to rotate, the fifth rotating shaft 72 drives the second belt transmission assembly 74 to rotate, so that the second belt transmission assembly 74 drives the fourth rotating shaft 64 to rotate, the rotation of the fourth rotating shaft 64 is automatic, the rotation and the gypsum grinding action are synchronous, when the left first rotating shaft 41 stops rotating, the fourth rotating shaft 64 stops rotating, when the equipment is used again, the steps are repeated.

Still including cleaning mechanism 8, the bottom is equipped with cleans mechanism 8 in base 1, clean mechanism 8 and be connected with rotary mechanism 5, clean mechanism 8 including first tray 81, first slide rail 82, the steel brush 83, first driving lever 84, space cam 85 and second tray 86, the bottom left and right sides all is equipped with first tray 81 in base 1, two first tray 81 upper portions are connected with two first slide rails 82, slidingtype is equipped with steel brush 83 between two first slide rails 82, steel brush 83 bottom rear side is equipped with first driving lever 84, third pivot 56 middle part is equipped with space cam 85, space cam 85 and first driving lever 84 cooperation, base 1 bottom middle part is equipped with second tray 86, second tray 86 and steel brush 83 cooperation.

The gypsum that the fine crushing after the screening drops to second tray 86 because of gravity reason, when third pivot 56 rotated, third pivot 56 drove space cam 85 and rotated, because space cam 85 and first driving lever 84 cooperation, space cam 85 drove first driving lever 84 and removes about, first driving lever 84 drove steel brush 83 and removes about, steel brush 83 cleans the gypsum on the second tray 86 to two first trays 81, the people of being convenient for collect, when third pivot 56 stall, make steel brush 83 stop moving, people collect the gypsum on the first tray 81 this moment can, when using this equipment once more, repeat above-mentioned step.

Still including pushing down the mechanism 9, be equipped with pushing down the mechanism 9 on the first support frame 2, pushing down the mechanism 9 and being connected with cleaning mechanism 8, pushing down the mechanism 9 including briquetting 91, second spring 92, first wedge 93 and

second wedge

94, 2 upper portions of first support frame of both sides are slided and are equipped with briquetting 91 around, briquetting 91 and the cooperation of first tray 81, briquetting 91 upper portion is around having two second springs 92, second spring 92 is connected with briquetting 91 and first support frame 2, briquetting 91 middle part is equipped with first wedge 93, both sides all are equipped with second wedge 94 around the steel brush 83 top, second wedge 94 and the cooperation of first wedge 93.

When the steel brush 83 moves left and right, the steel brush 83 drives the second wedge-shaped block 94 to move left and right, when the second wedge-shaped block 94 is matched with the first wedge-shaped block 93, the second wedge-shaped block 94 pushes the first wedge-shaped block 93 to move upwards, the first wedge-shaped block 93 drives the pressing block 91 to move upwards, the second spring 92 is stretched, meanwhile, the steel brush 83 cleans the finely-divided gypsum to the first tray 81 on the same side, when the second wedge-shaped block 94 is not matched with the first wedge-shaped block 93, the second wedge-shaped block 94 stops pushing the first wedge-shaped block 93, the second spring 92 returns to the initial state, the second spring 92 drives the pressing block 91 to move downwards, the pressing block 91 drives the first wedge-shaped block 93 to move downwards, the pressing block 91 is matched with the first tray 81, the pressing block 91 further rolls the gypsum on the first tray 81, the gypsum to be finer and finer, so that the gypsum is ground, the two pressing blocks 91 roll the gypsum regularly, and, so that the pressing block 91 stops moving, and when the apparatus is used again, the above steps are repeated.

The cleaning device is characterized by further comprising a self-locking mechanism 10, the cleaning mechanism 8 is provided with the self-locking mechanism 10, the self-locking mechanism 10 is connected with the first support frame 2, the self-locking mechanism 10 is matched with the pressing mechanism 9, the self-locking mechanism 10 comprises a sliding sleeve 101, a third wedge block 102, an eighth support frame 103, a stop dog 104, a second shifting rod 105 and a third spring 106, the sliding sleeve 101 is arranged in the middle of the first support frame 2, the third wedge block 102 is arranged between the sliding sleeves 101 on the left side and the right side in a sliding mode, the third wedge block 102 is matched with the second wedge block 94, the two eighth support frames 103 are arranged on the upper portion of the first tray 81, the stop dog 104 is arranged on the upper portion of the eighth support frame 103 in a sliding mode, the stop dog 104 is matched with the pressing block 91, the second shifting rod 105 is arranged on the outer side of the stop dog.

When the second wedge block 94 moves left and right, the second wedge block 94 firstly slides left and right in the third wedge block 102, when the second wedge block 94 moves to the leftmost side or the rightmost side in the third wedge block 102, the second wedge block 94 pushes the third wedge block 102 to move left or right, before the third wedge block 102 moves, the second deflector rod 105 and the third wedge block 102 on the side are matched with the third spring 106 to be in a stretching state, the third spring 106 on the other side is in an initial state, after the third wedge block 102 moves, the third wedge block 102 stops pushing the second deflector rod 105 on the side, the third spring 106 returns to the initial state, the third spring 106 drives the stopper 104 to move inwards, the stopper 104 drives the second deflector rod 105 to move inwards, the second deflector rod 105 on the other side is pushed outwards by the third wedge block 102, the stopper 104 on the other side moves outwards, the third spring 106 stretches, and simultaneously the pressing block 91 on the same side as the second wedge block 94 moves upwards, when the pressing block 91 moves upwards, the pressing block 91 pushes the stopper 104 to move outwards, the third spring 106 stretches, the pressing block 91 continues to move upwards, after the pressing block 91 is not matched with the stopper 104, the third spring 106 returns to the initial state, so that the stopper 104 moves inwards, when the second wedge-shaped block 94 moves towards the other side, the second wedge-shaped block 94 firstly slides in the third wedge-shaped block 102, the pressing block 91 moves downwards at the moment until the pressing block 91 is matched with the stopper 104, the stopper 104 stops the pressing block 91 to move downwards continuously, until the second wedge-shaped block 94 pushes the third wedge-shaped block 102 to move towards the other side, the third wedge-shaped block 102 pushes the second deflector rod 105 to move outwards, the second deflector rod 105 drives the stopper 104 to move outwards, the third spring 106 stretches, the stopper 104 is not matched with the pressing block 91 any more, so that the pressing block 91 moves downwards rapidly to strike the gypsum, and the pressing block 91, the pressing block 91 is prevented from falling in advance, the steel brush 83 is enabled to clean the gypsum to the position above the pressing block 91, the second wedge-shaped block 94 stops moving, the stop block 104 stops moving, and the steps are repeated when the device is used again.

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

Claims

1. A medical orthopedics gypsum manufacturing installation which characterized in that, including:

the base (1) is provided with four first support frames (2);

the four first supporting frames (2) are provided with blanking frames (3);

the crushing mechanism (4) is arranged on the blanking frame (3);

the crushing device comprises a rotating mechanism (5), wherein the rotating mechanism (5) is arranged on a base (1), and the rotating mechanism (5) is connected with a crushing mechanism (4).

2. A medical orthopaedic gypsum manufacturing apparatus according to claim 1, wherein the crushing means (4) comprises:

the first rotating shafts (41) are rotatably arranged on the blanking frame (3);

a roller (42), wherein the roller (42) is arranged on the first rotating shaft (41);

the first gear (43) is arranged on the first rotating shaft (41), and the two first gears (43) are meshed.

3. A medical orthopaedic gypsum manufacturing apparatus according to claim 2, wherein the rotating mechanism (5) comprises:

the first bevel gear component (51) is arranged on the first rotating shaft (41) on one side of the first bevel gear component (51);

the second support frame (52) is arranged on the blanking frame (3);

the second rotating shaft (53) is rotatably arranged on the second supporting frame (52), and the second rotating shaft (53) is connected with the first bevel gear component (51);

the base (1) is provided with two third supporting frames (54);

the motor (55) is arranged in the middle of the third supporting frame (54) on one side of the motor (55);

the two third support frames (54) are rotatably provided with third rotating shafts (56), and the third rotating shafts (56) are connected with the output shaft of the motor (55);

and a first belt transmission component (57) is connected between the third rotating shaft (56) and the second rotating shaft (53).

4. The medical orthopaedic gypsum manufacturing apparatus as set forth in claim 3, further comprising:

the screening mechanism (6) is arranged on the blanking frame (3);

the screening mechanism (6) comprises:

a fourth support frame (61), wherein the blanking frame (3) is provided with the fourth support frame (61);

the screening frame (62) is rotatably arranged on the fourth supporting frame (61);

the blanking frame (3) is provided with two fifth supporting frames (63);

the fourth rotating shafts (64) are rotatably arranged on the two fifth supporting frames (63);

two first cams (65) are arranged on the fourth rotating shaft (64), and the first cams (65) are matched with the screening frame (62);

the first spring (66) is connected to the fifth supporting frame (63), and the first spring (66) is connected with the screening frame (62).

5. The medical orthopaedic gypsum manufacturing apparatus as set forth in claim 4, further comprising:

the transmission mechanism (7) is arranged on the blanking frame (3), and the transmission mechanism (7) is connected with the crushing mechanism (4) and the screening mechanism (6);

the transmission mechanism (7) comprises:

a sixth supporting frame (71), wherein the blanking frame (3) is provided with the sixth supporting frame (71);

the fifth rotating shaft (72) is rotatably arranged on the sixth supporting frame (71);

the fifth rotating shaft (72) is provided with a second bevel gear assembly (73), and the second bevel gear assembly (73) is connected with the first rotating shaft (41) on one side;

and a second belt transmission assembly (74) is connected between the fifth rotating shaft (72) and the fourth rotating shaft (64).

6. The medical orthopaedic gypsum manufacturing apparatus as set forth in claim 5, further comprising:

the cleaning mechanism (8) is arranged on the base (1), and the cleaning mechanism (8) is connected with the rotating mechanism (5);

the cleaning mechanism (8) comprises:

the base (1) is provided with two first trays (81);

the two first trays (81) are connected with two first sliding rails (82);

the steel brush (83) is arranged between the two first sliding rails (82) in a sliding manner;

the first deflector rod (84) is arranged on the steel brush (83);

the space cam (85) is arranged on the third rotating shaft (56), and the space cam (85) is matched with the first driving lever (84);

and a second tray (86), wherein the base (1) is provided with the second tray (86), and the second tray (86) is matched with the steel brush (83).

7. The medical orthopaedic gypsum manufacturing apparatus as set forth in claim 6, further comprising:

the first support frame (2) is provided with a pressing mechanism (9), and the pressing mechanism (9) is connected with the cleaning mechanism (8);

the pressing mechanism (9) comprises:

the four first supporting frames (2) are provided with two pressing blocks (91) in a sliding mode, and the pressing blocks (91) are matched with the first tray (81);

the pressing block (91) is wound with two second springs (92), and the second springs (92) are connected with the pressing block (91) and the first supporting frame (2);

the first wedge-shaped block (93) is arranged on the pressing block (91);

two second wedge blocks (94) are arranged on the steel brush (83), and the second wedge blocks (94) are matched with the first wedge blocks (93).

8. The medical orthopaedic gypsum manufacturing apparatus as set forth in claim 7, further comprising:

the cleaning device comprises a self-locking mechanism (10), a cleaning mechanism (8) is provided with the self-locking mechanism (10), the self-locking mechanism (10) is connected with a first support frame (2), and the self-locking mechanism (10) is matched with a pressing mechanism (9);

the self-locking mechanism (10) comprises:

the sliding sleeve (101) is arranged on the first support frame (2);

two third wedge blocks (102) are arranged between the four sliding sleeves (101) in a sliding manner, and the third wedge blocks (102) are matched with the second wedge blocks (94);

the first tray (81) is provided with two eighth supporting frames (103);

the stop block (104) is arranged on the eighth supporting frame (103) in a sliding mode, and the stop block (104) is matched with the pressing block (91);

the second deflector rod (105) is arranged on the stop block (104), and the second deflector rod (105) is matched with the third wedge block (102);

and two third springs (106) are connected between the eighth supporting frame (103) and the stop block (104).