CN111529831A - Automatic recovery unit of medical waste transfusion system - Google Patents

Abstract

The invention discloses an automatic recovery device of a medical waste infusion apparatus, which comprises a machine body, wherein a first inlet is arranged on the machine body, two sides of the first inlet are respectively provided with a corresponding elastic pressing plate, two sides of the first inlet are respectively provided with a first clamping rotating wheel and a second clamping rotating wheel which are correspondingly clamped and rotated, a first rotating cavity which is correspondingly communicated with the first inlet is arranged in the machine body, a rotating shearing dividing disc is arranged in the first rotating cavity, a plurality of shearing sliding grooves are arranged on the rotating shearing dividing disc, shearing blocks which synchronously extrude and slide in the shearing sliding grooves are respectively arranged in the machine body, a jacking sliding groove arranged on the rotating shearing dividing disc is respectively arranged between every two adjacent shearing sliding grooves, and parts such as a control switch and the like on an infusion tube can be further sheared respectively through the sliding of the shearing blocks, thereby achieving the purpose of respective recovery and further improving the recovery utilization rate.

Description

Automatic recovery unit of medical waste transfusion system

Technical Field

The invention relates to a medical equipment processing device, in particular to an automatic cutting and recycling device for an infusion apparatus, and particularly relates to an automatic cutting and recycling device for an infusion apparatus, which can cut and recycle different structural positions of the infusion apparatus in sections.

Background

Along with the ever-increasing increase of medical instrument demand that has also further promoted simultaneously of medical treatment level, in present medical instrument, the transfusion system is one of indispensable equipment, thereby can be further through the transfusion system to patient's infusion, but just need drop into the recovery section of thick bamboo with the transfusion system after the infusion finishes, thereby carry out further processing, present recovery section of thick bamboo is the simple barrel structure mostly, treat after dropping into a section of thick bamboo with the transfusion system in the section of thick bamboo that the transfusion system fills up again and carry out concentrated transport, thereby can carry out further processing, although this kind of mode can reach the purpose of handling the transfusion system, nevertheless there is following problem at the in-process of handling:

in the process of carrying out centralized treatment on the recovery cylinder again, because manual operation is needed, the problem that a needle head of the transfusion punctures a worker can be caused, certain infection danger is further caused to the worker, and in the process of centrally treating the transfusion device, the same manual operation is needed for sorting, so certain danger is caused to the worker;

the infusion apparatus is composed of a plurality of sections of parts with different structural functions, only unified treatment can be carried out in the existing recovery treatment process, so that the problem of sectional centralized treatment cannot be achieved, the problem of low recovery treatment effect is caused, if the sections with different structural functions of the infusion apparatus are subjected to sectional recovery treatment, the recovery utilization effect of the infusion apparatus can be further ensured, the pollution of the infusion apparatus to the environment is avoided, and the utilization rate is further improved.

It is necessary to design an automatic cutting and recycling device for an infusion set to solve the above technical problems.

Disclosure of Invention

The invention aims to overcome the problems in the prior art, and provides an automatic shearing and recycling device for an infusion apparatus, which can further convey an infusion tube through the clamping rotation of a first clamping rotating wheel and a second clamping rotating wheel, can further clamp a needle of the infusion tube through the rotation of a shearing wheel, can further wind the infusion tube on a rotary shearing disc through the rotation of the rotary shearing disc, so that parts such as a control switch on the infusion tube and the like can be respectively clamped in a shearing sliding chute, so that the infusion tube can be sheared through the sliding of a shearing block, the aim of shearing can be fulfilled, and meanwhile, the parts such as the sheared control switch and the like can be pushed through a first jacking head and a second jacking head, so that the further recycling treatment can be carried out, the problem of low recovery efficiency caused by a traditional recovery mode can be avoided, and the recovery utilization rate can be further improved.

The invention is realized by the following technical scheme:

the automatic shearing and recycling device for the infusion apparatus comprises an infusion apparatus body, wherein a first inlet is formed in the infusion apparatus body, two corresponding elastic pressing plates are arranged on two sides of the first inlet respectively, a first clamping rotating wheel which is correspondingly clamped and rotated is arranged on each of two sides of the first inlet, and a second clamping rotating wheel which is correspondingly clamped is arranged on each of two sides of the first inlet. The infusion tube can be clamped by the rotation of the first clamping rotating wheel and the second clamping rotating wheel, so that the further conveying treatment can be carried out.

The machine body is internally provided with a first rotating cavity communicated with the first inlet correspondingly, a third rotating shaft rotating in the machine body is arranged in the first rotating cavity, a rotating dividing and shearing disc is arranged on the third rotating shaft, a plurality of shearing chutes are formed in the rotating dividing and shearing disc, a shearing block synchronously extruding and sliding in the shearing chutes is arranged in the machine body, two adjacent shearing chutes are formed in the shearing chutes respectively and comprise a jacking chute arranged on the rotating dividing and shearing disc, a second inlet communicated with the first inlet correspondingly is further formed in the rotating dividing and shearing disc, and two sides of the second inlet are respectively provided with a corresponding clamping and rotating shearing wheel. Can pass through the rotation of shearing wheel presss from both sides tightly the syringe needle of transfer line, utilizes simultaneously the rotation that rotates the branch shear disk can be further twine the transfer line on rotating the branch shear disk to can make positions such as control switch joint respectively be in the shearing spout, can pass through the further shearing that shears of the slip of shear block, thereby can reach the purpose of dividing the shear, thereby carry out respective recovery to different positions.

The rotary dividing and shearing machine is characterized in that a positioning rod is arranged on the rotary dividing and shearing plate, a limiting block for limiting the rotation of the positioning rod is arranged in the first rotary cavity, the positioning rod is clamped with the limiting block, the second inlet corresponds to the first inlet relatively, the shearing block slides rapidly in the shearing sliding groove, a sliding jacking plate is arranged on one side of the machine body, and a second jacking head and a first jacking head which slide transversely in the shearing sliding groove and the jacking sliding groove are respectively arranged on the jacking plate. Can pass through first top pressure head with the slip of second top pressure head, can be respectively promote positions such as control switch after will cuting to can reach recovery processing's purpose, thereby realized carrying out the purpose of retrieving respectively to different positions, avoided the beneath problem of recovery efficiency that traditional recovery mode leads to, also avoided the injury that the syringe needle led to the fact the human body simultaneously.

The other side of the machine body is respectively provided with a third inlet corresponding to the shearing chute and the jacking chute, the second jacking head and the first jacking head respectively slide in the third inlet, two third clamping rotating wheels which correspondingly clamp and rotate are respectively arranged in the third inlet, and a second storage cavity which is correspondingly communicated with the third inlet is respectively arranged in the machine body. The recycling treatment can be further performed by the rotation of the third clamping runner, so that the recycling can be completed.

Be provided with a first motor drive's first pivot in the organism, first pivot drives first tight runner of clamp and the synchronous rotation of the tight runner of second clamp, still be provided with a pivoted second pivot in the organism, first pivot drives the second pivot is rotated, the second pivot drives the shearing wheel and rotates, the second pivot drives the rotation of rotating the branch shear disk, the rotation of shearing wheel with the rotation of rotating the branch shear disk is corresponding.

Furthermore, both sides of the first inlet are provided with an eighth rotating shaft which rotates correspondingly, a ninth rotating shaft which rotates correspondingly is arranged on both sides of the first inlet, the second clamping rotating wheel and the first clamping rotating wheel are respectively arranged on the eighth rotating shaft and the ninth rotating shaft, one end of the eighth rotating shaft and one end of the ninth rotating shaft are respectively provided with a third gear which is correspondingly engaged and connected, the other end of one of the eighth rotating shaft and the ninth rotating shaft is respectively provided with a corresponding first chain wheel and a second chain wheel, the first chain wheel is correspondingly connected with the second chain wheel through a first chain, the ninth rotating shaft is respectively provided with a fourth bevel gear correspondingly meshed and connected with the first rotating shaft, and the two elastic pressing plates are obliquely arranged and correspondingly connected in an elastic pressing mode. Can pass through the jam board is suppressed the transfer line to can make the control switch on the transfer line slide to the tip, thereby can be correct the joint in the shearing spout.

Furthermore, a plurality of first sliding grooves correspondingly communicated with the first rotating cavities are arranged in the machine body, the shearing blocks respectively slide in the first sliding grooves, a first supporting sliding shaft is respectively arranged on the shearing blocks, a plurality of fourth sliding cavities are arranged in the machine body, the first supporting sliding shafts respectively slide in the fourth sliding cavities, a rotating fifth bevel gear is respectively arranged in the fourth sliding cavities, a fifth sliding hole is respectively arranged on the fifth bevel gear, the fifth sliding holes are arranged in a square shape, the first supporting sliding shafts and the fifth sliding holes are correspondingly arranged in a square shape, a fourth sliding hole is also arranged in the machine body, the fourth sliding hole is arranged in a circular ring shape, a rotating driving turntable is arranged in the fourth sliding hole, and tooth sockets correspondingly meshed with the fifth bevel gears are arranged on the driving turntable, and a third motor for driving the driving turntable to rotate is further arranged in the machine body. The fifth bevel gear can be driven to rotate simultaneously through the rotation of the driving turntable, so that the first supporting sliding shaft can be further driven to synchronously rotate.

The machine body is also internally provided with a sliding control panel corresponding to the first supporting sliding shaft, the sliding control panel is internally provided with a fifth sliding cavity respectively, the fifth sliding cavity is arranged in a circular ring shape, two sides of the fifth sliding cavity are respectively provided with a sliding extrusion block, the extrusion blocks are respectively arranged in a semicircular shape, the extrusion blocks are respectively provided with a corresponding thread groove, the first supporting sliding shaft is provided with a connecting thread corresponding to the thread groove, two sides of the sliding control panel are respectively provided with a sixth sliding cavity, the extrusion blocks are respectively provided with a third sliding shaft sliding in the sixth sliding cavity, the third sliding shaft is respectively provided with a third magnetic disc sliding in the sixth sliding cavity, the sixth sliding cavity is respectively provided with a third electromagnet magnetically attracted and connected with the third magnetic disc corresponding to the third magnetic disc, and a fifth spring for elastically pressing the extrusion block is arranged in each fifth sliding cavity, and a sixth spring for elastically pressing the shearing block is arranged in each first sliding chute. Can can pass through the circular telegram of third electro-magnet can control the slip of extrusion piece, can make first support sliding shaft breaks away from the thread groove to can pass through the suppress of sixth spring can be further make the shearing piece joint is in searching for shearing the spout, thereby accomplish the shearing operation.

Furthermore, one side of the machine body is provided with a second sliding cavity corresponding to the first rotating cavity, the jacking plate is arranged in the second sliding cavity and slides, a second supporting sliding shaft is arranged on the jacking plate, a fourth rotating shaft driven by a second motor is arranged in the machine body, a first gear is arranged on the fourth rotating shaft, a tooth groove connected with the first gear in a corresponding meshed mode is formed in the second supporting sliding shaft, a third spring for tensioning the jacking plate is arranged in the second sliding cavity, a plurality of jacking rods are arranged on the jacking plate, and the second jacking head and the first jacking head are connected to the jacking rods respectively. The first gear can be driven to rotate through the rotation of the second motor, so that the second supporting sliding shaft can be further driven to slide, and the first jacking head and the second jacking head can be further driven to slide through the tension of the third spring after the second motor is powered off.

Furthermore, the both sides of second import are provided with one respectively rotate the eleventh pivot of dividing the shear disc internal rotation, the shearing wheel sets up respectively in the eleventh pivot, two be provided with a corresponding fourth gear that meshes the connection in the eleventh pivot respectively, one of them the end connection of eleventh pivot has a rotation connector, be provided with a third slide opening that is square setting on the rotation connector.

A tenth rotating shaft is arranged in the machine body, a second bevel gear which is correspondingly engaged and connected with one end of the tenth rotating shaft and the second rotating shaft are respectively arranged on the machine body, a third sliding cavity is arranged in the machine body, a second sliding hole which is arranged in a square shape is arranged at the other end of the tenth rotating shaft, a second magnetic disc which slides is arranged in the third sliding cavity, a first sliding shaft which slides in the second sliding hole is arranged on the second magnetic disc, the first sliding shaft is arranged in a square shape, the second magnetic disc is also provided with a second sliding shaft arranged in a square shape, the second sliding shaft is connected with the third sliding hole in a clamped mode, a second electromagnet corresponding to the second magnetic disc is arranged in the third sliding cavity, and a fourth spring for pressing the second magnetic disc is arranged in the third sliding cavity respectively. The second electromagnet can be electrified to further control the sliding of the second magnetic disc, so that the connection between the tenth rotating shaft and the eleventh rotating shaft can be further controlled, and the rotation of the shearing wheel can be controlled.

The shearing wheel is provided with shearing sawteeth which are correspondingly meshed, and the rotary shearing wheel is also provided with a first storage cavity which is correspondingly communicated with the second inlet. Can further compress tightly the shearing through cuting the syringe needle on the sawtooth to the transfer line to reach kibbling purpose, and can pass through first storage chamber can be saved the syringe needle, thereby avoid the injury that causes the human body.

Furthermore, a sixth bevel gear which is correspondingly engaged and connected is respectively arranged on the first rotating shaft and the second rotating shaft, a first sliding cavity is also arranged in the machine body, the third rotating shaft rotates in the first sliding cavity, a first bevel gear which rotates in the first sliding cavity is arranged on the second rotating shaft, a third bevel gear which slides in the first sliding cavity is arranged on the third rotating shaft, the first bevel gear is correspondingly engaged and connected with the third bevel gear in a sliding manner, a first sliding hole which is arranged in a square shape is arranged on the third bevel gear, the third rotating shaft is arranged in a square shape, a first magnetic disc is arranged on the third bevel gear, a first electromagnet which corresponds to the first magnetic disc is arranged in the first sliding cavity, and the first electromagnet is correspondingly connected with the first magnetic disc in a pressing manner through a second spring, and a first spring connected to the third rotating shaft is arranged in the first sliding cavity. The rotation of the third rotating shaft can be further controlled by the first electromagnet, so that the rotation of the rotating shearing disk can be further controlled, and the rotation of the rotating shearing disk can be further controlled by the elastic pressure of the first spring, so that the rotating shearing disk can be reset.

Furthermore, a fifth rotating shaft and a sixth rotating shaft which rotate in the machine body are respectively arranged on two sides of the third inlet, the third clamping rotating wheels are respectively arranged on the fifth rotating shaft and the sixth rotating shaft, second gears which are correspondingly meshed and connected are respectively arranged on the fifth rotating shaft and the sixth rotating shaft, a fourth motor which drives the fifth rotating shaft to rotate is arranged in the machine body, every two adjacent sixth rotating shafts are correspondingly connected through a plurality of seventh rotating shafts, the sixth rotating shafts are correspondingly connected with the seventh rotating shafts through universal joints, and supporting rotating holes which support the sixth rotating shafts and the seventh rotating shafts to rotate are further formed in the machine body. The corresponding connection between the seventh rotating shafts and the connection between the sixth rotating shafts can be realized through the universal joints, so that the third clamping rotating wheels can rotate synchronously.

Furthermore, a supporting sliding groove communicated with the first rotating cavity correspondingly is formed in the machine body, the positioning rod slides in the supporting sliding groove, and the limiting block is arranged in the supporting sliding groove. The positioning rod can slide and be clamped with the limiting block correspondingly, so that the rotary shearing disk can be further rotated to an accurate position.

Compared with the prior art, the invention has the beneficial effects that: the infusion tube can be further clamped and conveyed through the rotation of the first clamping rotating wheel and the second clamping rotating wheel, so that further treatment can be carried out;

the needle head of the infusion tube can be further clamped and crushed through the rotation of the shearing wheel, so that the injury of the needle head to a human body is avoided, the crushing purpose is achieved, the infusion tube can be further wound on the rotary shearing disc through the rotation of the rotary shearing disc, parts such as a regulating switch on the infusion tube can be sheared through the sliding of the shearing block, and the purpose of respectively recovering is achieved;

the infusion tube and the regulating switch on the infusion tube can be pushed respectively by the sliding of the first pushing head and the second pushing head, so that the further recovery treatment can be carried out;

can pass through the rotation that the tight runner of third clamp can be further presss from both sides tight the transport to parts such as transfer line to reach the purpose of retrieving respectively, further avoid the problem that recovery efficiency is low that traditional recovery mode leads to, thereby improve recovery utilization.

Drawings

The invention is further described below with reference to the accompanying drawings.

Fig. 1 is a schematic view of the overall structure of an automatic cutting and recycling device of an infusion apparatus according to an embodiment of the invention.

Fig. 2 is a side view of the overall structure of the automatic cutting and recycling device of the infusion apparatus in the embodiment of the invention.

Fig. 3 is a schematic view of an overall structure of the first clamping roller and the second clamping roller according to the embodiment of the present invention.

Fig. 4 is a schematic view of a rotating structure of the rotating shearing disk according to the embodiment of the invention.

Fig. 5 is a schematic structural diagram of the first supporting sliding shaft and the fifth bevel gear according to the embodiment of the present invention.

FIG. 6 is a side view of the integral structure of the first supporting slide shaft and the pressing block according to the embodiment of the present invention.

Fig. 7 is a schematic view of a connection structure of a tenth rotating shaft and an eleventh rotating shaft according to an embodiment of the invention.

FIG. 8 is a schematic view of the overall structure of a third clamping wheel according to an embodiment of the present invention.

Fig. 9 is a schematic view of a partial structure of a shearing saw tooth according to an embodiment of the invention.

In the figure: 1 machine body, 2 first inlet, 3 elastic pressing plate, 4 first clamping rotating wheel, 5 second clamping rotating wheel, 6 first rotating cavity, 7 rotating dividing shear disk, 8 first rotating shaft, 9 first motor, 10 shearing sliding chute, 11 jacking sliding chute, 12 shearing block, 13 positioning rod, 14 second inlet, 15 shearing wheel, 16 first storage cavity, 17 second rotating shaft, 18 sixth bevel gear, 19 third rotating shaft, 20 first sliding cavity, 21 first bevel gear, 22 second bevel gear, 23 third bevel gear, 24 first sliding hole, 25 first spring, 26 first magnetic disk, 27 first electromagnet, 28 second spring, 29 first sliding chute, 30 first supporting sliding shaft, 31 sliding control disk, 32 driving rotating disk, 33 second storage cavity, 34 third inlet, 35 third clamping rotating wheel, 36 second sliding cavity, 37 jacking disk, 38 jacking rod, 39 first jacking head, 40 second jacking head, 41 second supporting sliding shaft, 42 second motor, 43 fourth rotating shaft, 44 first gear, 45 third spring, 46 fifth rotating shaft, 47 sixth rotating shaft, 48 second gear, 49 universal joint, 50 seventh rotating shaft, 51 supporting rotating hole, 52 third gear, 53 eighth rotating shaft, 54 ninth rotating shaft, 55 first chain wheel, 56 first chain, 57 second chain wheel, 58 fourth bevel gear, 59 tenth rotating shaft, 60 second sliding hole, 61 second magnetic disc, 62 first sliding shaft, 63 second electromagnet, 64 third sliding cavity, 65 fourth spring, 66 second sliding shaft, 67 eleventh rotating shaft, 68 fourth gear, 69 rotating connector, 70 third sliding hole, 71 shearing saw tooth, 72 fourth sliding hole, 73 fourth sliding cavity, 74 fifth bevel gear, 75 fifth sliding hole, 76 fifth sliding cavity, 77 extrusion block, 78 groove, 79 sixth sliding cavity, 80 third magnetic disc, 81 third electromagnet, 82 fifth spring, 83, 84 supporting sliding chute, 85 sixth spring, 86 third slide shaft, 87 fourth motor.

Detailed Description

As shown in fig. 1 to 9, an automatic cutting and recycling device for infusion sets comprises a machine body 1, wherein a first inlet 2 is arranged on the machine body 1, two sides of the first inlet 2 are respectively provided with a corresponding elastic pressing plate 3, two sides of the first inlet 2 are respectively provided with a first clamping rotating wheel 4 which correspondingly clamps and rotates, and two sides of the first inlet 2 are respectively provided with a second clamping rotating wheel 5 which correspondingly clamps.

Be provided with a first import 2 on the organism 1 be provided with the tight runner of two corresponding tight pivoted first clamp 4 and the tight runner 5 of second clamp in the first import 2, thereby can pass through first clamp 4 with the tight runner 5 of second clamp is pressed from both sides tight the transfusion system, thereby can be further cross the transport to the transfusion system, can suppress the transfusion system through two clamp plate 3, thereby can make the transfusion system slide on the clamp plate 3, be provided with the regulation and control switch that can regulate and control the flow on the transfer line, thereby can be further suppress the regulation and control switch on the transfusion system, can be further suppress the regulation and control switch suppress the one end that slides the transfer line to the regulation and control switch's that can be further, thereby conveniently adjust and control switch's processing.

The machine body 1 is internally provided with a first rotating cavity 6 correspondingly communicated with the first inlet 2, the first rotating cavity 6 is internally provided with a third rotating shaft 19 which rotates in the machine body 1, the third rotating shaft 19 is provided with a rotating shearing disk 7, the rotating shearing disk 7 is provided with a plurality of shearing chutes 10, the machine body 1 is internally provided with a shearing block 12 which synchronously extrudes and slides in the shearing chutes 10, two adjacent shearing chutes 10 are respectively provided with a jacking chute 11 arranged on the rotating shearing disk 7, the rotating shearing disk 7 is further provided with a second inlet 14 correspondingly communicated with the first inlet 2, and two sides of the second inlet 14 are respectively provided with a corresponding clamping rotating shearing wheel 15.

Be provided with a first chamber 6 that changes in organism 1, first import 2 with the corresponding intercommunication in first chamber 6 that changes, be provided with a pivoted rotation branch shear disk 7 in first chamber 6 that changes, can drive through the rotation of third pivot 19 rotate branch shear disk 7's rotation, be provided with a second import 14 on the rotation branch shear disk 7, second import 14 with first import 2 is corresponding, be provided with a corresponding meshing wheel 15 of connecting respectively in the both sides of second import 14, can further carry the transfer line in second import 14 through first import 2, can further press from both sides tightly the syringe needle on the transfer line pipe through the rotation of shearing wheel 15 to handle the transfer needle, be provided with a plurality of shearing spouts 10 on the rotation branch shear disk 7, the number of the shearing chutes 10 can be determined according to the number of functional structure positions on the infusion tube, after the needle on the infusion tube is clamped tightly, the infusion tube can be further wound on the rotary shearing disc 7 through the rotation of the rotary shearing disc 7, so that the parts with different functions on the infusion tube can be respectively clamped in the shearing chutes 10, the jacking chutes 11 are arranged between the shearing chutes 10, the machine body 1 is respectively provided with the shearing blocks 12 capable of sliding in the shearing chutes 10, the parts with different functional positions on the infusion tube can be further clamped through the sliding of the shearing blocks 12, so that the functional parts can be sheared off, the purpose of recycling can be further achieved, and the needle parts can be sheared and crushed through the rotation of the shearing wheel 15, thereby further avoiding the injury of the pillow to the human body and ensuring the safety of the human body.

The rotary dividing and shearing disc 7 is provided with a positioning rod 13, a limiting block 83 for limiting the rotation of the positioning rod 13 is arranged in the first rotating cavity 6, the positioning rod 13 is clamped with the limiting block 83, the second inlet 14 corresponds to the first inlet 2 relatively, the shearing block 12 slides rapidly in the shearing sliding groove 10, one side of the machine body 1 is provided with a sliding jacking disc 37, and the jacking disc 37 is respectively provided with a second jacking head 40 and a first jacking head 39 which slide transversely in the shearing sliding groove 10 and the jacking sliding groove 11.

A positioning rod 13 is arranged on the rotary dividing and shearing disk 7, a limiting block 83 is arranged in the first rotating cavity 6, the rotary dividing and shearing disk 7 can be clamped on the limiting block 83 in the rotating process, so that the rotating range of the rotary dividing and shearing disk 7 can be further limited, the first inlet 2 and the second inlet 14 can be further made to correspond to each other, the shearing block 12 can be made to correspond to the shearing chute 10, the first jacking head 39 and the second jacking head 40 respectively correspond to the jacking chute 11 and the shearing chute 10, a sliding jacking disk 37 is arranged on one side of the machine body 1, the jacking disk 37 slides in the machine body 1, a second jacking head 40 and a first jacking head 39 which can transversely slide in the shearing chute 10 and the jacking chute 11 are respectively arranged on the jacking disk 37, the second pushing head 40 and the first pushing head 39 can slide to respectively push and press the structures of different functional parts on the infusion tube after being sheared, so that further processing can be performed, and the sheared infusion tube can be pushed and pressed by the first pushing head 39 so as to perform further processing.

The other side of the machine body 1 is respectively provided with a third inlet 34 corresponding to the shearing chute 10 and the jacking chute 11, the second jacking head 40 and the first jacking head 39 respectively slide in the third inlet 34, two third clamping rotating wheels 25 which correspondingly clamp and rotate are respectively arranged in the third inlet 34, and a second storage cavity 33 correspondingly communicated with the third inlet 34 is respectively arranged in the machine body 1.

The other side of the machine body 1 is respectively provided with a plurality of third inlets 34 corresponding to the shearing sliding grooves 10 and the jacking sliding grooves 11, the number of the third inlets 34 corresponds to the number of the shearing sliding grooves 10 and the jacking sliding grooves 11, so that parts such as a regulating switch of an infusion set can be further sheared and then further pushed into the third inlets 34, the purpose of recovery can be achieved through the sliding of the second jacking head 40 and the first jacking head 39, the parts can be respectively pushed into the second storage cavity 33, the infusion set can be further recovered after being sheared in a segmented mode, the problem of low recovery effect caused by a traditional recovery mode can be further avoided, and the utilization rate is further improved.

Be provided with a first motor 9 driven first pivot 8 in the organism 1, first pivot 8 drives first tight runner 4 of clamp and the tight runner 5 synchronous rotation of second clamp, still be provided with a pivoted second pivot 17 in the organism 1, first pivot 8 drives second pivot 17 rotates, second pivot 17 drives shear wheel 15 rotates, second pivot 17 drives the rotation of rotation branch shear disk 7, shear wheel 15 rotate with the rotation of rotation branch shear disk 7 is corresponding.

Can drive through the rotation of first pivot 8, can drive through the rotation of first pivot 8 first clamp runner 4 with the rotation of the tight runner 5 of second clamp to carry the transfer line, drive through the rotation of second pivot 17 the rotation of shearing wheel 15 utilizes simultaneously the rotation of second pivot 17 drives the rotation of rotating branch shear disk 7, works as the syringe needle that shearing wheel 15 pivoted in-process can further press from both sides tightly the transfer line, and rotate branch shear disk 7 and be in the state of quiescence, works as rotate branch shear disk 7 at the in-process of rotation shearing wheel 15 handles quiescent state, thereby can twine the transfer line on rotate branch shear disk 7, thereby can further cut to positions such as the regulation and control switch on the transfer line, after cutting rotate branch shear disk 7 and reset, the shearing wheel 15 rotates to shear and crush the needle head part.

As shown in fig. 1 and 3, the first inlet 2 is provided with an eighth rotating shaft 53 on both sides thereof, the first inlet 2 is further provided with a ninth rotating shaft 54 on both sides thereof, the second clamping roller 5 and the first clamping roller 4 are respectively disposed on the eighth rotating shaft 53 and the ninth rotating shaft 54, one end of the eighth rotating shaft 53 and one end of the ninth rotating shaft 54 are respectively provided with a third gear 52 in corresponding engagement connection, one end of the eighth rotating shaft 53 and the other end of the ninth rotating shaft 54 are respectively provided with a corresponding first chain wheel 55 and a corresponding second chain wheel 57, the first chain wheel 55 and the second chain wheel 57 are correspondingly connected through a first chain 56, the ninth rotating shaft 54 and the first rotating shaft 8 are respectively provided with a fourth bevel gear 58 in corresponding engagement connection, two the bullet clamp plate 3 is the slope form setting and corresponding bullet pressure is connected.

By means of a corresponding meshing connection of the third gear 52, it is further possible to cause a corresponding clamping rotation of the two first clamping rollers 4 and of the two second clamping rollers 5, while the first chain 56 is used to correspondingly connect the first sprocket 55 and the second sprocket 57, so that the first clamping rotating wheel 4 and the second clamping rotating wheel 5 can further synchronously rotate, the corresponding meshing connection of the two fourth bevel gears 58 can further drive the first clamping rotating wheel 4 and the second clamping rotating wheel 5 to synchronously rotate through the rotation of the first rotating shaft 8, the elastic pressing plate 3 has certain elasticity and can further elastically press a control switch on the infusion tube, thereby adjusting the end part of the infusion tube, and further shearing the regulating switch on the infusion tube.

As shown in fig. 1, 2, 5 and 7, a plurality of first sliding grooves 29 are disposed in the machine body 1 and are correspondingly communicated with the first rotating cavity 6, the shear blocks 12 respectively slide in the first sliding grooves 29, the shear blocks 12 are respectively provided with a first supporting sliding shaft 30, the machine body 1 is internally provided with a plurality of fourth sliding cavities 73, the first supporting sliding shafts 30 respectively slide in the fourth sliding cavities 73, the fourth sliding cavities 73 are respectively provided with a rotating fifth bevel gear 74, the fifth bevel gear 74 is respectively provided with a fifth sliding hole 75, the fifth sliding hole 75 is arranged in a square shape, the first supporting sliding shafts 30 and the fifth sliding holes 75 are arranged in a square shape correspondingly, the machine body 1 is further provided with a fourth sliding hole 72, the fourth sliding hole 72 is arranged in a circular shape, the fourth sliding hole 72 is internally provided with a rotating driving turntable 32, the driving turntable 32 is provided with a tooth groove correspondingly engaged with the fifth bevel gear 74, and the machine body 1 is further provided with a third motor for driving the driving turntable 32 to rotate.

The machine body 1 is provided with a plurality of first sliding grooves 29, the number of the first sliding grooves 29 is the same as that of the shear blocks 12, the shear blocks 12 can be supported through the first sliding grooves 29, so that the normal sliding of the shear blocks 12 can be ensured, the shear blocks 12 are respectively provided with a first supporting sliding shaft 30, a plurality of fourth sliding cavities 73 are shot into the machine body 1, the fourth sliding cavities 73 are respectively provided with a rotating fifth bevel gear 74, the fifth bevel gear 74 can be supported through the fourth sliding cavities 73, so that the normal rotation of the fifth bevel gear 74 can be ensured, the fifth bevel gear 74 is provided with a fifth sliding hole 75, fifth slide opening 75 is square setting, one section is square setting on the first support slide shaft 30, first support slide shaft 30 can slide in fifth slide opening 75, fifth bevel gear 75 can drive first support slide shaft 30 rotates be provided with a fourth slide opening 72 in the organism 1, fourth slide opening 72 is the ring form setting, thereby can pass through fourth slide opening 72 is right drive carousel 32 supports, guarantees drive carousel 32's normal rotation, can pass through drive carousel 32's rotation can be simultaneous drive fifth bevel gear 74's synchronous rotation, thereby can further realization drive first support slide shaft 30's synchronous rotation, first support slide shaft 30 can the rotation in the shear block 12.

Still be provided with one in the organism 1 with the corresponding slip control panel 31 of first support sliding shaft 30, be provided with a fifth sliding chamber 76 in the slip control panel 31 respectively, fifth sliding chamber 76 is the ring form setting, the both sides of fifth sliding chamber 76 are provided with a gliding extrusion piece 77 respectively, extrusion piece 77 is semicircular in shape setting respectively, and be provided with corresponding thread groove 78 on the extrusion piece 77 respectively, be provided with on the first support sliding shaft 30 with the corresponding meshing connecting thread of thread groove 78, the both sides of slip control panel 31 are provided with a sixth sliding chamber 79 respectively, be provided with one on the extrusion piece 77 respectively in gliding third sliding chamber 79 86, be provided with one on the third sliding shaft 86 respectively gliding third magnetic disc 80 in the sixth sliding chamber 79, be provided with one in the sixth sliding chamber 79 respectively with one with the corresponding magnetism of third magnetic disc 80 and inhale the third electro-magnet 81 of being connected, a fifth spring 82 for biasing the pressing block 77 is disposed in each of the fifth sliding cavities 76, and a sixth spring 85 for biasing the cutting block 12 is disposed in each of the first sliding grooves 29.

A sliding control panel 31 corresponding to the first supporting sliding shaft 30 is respectively arranged in the machine body 1, a fifth sliding cavity 76 is respectively arranged in the sliding control panel 31, the fifth sliding cavity 76 is a cavity and is arranged in a cylindrical shape, two sliding extrusion blocks 77 are respectively arranged at two sides of the fifth sliding cavity 76, the extrusion blocks 77 are respectively arranged in a semicircular shape, a threaded through hole is formed in the middle of the two extrusion blocks 77 after the two extrusion blocks are correspondingly connected, the extrusion blocks 77 are respectively provided with corresponding threaded grooves 78, two sliding sixth sliding cavities 79 are respectively arranged at two sides of the sliding control panel 31, a third sliding shaft 86 is respectively arranged on the extrusion blocks 77, the extrusion blocks 77 can be driven to slide by the third sliding shaft 86, a third magnetic disk 80 sliding in the sixth sliding cavities 79 is respectively arranged on the third sliding shaft 86, the sixth sliding cavity 76 is respectively provided with a third electromagnet 81, so that after the third electromagnet 81 is energized, the third magnetic disk 80 can be further magnetically attracted and connected correspondingly, so as to drive the extrusion blocks 77 to slide, after the two extrusion blocks 77 are correspondingly connected, the thread groove 78 can form a complete thread hole, the first supporting sliding shaft 30 is provided with a section of thread, so that the first supporting sliding shaft 30 and the thread groove 78 can be correspondingly engaged and connected, the extrusion blocks 77 can be further reset by the elastic pressure of the fifth spring 82, when the first supporting sliding shaft 30 rotates, the first supporting sliding shaft 30 can be further driven to slide up and down, so as to drive the shearing blocks 12 to slide, and when the third electromagnet 81 is energized, therefore, the synchronous sliding of the extrusion block 77 can be further driven, so that the first support sliding shaft 30 is separated from the thread groove 78, and the shear block 12 can be further driven to slide by the elastic pressing of the sixth spring 85 on the shear block 12, so that parts such as a regulation switch on an infusion tube can be cut, and the purpose of decomposing the infusion tube can be achieved.

As shown in fig. 1 and 2, a second sliding cavity 36 corresponding to the first rotating cavity 6 is disposed on one side of the machine body 1, the pressing plate 37 slides in the second sliding cavity 36, a second supporting sliding shaft 41 is disposed on the pressing plate 37, a fourth rotating shaft 43 driven by a second motor 42 is disposed in the machine body 1, a first gear 44 is disposed on the fourth rotating shaft 43, a tooth groove correspondingly engaged with the first gear 44 is disposed on the second supporting sliding shaft 41, a third spring 45 tensioning the pressing plate 37 is disposed in the second sliding cavity 36, a plurality of pressing rods 38 are disposed on the pressing plate 37, and the second pressing head 40 and the first pressing head 39 are respectively connected to the pressing rods 38.

Can pass through rotation that second motor 42 can be further drive the rotation of fourth pivot 43 to can further drive the rotation of first gear 44 can pass through first gear 44 with the slip of second support slide-bar 41, thereby can drive the slip of top pressure dish 37, further drive the synchronous slip of first top pressure head 39 and second top pressure head 40 can be after finishing shearing the transfer line, can pass through first top pressure head 39 with the slip of second top pressure head 40 carries out the roof pressure, can further promote after finishing shearing to carry out further transport processing.

As shown in fig. 1, fig. 2, fig. 7 and fig. 9, the two sides of the second inlet 14 are respectively provided with an eleventh rotating shaft 59 which rotates in the rotary slitting disk 7, the cutting wheels 15 are respectively arranged on the eleventh rotating shafts 67, the two eleventh rotating shafts 67 are respectively provided with a fourth gear 68 which is correspondingly engaged and connected, the end of one of the eleventh rotating shafts 67 is connected with a rotary connector 69, and the rotary connector 69 is provided with a third sliding hole 70 which is arranged in a square shape.

An eleventh rotating shaft 67 which rotates in the rotary dividing and shearing disk 7 is respectively arranged at two sides of the second inlet 14, the rotation of the eleventh rotating shaft 67 can drive the two shearing wheels 15 to synchronously rotate, and by means of a corresponding meshing connection of the fourth gear 68, a corresponding pressing rotation of the two cutting wheels 15 is further enabled, the cutting wheel 15 is provided with corresponding cutting saw teeth 71, so that the needle of the infusion tube can be cut by the cutting saw teeth 71 at the two sides, so that comminution can be achieved and further flow into the first storage chamber 16, so that collection can be achieved, a rotating connector 69 is arranged at the end of one of the eleventh rotating shafts 67, a third sliding hole 70 is arranged on the rotating connector 69, and the third sliding hole 70 is arranged in a square shape.

A rotating tenth rotating shaft 59 is arranged in the machine body 1, one end of the tenth rotating shaft 59 and the second rotating shaft 17 are respectively provided with a second bevel gear 22 which is correspondingly engaged and connected, a third sliding cavity 64 is arranged in the machine body 1, a second sliding hole 60 which is arranged in a square shape is arranged at the other end of the tenth rotating shaft 59, a second magnetic disc 61 sliding is arranged in the third sliding cavity 64, a first sliding shaft 62 sliding in the second sliding hole 60 is arranged on the second magnetic disc 61, the first sliding shaft 62 is arranged in a square shape, the second magnetic disc 61 is also provided with a second sliding shaft 66 arranged in a square shape, the second sliding shaft 66 is correspondingly clamped with the third sliding hole 70, a second electromagnet 63 corresponding to the second magnetic disc 61 is arranged in the third sliding cavity 64, a fourth spring 65 for biasing the second magnetic disk 61 is provided in each of the third sliding chambers 64.

The shearing wheel 15 is provided with correspondingly meshed shearing saw teeth 71, and the rotary shearing wheel 7 is also provided with a first storage cavity 16 correspondingly communicated with the second inlet 14.

A rotating tenth rotating shaft 59 is arranged in the machine body 1 and can be correspondingly engaged and connected through two second bevel gears 22, the rotating tenth rotating shaft 59 can be further driven to rotate through the second rotating shaft 17, a second sliding hole 60 which is arranged in a square shape is arranged at the other end of the tenth rotating shaft 59, a third sliding cavity 64 is arranged in the machine body 1, a rotating second magnetic disc 61 is arranged in the third sliding cavity 64, a first sliding shaft 62 is arranged at one end of the second magnetic disc 61, the first sliding shaft 62 is arranged in a square shape, the first sliding shaft 62 can slide in the second sliding hole 60, the tenth rotating shaft 59 can drive the second magnetic disc 61 to rotate, a second sliding shaft 66 is arranged at the other end of the second magnetic disc 61, the second sliding shaft 66 is arranged in a square shape, and the second sliding shaft 66 can be clamped in the third sliding hole 70, therefore, after the second sliding shaft 66 is clamped in the third sliding hole 70, the tenth rotating shaft 59 can further drive the eleventh rotating shaft 67 to rotate, so as to drive the shear wheel 15 to rotate, after the second electromagnet 63 is energized, the second electromagnet 63 can further repel the second magnetic disc 61 correspondingly, so as to push the second magnetic disc 61 to slide, so that the second sliding shaft 66 can be clamped in the third sliding hole 70, so as to further control the rotation of the shear wheel 15, and the fourth spring 65 can press the second magnetic disc 61, so as to further reset the second sliding shaft 66, prevent random sliding, so as to further control the rotation of the shear wheel 15 through the energization of the second electromagnet 63, thereby further controlling the crushing of the needle head of the infusion tube and the control of the sliding of the infusion tube.

As shown in fig. 2, the first rotating shaft 8 and the second rotating shaft 17 are respectively provided with a sixth bevel gear 18 correspondingly engaged with each other, the machine body 1 is further provided with a first sliding cavity 20, the third rotating shaft 19 rotates in the first sliding cavity 20, the second rotating shaft 17 is provided with a first bevel gear 21 rotating in the first sliding cavity 20, the third rotating shaft 19 is provided with a third bevel gear 23 sliding in the first sliding cavity 20, the first bevel gear 21 is correspondingly engaged with the third bevel gear 23 in a sliding manner, the third bevel gear 23 is provided with a first sliding hole 24 arranged in a square manner, the third rotating shaft 19 is arranged in a square manner, the third bevel gear 23 is provided with a first magnetic disc 26, the first sliding cavity 20 is provided with a first electromagnet 27 corresponding to the first magnetic disc 26, the first electromagnet 27 is correspondingly connected with the first magnetic disc 26 through a second spring 28 in a pressing manner, and a first spring 25 connected to the third rotating shaft 19 is arranged in the first sliding cavity 20.

The first rotating shaft 8 can further drive the second rotating shaft 17 to rotate through the corresponding meshing connection of the sixth bevel gear 18, a first sliding cavity 20 is arranged in the machine body 1, the third rotating shaft 19 rotates in the first sliding cavity 20, a first bevel gear 21 is arranged at the end of the second rotating shaft 17, the first bevel gear 21 rotates in the first sliding cavity 20, a sliding third bevel gear 23 is arranged on the third rotating shaft 19, the first bevel gear 21 and the third bevel gear 23 are correspondingly meshed and connected, so that the third bevel gear 23 can be driven to rotate through the rotation of the first bevel gear 21, a first sliding hole 24 is arranged on the third bevel gear 23, the first sliding hole 24 is arranged in a square shape, the third rotating shaft 19 is arranged in a square shape, so that after the first bevel gear 21 and the third bevel gear 23 are correspondingly meshed and connected, the third rotating shaft 19 can be further driven to rotate, so that the rotating shearing disk 7 can be driven to rotate, after the first electromagnet 27 is electrified, the magnetic attraction connection corresponding to the first magnetic disk 26 can be further realized, so that the sliding of the third bevel gear 23 can be further pulled, the corresponding connection between the third bevel gear 23 and the first bevel gear 21 can be further controlled, so that the rotation of the rotating shearing disk 7 can be controlled, the elastic connection of the second elastic press 28 can be further realized, the third bevel gear 23 can be further pressed, so that the first bevel gear 21 and the third bevel gear 23 are in a meshed connection state, so that the rotating shearing wheel 7 can be driven to rotate, and when the rotating shearing disk 7 rotates in place, can pass through locating lever 13 with the corresponding joint of stopper 83, thereby can make it targets in place to rotate branch shear disk 7, works as third bevel gear 23 breaks away from behind first bevel gear 21, can pass through the elastic pressure of first spring 25, can further messenger third pivot 19 resets, thereby can further drive rotate the rotation of branch shear disk 7, utilize simultaneously locating lever 13 with the reverse rotation joint of stopper 83, thereby can be right rotate branch shear disk 7 and fix a position, thereby can further assurance go on normal transport shearing function to the transfer line, thereby can retrieve the position of difference after through dividing the shear, can further improvement recycle ratio.

As shown in fig. 1, fig. 2 and fig. 8, a fifth rotating shaft 46 and a sixth rotating shaft 47 which rotate in the machine body 1 are respectively disposed at two sides of the third inlet 34, the third clamping rotating wheel 35 is respectively disposed on the fifth rotating shaft 46 and the sixth rotating shaft 47, a second gear 48 which is correspondingly engaged and connected with the fifth rotating shaft 46 and the sixth rotating shaft 47 is respectively disposed on the fifth rotating shaft 46 and the sixth rotating shaft 47, a fourth motor 87 which drives the fifth rotating shaft 46 to rotate is disposed in the machine body 1, two adjacent sixth rotating shafts 47 are correspondingly connected with each other through a plurality of seventh rotating shafts 50, the sixth rotating shaft 47 and the seventh rotating shafts 50 are correspondingly connected with each other through universal joints 49, and a supporting rotating hole 51 which supports the sixth rotating shaft 47 and the seventh rotating shafts 50 to rotate is further disposed in the machine body 1.

The fifth rotating shaft 46 can be further driven to rotate by the rotation of the fourth motor 87, so that the third clamping rotating wheel 35 can be further driven to rotate, the number of the third clamping rotating wheels 35 can be determined according to the number of the third inlets 34, the third clamping rotating wheels 35 can be further driven to rotate in a clamping manner by the corresponding meshing connection of the second gears 48, a plurality of rotating seventh rotating shafts 50 are arranged between two adjacent sixth rotating shafts 47, the seventh rotating shafts 50 can be correspondingly connected between the sixth rotating shafts 47 and the seventh rotating shafts 50 through the universal joints 49, so that the third clamping rotating wheels 35 can synchronously rotate, and all parts of the cut infusion tube can be clamped and conveyed, therefore, the collecting process is performed, and the sixth rotating shaft 47 and the seventh rotating shaft 50 can be supported through the supporting rotating holes 51, so that the normal rotation of the sixth rotating shaft 47 and the seventh rotating shaft 50 can be ensured.

As shown in fig. 1 and 4, a supporting sliding groove 84 correspondingly communicating with the first rotating cavity 6 is provided in the machine body 1, the positioning rod 13 slides in the supporting sliding groove 84, and the limiting block 83 is provided in the supporting sliding groove 84.

The positioning rod 13 can be supported by the supporting chute 84, so that the normal sliding of the positioning rod 13 can be further ensured, the sliding of the positioning rod 13 can be further limited by the limiting block 83, and the rotating range of the rotating slitting disk 7 can be limited, so that the first inlet corresponds to the second inlet 14, the cutting block 12 can be accurately clamped in the cutting chute 10, the first pushing head 39 and the second pushing head 40 can be accurately clamped in the pushing chute 11 and the cutting chute 10, the pushing chute 11 and the cutting chute 10 can correspond to the third inlet 34, the second sliding shaft 66 can be accurately clamped in the third sliding hole 70, so that the normal operation of the whole work can be ensured, and the first electromagnet 27, The second electromagnet 63 and the third electromagnet 81 work in a matched mode, and the whole work can be further guaranteed to be carried out smoothly.

The above-mentioned embodiments are only for convenience of description, and are not intended to limit the present invention in any way, and those skilled in the art will understand that the technical features of the present invention can be modified or changed by other equivalent embodiments without departing from the scope of the present invention.

Claims (4)

1. The utility model provides an automatic recovery unit of medical waste transfusion system which characterized in that: the clamping device comprises a machine body, wherein a first inlet is formed in the machine body, two corresponding elastic pressing plates are respectively arranged on two sides of the first inlet, a first clamping rotating wheel which is correspondingly clamped and rotated is arranged on each of two sides of the first inlet, and a second clamping rotating wheel which is correspondingly clamped is also arranged on each of two sides of the first inlet;

a first rotating cavity correspondingly communicated with the first inlet is formed in the machine body, a third rotating shaft rotating in the machine body is arranged in the first rotating cavity, a rotating slitting disc is arranged on the third rotating shaft, a plurality of shearing chutes are formed in the rotating slitting disc, shearing blocks synchronously extruding and sliding in the shearing chutes are respectively arranged in the machine body, a jacking chute arranged on the rotating slitting disc is respectively arranged between every two adjacent shearing chutes, a second inlet correspondingly communicated with the first inlet is also formed in the rotating slitting disc, and two sides of the second inlet are respectively provided with a corresponding clamping rotating shearing wheel;

the rotary dividing and shearing disc is provided with a positioning rod, a limiting block for limiting the rotation of the positioning rod is arranged in the first rotating cavity, after the positioning rod is clamped with the limiting block, the second inlet corresponds to the first inlet relatively, the shearing block slides rapidly in the shearing chute, one side of the machine body is provided with a sliding jacking disc, and the jacking disc is respectively provided with a second jacking head and a first jacking head which slide transversely in the shearing chute and the jacking chute;

a third inlet corresponding to the shearing chute and the jacking chute is formed in the other side of the machine body, the second jacking head and the first jacking head slide in the third inlet respectively, two third clamping rotating wheels which are correspondingly clamped and rotate are arranged in the third inlet respectively, and a second storage cavity correspondingly communicated with the third inlet is formed in the machine body respectively;

a first rotating shaft driven by a first motor is arranged in the machine body, the first rotating shaft drives the first clamping rotating wheel and the second clamping rotating wheel to synchronously rotate, a rotating second rotating shaft is also arranged in the machine body, the first rotating shaft drives the second rotating shaft to rotate, the second rotating shaft drives the shearing wheel to rotate, the second rotating shaft drives the rotating shearing disk to rotate, and the rotation of the shearing wheel corresponds to the rotation of the rotating shearing disk;

the two sides of the first inlet are provided with an eighth rotating shaft correspondingly rotating, the two sides of the first inlet are also provided with a ninth rotating shaft correspondingly rotating, the second clamping rotating wheel and the first clamping rotating wheel are respectively arranged on the eighth rotating shaft and the ninth rotating shaft, one end of the eighth rotating shaft and one end of the ninth rotating shaft are respectively provided with a third gear correspondingly meshed and connected, one end of the eighth rotating shaft and the other end of the ninth rotating shaft are respectively provided with a first chain wheel and a second chain wheel correspondingly corresponding to each other, the first chain wheel and the second chain wheel are correspondingly connected through a first chain, the ninth rotating shaft and the first rotating shaft are respectively provided with a fourth bevel gear correspondingly meshed and connected, and the two elastic pressing plates are obliquely arranged and correspondingly connected in an elastic pressing manner.

2. The automatic recovery device of the medical waste infusion apparatus according to claim 1, characterized in that: a plurality of first chutes correspondingly communicated with the first rotating cavities are arranged in the machine body, the shearing blocks respectively slide in the first chutes, a first supporting sliding shaft is respectively arranged on the shearing blocks, a plurality of fourth sliding cavities are arranged in the machine body, the first supporting sliding shaft respectively slides in the fourth sliding cavities, a rotating fifth bevel gear is respectively arranged in the fourth sliding cavities, a fifth sliding hole is respectively arranged on the fifth bevel gear, the fifth sliding hole is in a square arrangement, the first supporting sliding shaft and the fifth sliding hole are correspondingly in a square arrangement, a fourth sliding hole is also arranged in the machine body, the fourth sliding hole is in a circular ring arrangement, a rotating driving turntable is arranged in the fourth sliding hole, and tooth grooves correspondingly meshed and connected with the fifth bevel gear are arranged on the driving turntable, a third motor for driving the driving turntable to rotate is further arranged in the machine body;

the machine body is also internally provided with a sliding control panel corresponding to the first supporting sliding shaft, the sliding control panel is internally provided with a fifth sliding cavity respectively, the fifth sliding cavity is arranged in a circular ring shape, two sides of the fifth sliding cavity are respectively provided with a sliding extrusion block, the extrusion blocks are respectively arranged in a semicircular shape, the extrusion blocks are respectively provided with a corresponding thread groove, the first supporting sliding shaft is provided with a connecting thread corresponding to the thread groove, two sides of the sliding control panel are respectively provided with a sixth sliding cavity, the extrusion blocks are respectively provided with a third sliding shaft sliding in the sixth sliding cavity, the third sliding shaft is respectively provided with a third magnetic disc sliding in the sixth sliding cavity, the sixth sliding cavity is respectively provided with a third electromagnet magnetically attracted and connected with the third magnetic disc corresponding to the third magnetic disc, and a fifth spring for elastically pressing the extrusion block is arranged in each fifth sliding cavity, and a sixth spring for elastically pressing the shearing block is arranged in each first sliding chute.

3. The automatic recovery device of the medical waste infusion apparatus according to claim 1, characterized in that: one side of organism be provided with one with the corresponding smooth chamber of first commentaries on classics chamber second, the pressure head dish is in the smooth intracavity of second slides, be provided with a second on the pressure head dish and support the sliding shaft, be provided with a second motor drive's fourth pivot in the organism, be provided with a first gear in the fourth pivot, the second support be provided with on the sliding shaft with the tooth's socket that the corresponding meshing of first gear is connected, it is taut to be provided with in the smooth chamber of second the third spring of pressure head dish, be provided with a plurality of roof pressure poles on the pressure head dish, the second roof pressure head with first roof pressure head is connected respectively on the roof pressure pole.

4. The automatic recovery device of the medical waste infusion apparatus according to claim 1, characterized in that: the two sides of the second inlet are respectively provided with an eleventh rotating shaft which rotates in the rotary dividing and shearing disc, the shearing wheels are respectively arranged on the eleventh rotating shafts, the two eleventh rotating shafts are respectively provided with a fourth gear which is correspondingly meshed and connected, the end part of one of the eleventh rotating shafts is connected with a rotary connector, and the rotary connector is provided with a third sliding hole which is arranged in a square shape;

a tenth rotating shaft is arranged in the machine body, a second bevel gear which is correspondingly engaged and connected with one end of the tenth rotating shaft and the second rotating shaft are respectively arranged on the machine body, a third sliding cavity is arranged in the machine body, a second sliding hole which is arranged in a square shape is arranged at the other end of the tenth rotating shaft, a second magnetic disc which slides is arranged in the third sliding cavity, a first sliding shaft which slides in the second sliding hole is arranged on the second magnetic disc, the first sliding shaft is arranged in a square shape, the second magnetic disc is also provided with a second sliding shaft arranged in a square shape, the second sliding shaft is correspondingly clamped with the third sliding hole, a second electromagnet corresponding to the second magnetic disc is arranged in the third sliding cavity, and a fourth spring for pressing the second magnetic disc is respectively arranged in the third sliding cavity;

the shearing wheel is provided with shearing sawteeth which are correspondingly meshed, and the rotary shearing wheel is also provided with a first storage cavity which is correspondingly communicated with the second inlet.

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