CN111452259A - Medical treatment is with plastic packaging's treatment facility - Google Patents

Abstract

The invention relates to the field of medical treatment, in particular to a treatment device for medical plastic packaging. The plastic package can be divided; the spacing for dividing the plastic packages can be adjusted according to actual conditions, so that the crushing efficiency is conveniently improved; the strip-shaped plastic package can be cut in a reciprocating manner; meanwhile, the adjustment can be carried out according to the actual situation. Including the pan feeding assembly, rotate the roller assembly, the cutting assembly, smash the assembly, the power supply assembly, connecting sleeve, drive bull stick one, connect belt one, take the axle awl tooth, the manual middle-end carousel that rotates, and then drive the motion of middle-end bull stick through the middle-end carousel, and then drive the motion of articulated actuating lever through middle-end bull stick, and then drive the motion of N type frame through articulated actuating lever, and then make N type frame slide along rectangle fretwork groove, and then kill and fall and make interval change between two N type frames, and then make the strip medical treatment of the different width that two cutting tool can adapt to use plastic packaging.

Description

Medical treatment is with plastic packaging's treatment facility

Technical Field

The invention relates to the field of medical treatment, in particular to a treatment device for medical plastic packaging.

Background

The processing equipment packaged by plastic for medical use is a common equipment in the medical field, but the processing equipment packaged by plastic for medical use has single function.

Disclosure of Invention

The invention aims to provide a treatment device for medical plastic packages, which can realize the division of the plastic packages; the spacing for dividing the plastic packages can be adjusted according to actual conditions, so that the crushing efficiency is conveniently improved; the strip-shaped plastic package can be cut in a reciprocating manner; meanwhile, the adjustment can be carried out according to the actual situation.

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

the utility model provides a plastic packaging's treatment facility is used in medical treatment, includes the pan feeding assembly, rotates the roller assembly, cuts the assembly, smashes assembly, power supply assembly, adapter sleeve, drive bull stick one, connect belt one, take the axle awl tooth, its characterized in that: the feeding assembly is connected with the rotating roller assembly, the cutting assembly is connected with the rotating roller assembly, the connecting sleeve is connected with the cutting assembly and the crushing assembly, the power source assembly is connected with the crushing assembly, the first driving rotating rod is connected with the cutting assembly, the shaft-provided bevel gear is connected with the crushing assembly, and the first connecting belt is connected with the first moving rotating rod and the shaft-provided bevel gear.

As a further optimization of the technical scheme, the invention relates to a medical plastic packaging processing device, wherein a feeding assembly comprises a feeding outer frame, a roller I1-2, a lower side support, a sliding rod I, a sliding rod pushing spring I, a sliding rod II, a sliding rod pushing spring II, a rectangular slider I, a belt wheel I, a rectangular slider II, a belt wheel II, a sliding rod pushing spring III, a middle end belt I, a driving column I, a rectangular slider III, a carrying roller I, a push rod sliding column and a sliding column pushing spring III, wherein the roller I1-2 is rotatably connected with the feeding outer frame, the lower side support is fixedly connected with the feeding outer frame, the sliding rod I is fixedly connected with the feeding outer frame, the sliding rod pushing spring I is connected with the sliding rod I in a sleeved mode, the rectangular slider III is connected with the sliding rod I in a sliding mode, the sliding rod pushing spring II is connected with the sliding rod II in a sleeved mode, the rectangular slider I and the rectangular slider II are both in a sliding mode, the belt wheel I is rotatably connected with the rectangular slider I, the belt wheel II is rotatably connected with the rectangular slider II, the slide rod pushing spring II and the slide rod pushing spring III are both connected with the slide rod II in a sleeved mode, the middle-end belt I is arranged among the belt wheel I, the belt wheel II and the driving column I, the driving column I is fixedly connected with the feeding outer frame, the carrying roller I is rotatably connected with the rectangular slider III and the rectangular slider II, the push rod sliding column is fixedly connected with the carrying roller I, the push rod I is slidably connected with the push rod sliding column, the sliding column pushing spring III is connected with the push rod sliding column in a sleeved mode, and the sliding column pushing spring III is arranged between the push rod I and the push rod sliding column.

As a further optimization of the technical scheme, the invention relates to a medical treatment plastic packaging treatment device, which comprises a rotating roller body, a rectangular groove, an inner end outer frame, a rotating rod slider, an inner end spring I and an inner end sliding rod A, wherein the inner end sliding rod A is fixedly connected with the inner end outer frame, the inner end spring I is connected with the inner end sliding rod A in a sleeved mode, the rotating rod slider is connected with the inner end sliding rod A in a sliding mode, the rectangular groove is formed in the rotating roller body, the inner end outer frame is arranged at the inner end of the rectangular groove, and the rotating roller body is connected with a lower side support in a rotating mode.

As a further optimization of the technical scheme, the invention relates to a treatment device for medical plastic packaging, wherein a cutting assembly comprises a cutting outer frame, an upper end auxiliary support, a middle end rotating rod, a driving clamping rod, a middle end rotary table, a rotary table boss, a hinged driving rod, an N-shaped frame, a middle end driving rotating rod, a cutting tool, a clamping rod push spring, a limiting plate, an upper end clamping groove, a rectangular hollow groove and a matched clamping rod, the upper end auxiliary support is fixedly connected with the cutting outer frame, the middle end rotating rod and the rotary table boss are fixedly connected with the middle end rotary table, the middle end rotary table is rotatably connected with the upper end auxiliary support, the hinged driving rod is rotatably connected with the middle end rotating rod, the hinged driving rod is hinged with the N-shaped frame, the cutting tool is slidably connected with the driving rotating rod, the driving rotating rod is rotatably connected with the cutting outer frame, the N-shaped frame is rotatably connected with the cutting tool, the clamping rod push spring, limiting plate and middle-end bull stick fixed connection, middle-end bull stick and upper end auxiliary stand sliding connection, rectangle fretwork groove sets up on the cutting frame, the upper end draw-in groove sets up on rectangle fretwork groove, cooperation kelly is linked with the cooperation of upper end draw-in groove, cooperation kelly and N type frame sliding connection are provided with spring A between cooperation kelly and the N type frame, cutting frame and pan feeding frame fixed connection, drive bull stick and drive bull stick fixed connection, middle-end belt is connected with drive bull stick cooperation.

As a further optimization of the technical scheme, the invention relates to a treatment device for medical plastic packaging, which comprises a crushing outer frame, a driving threaded rod, a first matching slide rod, a middle-end rectangular outer frame, spherical clamping grooves, a second matching slide rod, a sliding plate, a lower end hinged driving rod, double-sided bevel gears, an inner end driving rotating rod A, a driving threaded rack, a cutter sleeve, a cutter sliding rod, a cutting cutter, a cutter push spring, an inner end cylindrical clamping rod and a cylindrical clamping rod push spring, wherein the driving threaded rod and the inner end driving rotating rod A are rotatably connected with the crushing outer frame, the first matching slide rod is connected with the driving threaded rod in a sleeved mode, the middle-end rectangular outer frame is fixedly connected with the first matching slide rod, the plurality of spherical clamping grooves are arranged on the middle-end rectangular outer frame, the cylindrical clamping rod is connected with the spherical clamping grooves in a matched mode, the cylindrical clamping rod is connected with the second matching slide rod in a sliding mode, and the, the matching slide bar II is fixedly connected with the slide plate, the slide plate is connected with the drive threaded rod in a sleeved mode, the lower end hinge drive rod is connected with the crushing outer frame in a rotating mode, the lower end hinge drive rod is connected with the slide plate in a matching mode, the drive threaded frame is connected with the inner end drive rotating rod A in a matching mode, the cutter sleeve is connected with the inner end drive rotating rod A in a sliding mode, the cutter slide rod is connected with the cutter sleeve in a sliding mode, the cutter push spring is connected with the cutter slide rod in a sleeved mode, the cutting cutter is connected with the cutter slide rod in a sliding mode, the cutting cutter is attached to the inner wall of the crushing outer frame, the double-sided bevel gear is fixedly connected with the drive threaded rod, the drive threaded rod is connected with the drive threaded frame in a threaded mode, the drive rotating rod I is connected with the connecting belt I in a matching mode, the connecting belt I.

As a further optimization of the technical scheme, the invention relates to a treatment device for medical plastic packaging, wherein a power source assembly comprises a power bottom plate, a bevel gear I, a transmission bevel gear shaft I, a bevel gear II, a bevel gear III, a bevel gear IV, an input motor, a middle end matching sleeve, a middle end driving sleeve, a hinged driving rod, a tension spring and a connecting rod, the transmission bevel gear shaft I is rotatably connected with the power bottom plate, the bevel gear I is fixedly connected with the transmission bevel gear shaft I, the bevel gear II and the bevel gear III are rotatably connected with the power bottom plate, the transmission bevel gear shaft I is cooperatively linked with the bevel gear II and the bevel gear III, the middle end matching sleeve is slidably linked with the transmission bevel gear shaft I, the middle end driving sleeve is cooperatively linked with the middle end matching sleeve, the middle end driving sleeve is slidably linked with the hinged driving rod, the hinged driving rod is rotatably connected with the power bottom plate, the input motor is fixedly connected with the power bottom plate, and the bevel gear IV is fixedly connected with, the bevel gear four is in meshing transmission with the bevel gear two and the bevel gear three, the middle end of the bevel gear is matched with the sleeve to be connected with the bevel gear two and the bevel gear three in a matching mode, the crushing outer frame is fixedly connected with the power bottom plate, and the bevel gear one is in meshing transmission with the double-sided bevel gear.

The treatment equipment for the medical plastic package has the beneficial effects that:

according to the processing equipment for the medical plastic package, the middle-end turntable is manually rotated, the middle-end rotating rod is driven to move through the middle-end turntable, the hinge driving rod is driven to move through the middle-end rotating rod, the N-shaped frame is driven to move through the hinge driving rod, the N-shaped frame slides along the rectangular hollow groove, the distance between the two N-shaped frames is changed by killing and falling, and the two cutting tools can adapt to strip-shaped medical plastic packages with different widths.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a first general structural diagram of the present invention;

FIG. 2 is a second overall structural schematic of the present invention;

FIG. 3 is a third schematic view of the overall structure of the present invention;

FIG. 4 is a first schematic structural diagram of a feeding assembly according to the present invention;

FIG. 5 is a schematic structural diagram of a feeding assembly according to the present invention;

FIG. 6 is a first schematic view of the assembly of the rotating rollers of the present invention;

FIG. 7 is a second schematic structural view of the rotating roller assembly of the present invention;

FIG. 8 is a first schematic view of a cutting assembly according to the present invention;

FIG. 9 is a second schematic structural diagram of the cutting assembly of the present invention;

FIG. 10 is a third schematic view of the cutting assembly of the present invention;

FIG. 11 is a first schematic view of a pulverizing assembly of the present invention;

FIG. 12 is a second schematic view of the comminution assembly of the present invention;

FIG. 13 is a third schematic view of the comminution assembly of the present invention;

FIG. 14 is a first schematic structural view of a power source assembly of the present invention;

fig. 15 is a schematic structural diagram of a power source assembly according to the second embodiment of the present invention.

In the figure: a feeding assembly 1; feeding an outer frame 1-1; 1-2 of a roller; lower side supports 1-3; 1-4 sliding rods; a slide bar push spring I is 1-5; 1-6 sliding rods; a second sliding rod push spring 1-7; 1-8 of a rectangular slider I; 1-9 of a belt wheel I; 1-10 of a rectangular slider II; a second belt wheel 1-11; a sliding rod pushing spring III 1-12; 1-13 of a middle belt; driving columns I1-14; 1-15 parts of rectangular slider III; carrying rollers 1-16; a first push rod 1-17; 1-18 of a push rod sliding column; a sliding column pushing spring III 1-19; a rotating roller assembly 2; rotating the roller body 2-1; 2-2 of a rectangular groove; inner end outer frame 2-3; rotating the rod 2-4; rotating the rod and sliding the rod for 2-5 times; the inner end of the spring I is 2-6; the inner end of the sliding rod A2-7; a cutting assembly 3; cutting the outer frame 3-1; an upper end auxiliary support 3-2; 3-3 of a middle rotating rod; driving the clamping rod 3-4; 3-5 of a middle-end turntable; 3-6 of rotary table bosses; the hinge driving rod 3-7; 3-8 parts of an N-shaped frame; the middle end drives the rotating rod 3-9; 3-10 parts of a cutting tool; 3-11 parts of a clamping rod push spring; 3-12 parts of a limiting plate; an upper end clamping groove 3-13; 3-14 parts of rectangular hollow grooves; 3-15 of a matching clamping rod; a crushing assembly 4; crushing the outer frame 4-1; driving the threaded rod 4-2; matching with a first sliding rod 4-3; a middle rectangular outer frame 4-4; 4-5 of a spherical clamping groove; matching with a second sliding rod 4-6; a sliding plate 4-7; the lower end is hinged with a driving rod 4-8; 4-9 parts of double-sided bevel teeth; the inner end drives a rotating rod A4-11; 4-12 of a driving screw rack; 4-13 parts of a cutter sleeve; 4-14 cutter slide bars; 4-15 parts of a cutting tool; 4-16 parts of cutter push spring; 4-17 of inner end cylindrical clamping rods; 4-18 of a cylindrical clamping rod push spring; a power source assembly 5; 5-1 of a power bottom plate; 5-2 parts of a first bevel gear; 5-3 of a transmission bevel gear shaft I; 5-4 parts of a second bevel gear; 5-5 parts of bevel gear III; 5-6 parts of bevel gear; inputting a motor 5-7; the middle end is matched with 5-8 of the sleeve; 5-9 parts of a middle-end driving sleeve; 5-10 of a hinged driving rod; 5-11 parts of a tension spring; 5-13 parts of connecting rod; a connecting sleeve 6; driving a first rotating rod 7; a first connecting belt 8; with axial bevel teeth 9.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The fixed connection in the device is realized by fixing in modes of welding, thread fixing and the like, and different fixing modes are used in combination with different use environments; the rotary connection means that the bearing is arranged on the shaft in a drying mode, a spring retainer ring groove is formed in the shaft or the shaft hole, and the elastic retainer ring is clamped in the retainer ring groove to achieve axial fixation of the bearing and achieve rotation; the sliding connection refers to the connection through the sliding of the sliding block in the sliding groove or the guide rail, and the sliding groove or the guide rail is generally in a step shape, so that the sliding block is prevented from falling off in the sliding groove or the guide rail; the hinge joint is a movable connection mode on connecting parts such as a hinge, a pin shaft, a short shaft and the like; the required sealing positions are sealed by sealing rings or O-shaped rings.

The first embodiment is as follows:

the embodiment is described below with reference to fig. 1 to 15, and a treatment device for medical plastic packaging comprises a feeding assembly 1, a rotating roller assembly 2, a cutting assembly 3, a crushing assembly 4, a power source assembly 5, a connecting sleeve 6, a driving rotating rod I7, a connecting belt I8 and an axial bevel gear 9, and is characterized in that: the feeding assembly 1 is connected with the rotating roller assembly 2, the cutting assembly 3 is connected with the rotating roller assembly 2, the connecting sleeve 6 is connected with the cutting assembly 3 and the crushing assembly 4, the power source assembly 5 is connected with the crushing assembly 4, the driving rotating rod I7 is connected with the cutting assembly 3, the belt shaft bevel gear 9 is connected with the crushing assembly 4, and the connecting belt I8 is connected with the rotating rod I7 and the belt shaft bevel gear 9.

The second embodiment is as follows:

the first embodiment is further described with reference to fig. 1-15, and the first embodiment is further described, wherein the feeding assembly 1 includes a feeding outer frame 1-1, a roller 1-2, a lower support 1-3, a slide bar 1-4, a slide bar push spring 1-5, a slide bar II 1-6, a slide bar push spring II 1-7, a rectangular slider I1-8, a pulley I1-9, a rectangular slider II 1-10, a pulley II 1-11, a slide bar push spring III 1-12, a middle belt I1-13, a driving post I1-14, a rectangular slider III 1-15, a carrying roller I1-16, a push rod I1-17, a push rod slider 1-18, a slider push spring III 1-19, a roller I1-2 rotatably connected with the feeding outer frame 1-1, the lower side support 1-3 is fixedly connected with a feeding outer frame 1-1, a first slide bar 1-4 is fixedly connected with the feeding outer frame 1-1, a second slide bar 1-6 is fixedly connected with the feeding outer frame 1-1, a first slide bar push spring 1-5 is connected with a first slide bar 1-4 in a sleeved mode, a third rectangular slide bar 1-15 is connected with the first slide bar 1-4 in a sliding mode, a second slide bar push spring 1-7 is connected with the second slide bar 1-6 in a sleeved mode, a first rectangular slide bar 1-8 and a second rectangular slide bar 1-10 are both connected with the second slide bar 1-6 in a sliding mode, a first belt wheel 1-9 is rotatably connected with the first rectangular slide bar 1-8, a second belt wheel 1-11 is rotatably connected with the second rectangular slide bar 1-10, a second slide bar push spring 1-7 and a third slide bar push spring 1-12 are both connected with the second, the middle-end belt I1-13 is arranged among the belt wheel I1-9, the belt wheel II 1-11 and the driving column I1-14, the driving column I1-14 is fixedly connected with the feeding outer frame 1-1, the carrying roller I1-16 is rotatably connected with the rectangular slider III 1-15 and the rectangular slider II 1-10, the push rod slider 1-18 is fixedly connected with the carrying roller I1-16, the push rod I1-17 is slidably connected with the push rod slider 1-18, the slider push spring III 1-19 is in sleeve connection with the push rod slider 1-18, and the slider push spring III 1-19 is arranged between the push rod I1-17 and the push rod slider 1-18.

The third concrete implementation mode:

this embodiment will be described with reference to fig. 1 to 15, which further illustrate the first embodiment, the rotating roller assembly 2 comprises a rotating roller body 2-1, a rectangular groove 2-2, an inner end outer frame 2-3, a rotating rod 2-4, a rotating rod slider 2-5, an inner end spring A2-6 and an inner end sliding rod A2-7, wherein the inner end sliding rod A2-7 is fixedly connected with the inner end outer frame 2-3, the inner end spring A2-6 is connected with the inner end sliding rod A2-7 in a sleeved mode, the rotating rod slider 2-5 is connected with the inner end sliding rod A2-7 in a sliding mode, the rectangular groove 2-2 is formed in the rotating roller body 2-1, the inner end outer frame 2-3 is arranged at the inner end of the rectangular groove 2-2, and the rotating roller body 2-1 is connected with a lower side support 1-3 in a.

The fourth concrete implementation mode:

the following describes the present embodiment with reference to fig. 1 to 15, and the present embodiment further describes the first embodiment, where the cutting assembly 3 includes a cutting outer frame 3-1, an upper end auxiliary support 3-2, a middle end rotating rod 3-3, a driving clamping rod 3-4, a middle end rotating disk 3-5, a rotating disk boss 3-6, a hinge driving rod 3-7, an N-shaped frame 3-8, a middle end driving rotating rod 3-9, a cutting tool 3-10, a clamping rod pushing spring 3-11, a limiting plate 3-12, an upper end clamping slot 3-13, a rectangular hollow slot 3-14, a matching clamping rod 3-15, an upper end auxiliary support 3-2 fixedly connected to the cutting outer frame 3-1, a middle end rotating rod 3-3, and a rotating disk boss 3-6 fixedly connected to the middle end rotating disk 3-5, the middle-end rotary table 3-5 is rotatably connected with the upper-end auxiliary support 3-2, a hinged driving rod 3-7 is hinged with the middle-end rotary rod 3-3, the hinged driving rod 3-7 is hinged with the N-shaped frame 3-8, the cutting tool 3-10 is connected with a driving rotary rod 3-9 in a sliding fit manner, the driving rotary rod 3-9 is rotatably connected with the cutting outer frame 3-1, the N-shaped frame 3-8 is rotatably connected with the cutting tool 3-10, a clamping rod push spring 3-11 is connected with the middle-end rotary rod 3-3 in a sleeved manner, a limiting plate 3-12 is fixedly connected with the middle-end rotary rod 3-3, the middle-end rotary rod 3-3 is slidably connected with the upper-end auxiliary support 3-2, a rectangular hollow groove 3-14 is arranged on the cutting outer frame 3-1, an upper-end clamping groove 3-13 is arranged on the rectangular hollow groove 3-14, the matching clamping rod 3-15 is matched and connected with the upper end clamping groove 3-13, the matching clamping rod 3-15 is connected with the N-shaped frame 3-8 in a sliding mode, a spring A is arranged between the matching clamping rod 3-15 and the N-shaped frame 3-8, the cutting outer frame 3-1 is fixedly connected with the feeding outer frame 1-1, the driving rotating rod I7 is fixedly connected with the driving rotating rod 3-9, and the middle end belt I1-13 is connected with the driving rotating rod I7 in a matching mode.

The fifth concrete implementation mode:

the embodiment is described below with reference to fig. 1-15, and the embodiment further describes the first embodiment, wherein the crushing assembly 4 includes a crushing outer frame 4-1, a driving threaded rod 4-2, a matching slide rod one 4-3, a middle-end rectangular outer frame 4-4, a spherical clamping groove 4-5, a matching slide rod two 4-6, a sliding plate 4-7, a lower end hinged driving rod 4-8, a double-sided bevel gear 4-9, an inner-end driving rotating rod a4-11, a driving threaded rack 4-12, a cutter sleeve 4-13, a cutter slide rod 4-14, a cutting cutter 4-15, a cutter pushing spring 4-16, an inner-end cylindrical clamping rod 4-17, and a cylindrical clamping rod pushing spring 4-18, the driving threaded rod 4-2, and the inner-end driving rotating rod a4-11 are rotatably connected with the crushing outer frame 4-1, a matching slide bar I4-3 is connected with a driving threaded bar 4-2 in a sleeved mode, a middle-end rectangular outer frame 4-4 is fixedly connected with the matching slide bar I4-3, a plurality of spherical clamping grooves 4-5 are arranged, a plurality of spherical clamping grooves 4-5 are all arranged on the middle-end rectangular outer frame 4-4, a cylindrical clamping bar 4-17 is connected with the spherical clamping grooves 4-5 in a matched mode, a cylindrical clamping bar 4-17 is connected with a matching slide bar II 4-6 in a sliding mode, a cylindrical clamping bar pushing spring 4-18 is arranged between the two cylindrical clamping bars 4-17, the matching slide bar II 4-6 is fixedly connected with a sliding plate 4-7, the sliding plate 4-7 is connected with the driving threaded bar 4-2 in a sleeved mode, a lower end hinged driving bar 4-8 is rotatably connected with a crushing outer frame 4-1, and a lower end hinged driving bar 4, the driving threaded rack 4-12 is connected with an inner end driving rotating rod A4-11 in a matching way, the cutter sleeve 4-13 is connected with an inner end driving rotating rod A4-11 in a sliding way in a matching way, the cutter slide rod 4-14 is connected with the cutter sleeve 4-13 in a sliding way, the cutter push spring 4-16 is connected with the cutter slide rod 4-14 in a sleeving way, the cutting cutter 4-15 is connected with the cutter slide rod 4-14 in a sliding way, the cutting cutter 4-15 is attached to the inner wall of the crushing outer frame 4-1, the double-sided bevel gear 4-9 is fixedly connected with the driving threaded rod 4-2, the driving threaded rod 4-2 is connected with the driving threaded rack 4-12 in a threaded way, the driving rotating rod I7 is connected with the connecting belt I8 in a matching way, the connecting belt I8 is connected with the shaft-provided bevel gear 9 in, the bevel gear 9 with the shaft is in meshed transmission with the double-sided bevel gear 4-9, and the connecting sleeve 6 is fixedly connected between the cutting outer frame 3-1 and the crushing outer frame 4-1.

The sixth specific implementation mode:

the first embodiment is further described with reference to fig. 1-15, and the power source assembly 5 includes a power bottom plate 5-1, a first bevel gear 5-2, a first transmission bevel gear shaft 5-3, a second bevel gear 5-4, a third bevel gear 5-5, a fourth bevel gear 5-6, an input motor 5-7, a middle end matching sleeve 5-8, a middle end driving sleeve 5-9, a hinged driving rod 5-10, a tension spring 5-11, and a connecting rod 5-13, wherein the first transmission bevel gear shaft 5-3 is rotatably connected with the power bottom plate 5-1, the first bevel gear 5-2 is fixedly connected with the first transmission bevel gear shaft 5-3, the second bevel gear 5-4 and the third bevel gear 5-5 are rotatably connected with the power bottom plate 5-1, and the first transmission bevel gear shaft 5-3 is rotatably connected with the second bevel gear 5-4, A third bevel gear 5-5 is in matched link, a middle end matched sleeve 5-8 is in sliding matched link with a first transmission bevel gear shaft 5-3, a middle end driving sleeve 5-9 is in matched link with a middle end matched sleeve 5-8, a middle end driving sleeve 5-9 is in sliding matched link with a hinged driving rod 5-10, the hinged driving rod 5-10 is in rotating connection with a power bottom plate 5-1, an input motor 5-7 is fixedly connected with the power bottom plate 5-1, a fourth bevel gear 5-6 is fixedly connected with an input motor 5-7, a fourth bevel gear 5-6 is in meshed transmission with a second bevel gear 5-4 and a third bevel gear 5-5, a middle end matched sleeve 5-8 is in matched link with a second bevel gear 5-4 and a third bevel gear 5-5, a crushing outer frame 4-1 is fixedly connected with the power bottom plate 5-1, the bevel gear I5-2 is in meshed transmission with the double-sided bevel gear 4-9;

when the driving screw rack 4-12 is contacted with the first matching slide rod 4-3, the driving screw rack passes through; the spherical clamping groove 4-5 on the middle-end rectangular outer frame 4-4 is in matched link with the inner-end cylindrical clamping rod 4-17, the matched sliding rod two 4-6 is driven to drive the sliding plate 4-7, the lower-end hinged driving rod 4-8 is driven to move through the sliding plate 4-7, the lower-end hinged driving rod 4-8 is driven to drive the connecting rod 5-13, the hinged driving rod 5-10 is driven to move through the connecting rod 5-13, the middle-end driving sleeve 5-9 is driven to separate the middle-end matched sleeve 5-8 from the bevel gear two 5-4 through the action of the tension spring 5-11, the middle-end matched sleeve 5-8 is in matched link with the bevel gear three 5-5, and the bevel gear one 5-2 is driven to reversely rotate through the transmission bevel gear shaft one 5-3, and then through the transmission relation, the driving threaded rod 4-2 reversely rotates, so that the driving threaded rack 4-12 moves downwards along the driving threaded rod 4-2, when the driving threaded rack 4-12 is in contact with the sliding plate 4-7, simultaneously through the transmission relation, the middle-end driving sleeve 5-9 drives the middle-end matching sleeve 5-8 to be separated from the third bevel gear 5-5, and the middle-end matching sleeve 5-8 is in matching linkage with the second bevel gear 5-4, so that the transmission bevel gear shaft one 5-3 drives the first bevel gear 5-2 to reversely rotate again, and further a circulation process is realized.

The invention relates to a treatment device for medical plastic packages, which has the working principle that: when in use, the medical plastic package to be processed is plugged into the feeding outer frame 1-1 through the feeding outer frame 1-1, meanwhile, the belt I1-13 at the middle end drives the belt wheel II 1-11 to rotate, further drives the carrying roller I1-16 to rotate, meanwhile, the carrying roller I1-16 drives the push rod I1-17 to rotate, further, the push rod I1-17 is contacted with the medical plastic package to be processed, further, the carrying of the medical plastic package to be processed is realized, meanwhile, when the medical plastic package to be processed is contacted with the push rod I1-17, the sliding column pushing spring III 1-19 is compressed, and the push rod I1-17 is tightly contacted with the medical plastic package to be processed through the reverse action of the elastic force of the sliding column pushing spring III 1-19, further preventing the medical plastic package to be processed from slipping with the first push rod 1-17 in the process of carrying the medical plastic package to be processed; when in use, the middle end drives the rotating rod 3-9 to rotate, drives the cutting tool 3-10 to rotate, further realizes the cutting of the medical plastic package to be processed and the packaging of the cut medical plastic package into strips when the cutting tool 3-10 is contacted with the medical plastic package to be processed, simultaneously can adjust the width of the strip medical plastic package according to the actual situation, manually rotates the middle end turntable 3-5, further drives the middle end rotating rod 3-3 to move through the middle end turntable 3-5, further drives the hinged driving rod 3-7 to move through the middle end rotating rod 3-3, further drives the N-shaped frame 3-8 to move through the hinged driving rod 3-7, further causes the N-shaped frame 3-8 to slide along the rectangular hollow groove 3-14, further kills and falls to cause the distance between the two N-shaped frames 3-8 to change, so that the two cutting tools 3-10 can be adapted to strip medical plastic packages with different widths; the fixing of the use position of the middle-end turntable 3-5 is realized through the mutual matching action of the driving clamping rod 3-4 and the turntable boss 3-6 on the middle-end turntable 3-5; the double-sided bevel gear 4-9 rotates to drive the lower-end bevel gear 4-19 to rotate, the double-sided bevel gear 4-9 drives the driving threaded rod 4-2 to rotate when rotating, the driving threaded rack 4-12 is driven to reciprocate vertically along the driving threaded rod 4-2 by the driving threaded rod 4-2, the cutter sleeve 4-13 is driven by the driving screw rack 4-12 to reciprocate vertically along the inner end driving rotating rod A4-11, meanwhile, when the lower end bevel teeth 4-19 rotate, the inner end is driven to drive the rotating rod A4-11 to rotate, thereby driving the rotating rod A4-11 to drive the cutter sleeve 4-13 to rotate through the inner end, further driving the cutting tools 4-15 to rotate, and when the cutting tools 4-15 are in contact with the strip-shaped plastic package for medical use, further realizing the crushing of the strip-shaped plastic package for medical use; the driving threaded rack 4-12 is driven by the double-sided bevel gear 4-9 to reciprocate between the first matching sliding rod 4-3 and the sliding plate 4-7, and meanwhile, the second sliding rod 4-6 is in sliding fit with the rectangular outer frame 4-4 at the middle end, so that the distance between the first matching sliding rod 4-3 and the sliding plate 4-7 is changed, and further the distance between the driving threaded rack 4-12 in reciprocating motion on the driving threaded rod 4-2 is changed; the distance between the reciprocating motion of the driving threaded rack 4-12 on the driving threaded rod 4-2 is changed, the distance between the reciprocating motion of the cutter sleeve 4-13 on the inner end driving rotating rod A4-11 is further changed by driving the driving threaded rack 4-12, and meanwhile, the crushing effect of the strip-shaped medical plastic package is adjusted by the contact of the cutting cutter 4-15 and the inner wall of the crushing outer frame 4-1; starting an input motor 5-7, driving a bevel gear four 5-6 to rotate through the input motor 5-7, and driving a bevel gear two 5-4 through the bevel gear four 5-6; the third bevel gear 5-5 rotates, meanwhile, the first transmission bevel gear shaft 5-3 is driven to rotate through the matching link of the middle end matching sleeve 5-8 and the second bevel gear 5-4, further, the first bevel gear 5-2 is driven to rotate, further, the double-sided bevel gear 4-9 is driven to rotate, meanwhile, the second belt shaft bevel gear 9 is driven to rotate through the lower end bevel gear 4-19, further, the first connecting belt 8 is driven to move, further, the first driving rotating rod 7 is driven to move, further, the middle end driving rotating rod 3-9 is driven to rotate through the first driving rotating rod 7, meanwhile, the middle end belt 1-13 is driven to move through the middle end driving rotating rod 3-9, further, the power output is facilitated; when the driving screw rack 4-12 is contacted with the first matching slide rod 4-3, the driving screw rack passes through; the spherical clamping groove 4-5 on the middle-end rectangular outer frame 4-4 is in matched link with the inner-end cylindrical clamping rod 4-17, the matched sliding rod two 4-6 is driven to drive the sliding plate 4-7, the lower-end hinged driving rod 4-8 is driven to move through the sliding plate 4-7, the lower-end hinged driving rod 4-8 is driven to drive the connecting rod 5-13, the hinged driving rod 5-10 is driven to move through the connecting rod 5-13, the middle-end driving sleeve 5-9 is driven to separate the middle-end matched sleeve 5-8 from the bevel gear two 5-4 through the action of the tension spring 5-11, the middle-end matched sleeve 5-8 is in matched link with the bevel gear three 5-5, and the bevel gear one 5-2 is driven to reversely rotate through the transmission bevel gear shaft one 5-3, and then through the transmission relation, the driving threaded rod 4-2 reversely rotates, so that the driving threaded rack 4-12 moves downwards along the driving threaded rod 4-2, when the driving threaded rack 4-12 is in contact with the sliding plate 4-7, simultaneously through the transmission relation, the middle-end driving sleeve 5-9 drives the middle-end matching sleeve 5-8 to be separated from the third bevel gear 5-5, and the middle-end matching sleeve 5-8 is in matching linkage with the second bevel gear 5-4, so that the transmission bevel gear shaft one 5-3 drives the first bevel gear 5-2 to reversely rotate again, and further a circulation process is realized.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (6)

1. The utility model provides a plastic packaging's for medical treatment facility, includes pan feeding assembly (1), live-rollers assembly (2), cutting assembly (3), smashes assembly (4), power supply assembly (5), adapter sleeve (6), drive bull stick (7), connects belt (8), takes axle awl tooth (9), its characterized in that: the feeding assembly (1) is connected with the rotating roller assembly (2), the cutting assembly (3) is connected with the rotating roller assembly (2), the connecting sleeve (6) is connected with the cutting assembly (3) and the crushing assembly (4), the power source assembly (5) is connected with the crushing assembly (4), the driving rotating rod I (7) is connected with the cutting assembly (3), the shaft-bearing conical teeth (9) are connected with the crushing assembly (4), and the connecting belt I (8) is connected with the driving rotating rod I (7) and the shaft-bearing conical teeth (9).

2. A processing plant for medical plastic packages, according to claim 1, characterized in that: the feeding assembly (1) comprises a feeding outer frame (1-1), a roller I (1-2), a lower side support (1-3), a sliding rod I (1-4), a sliding rod push spring I (1-5), a sliding rod II (1-6), a sliding rod push spring II (1-7), a rectangular slider I (1-8), a belt wheel I (1-9), a rectangular slider II (1-10), a belt wheel II (1-11), a sliding rod push spring III (1-12), a middle end belt I (1-13), a driving column I (1-14), a rectangular slider III (1-15), a carrying roller I (1-16), a push rod I (1-17), a push rod sliding column (1-18) and a sliding column push spring III (1-19), wherein the roller I (1-2) is rotatably connected with the feeding outer frame (1-1), the lower side support (1-3) is fixedly connected with a feeding outer frame (1-1), a first sliding rod (1-4) is fixedly connected with the feeding outer frame (1-1), a second sliding rod (1-6) is fixedly connected with the feeding outer frame (1-1), a first sliding rod push spring (1-5) is connected with the first sliding rod (1-4) in a sleeved mode, a third rectangular slider (1-15) is connected with the first sliding rod (1-4) in a sliding mode, a second sliding rod push spring (1-7) is connected with the second sliding rod (1-6) in a sleeved mode, the first rectangular slider (1-8) and the second rectangular slider (1-10) are connected with the second sliding rod (1-6) in a sliding mode, a first belt wheel (1-9) is connected with the first rectangular slider (1-8) in a rotating mode, and a second belt wheel (1-11) is connected with the second rectangular slider (1-10) in a rotating mode, the sliding rod push spring II (1-7) and the sliding rod push spring III (1-12) are connected with the sliding rod II (1-6) in a sleeved mode, a middle-end belt I (1-13) is arranged among a belt wheel I (1-9), a belt wheel II (1-11) and a driving column I (1-14), the driving column I (1-14) is fixedly connected with the feeding outer frame (1-1), a carrying roller I (1-16) is rotatably connected with a rectangular slider III (1-15) and a rectangular slider II (1-10), a push rod sliding column (1-18) is fixedly connected with the carrying roller I (1-16), a push rod I (1-17) is slidably connected with the push rod sliding column (1-18), a sliding column push spring III (1-19) is connected with a sliding push rod (1-18) in a sleeved mode, and a sliding column push spring III (1-19) is arranged between the push rod I (1-17) and the push rod sliding column (1-18).

3. A processing plant for medical plastic packages, according to claim 1, characterized in that: the rotary roller assembly (2) comprises a rotary roller body (2-1), a rectangular groove (2-2), an inner end outer frame (2-3), a rotary rod (2-4), a rotary rod slider (2-5), an inner end spring I (2-6) and an inner end sliding rod A (2-7), an inner end sliding rod A (2-7) is fixedly connected with an inner end outer frame (2-3), an inner end spring I (2-6) is connected with the inner end sliding rod A (2-7) in a sleeved mode, a rotating rod slider (2-5) is connected with the inner end sliding rod A (2-7) in a sliding mode, a rectangular groove (2-2) is formed in the rotating roller body (2-1), the inner end outer frame (2-3) is arranged at the inner end of the rectangular groove (2-2), and the rotating roller body (2-1) is connected with a lower side support (1-3) in a rotating mode.

4. A processing plant for medical plastic packages, according to claim 1, characterized in that: the cutting assembly (3) comprises a cutting outer frame (3-1), an upper end auxiliary support (3-2), a middle end rotating rod (3-3), a driving clamping rod (3-4), a middle end rotary table (3-5), a rotary table boss (3-6), a hinged driving rod (3-7), an N-shaped frame (3-8), a middle end driving rotating rod (3-9), a cutting tool (3-10), a clamping rod push spring (3-11), a limiting plate (3-12), an upper end clamping groove (3-13), a rectangular hollow groove (3-14) and a matching clamping rod (3-15), wherein the upper end auxiliary support (3-2) is fixedly connected with the cutting outer frame (3-1), the middle end rotating rod (3-3) and the rotary table boss (3-6) are fixedly connected with the middle end rotary table (3-5), the middle-end turntable (3-5) is rotatably connected with the upper-end auxiliary support (3-2), the hinged driving rod (3-7) is hinged with the middle-end rotating rod (3-3), the hinged driving rod (3-7) is hinged with the N-shaped frame (3-8), the cutting tool (3-10) is connected with the driving rotating rod (3-9) in a sliding fit manner, the driving rotating rod (3-9) is rotatably connected with the cutting outer frame (3-1), the N-shaped frame (3-8) is rotatably connected with the cutting tool (3-10), the clamping rod push spring (3-11) is connected with the middle-end rotating rod (3-3) in a sleeved manner, the limiting plate (3-12) is fixedly connected with the middle-end rotating rod (3-3), the middle-end rotating rod (3-3) is slidably connected with the upper-end auxiliary support (3-2), the rectangular hollow grooves (3-14) are formed in the cutting outer frame (3-1), the upper end clamping grooves (3-13) are formed in the rectangular hollow grooves (3-14), the matching clamping rods (3-15) are matched and connected with the upper end clamping grooves (3-13), the matching clamping rods (3-15) are connected with the N-shaped frame (3-8) in a sliding mode, springs A are arranged between the matching clamping rods (3-15) and the N-shaped frame (3-8), the cutting outer frame (3-1) is fixedly connected with the feeding outer frame (1-1), the driving rotating rods (7) are fixedly connected with the driving rotating rods (3-9), and the middle end belts (1-13) are connected with the driving rotating rods (7) in a matching mode.

5. A processing plant for medical plastic packages, according to claim 1, characterized in that: the crushing assembly (4) comprises a crushing outer frame (4-1), a driving threaded rod (4-2), a first matching sliding rod (4-3), a middle-end rectangular outer frame (4-4), a spherical clamping groove (4-5), a second matching sliding rod (4-6), a sliding plate (4-7), a lower end hinged driving rod (4-8), double-sided bevel teeth (4-9), an inner end driving rotating rod A (4-11), a driving threaded rack (4-12), a cutter sleeve (4-13), a cutter sliding rod (4-14), a cutting cutter (4-15), a cutter push spring (4-16), an inner end cylindrical clamping rod (4-17) and a cylindrical clamping rod push spring (4-18), wherein the driving threaded rod (4-2) and the inner end driving rotating rod A (4-11) are rotatably connected with the crushing outer frame (4-1), a first matching slide rod (4-3) is connected with a drive threaded rod (4-2) in a sleeved mode, a middle-end rectangular outer frame (4-4) is fixedly connected with the first matching slide rod (4-3), a plurality of spherical clamping grooves (4-5) are arranged on the middle-end rectangular outer frame (4-4), a cylindrical clamping rod (4-17) is connected with the spherical clamping grooves (4-5) in a matched mode, the cylindrical clamping rod (4-17) is connected with a second matching slide rod (4-6) in a sliding mode, a cylindrical clamping rod push spring (4-18) is arranged between the two cylindrical clamping rods (4-17), the second matching slide rod (4-6) is fixedly connected with an outer frame (4-7), the slide rod (4-7) is connected with the drive threaded rod (4-2) in a sleeved mode, a lower end hinged drive rod (4-8) is connected with a crushing drive rod (4-1) in, a driving rod (4-8) hinged at the lower end is matched and connected with a sliding plate (4-7), a driving thread frame (4-12) is matched and connected with an inner end driving rotating rod A (4-11), a cutter sleeve (4-13) is matched and connected with the inner end driving rotating rod A (4-11) in a sliding way, a cutter sliding rod (4-14) is connected with the cutter sleeve (4-13) in a sliding way, a cutter push spring (4-16) is connected with the cutter sliding rod (4-14) in a sleeved way, a cutting cutter (4-15) is connected with the cutter sliding rod (4-14) in a sliding way, the cutting cutter (4-15) is attached to the inner wall of the crushing outer frame (4-1), a double-sided conical tooth (4-9) is fixedly connected with a driving thread rod (4-2), the driving thread rod (4-2) is connected with the driving thread frame (4-12, the driving rotating rod I (7) is connected with the connecting belt I (8) in a matching mode, the connecting belt I (8) is connected with the shaft-bearing bevel gear (9) in a matching mode, the shaft-bearing bevel gear (9) is connected with the crushing outer frame (4-1) in a rotating mode, the shaft-bearing bevel gear (9) is in meshing transmission with the double-sided bevel gear (4-9), and the connecting sleeve (6) is fixedly connected between the cutting outer frame (3-1) and the crushing outer frame (4-1).

6. A processing plant for medical plastic packages, according to claim 1, characterized in that: the power source assembly (5) comprises a power bottom plate (5-1), a bevel gear I (5-2), a transmission bevel gear shaft I (5-3), a bevel gear II (5-4), a bevel gear III (5-5), a bevel gear IV (5-6), an input motor (5-7), a middle end matching sleeve (5-8), a middle end driving sleeve (5-9), a hinged driving rod (5-10), a tension spring (5-11) and a connecting rod (5-13), wherein the transmission bevel gear shaft I (5-3) is rotationally connected with the power bottom plate (5-1), the bevel gear I (5-2) is fixedly connected with the transmission bevel gear shaft I (5-3), the bevel gear II (5-4) and the bevel gear III (5-5) are rotationally connected with the power bottom plate (5-1), and the transmission bevel gear shaft I (5-3) and the bevel gear II (5-4), A third bevel gear (5-5) is in matched link, a middle-end matched sleeve (5-8) is in sliding matched link with a first transmission bevel gear shaft (5-3), a middle-end driving sleeve (5-9) is in matched link with the middle-end matched sleeve (5-8), a middle-end driving sleeve (5-9) is in sliding matched link with a hinged driving rod (5-10), the hinged driving rod (5-10) is in rotating connection with a power bottom plate (5-1), an input motor (5-7) is fixedly connected with the power bottom plate (5-1), a fourth bevel gear (5-6) is fixedly connected with the input motor (5-7), a fourth bevel gear (5-6) is in meshed transmission with a second bevel gear (5-4) and a third bevel gear (5-5), and a middle-end matched sleeve (5-8) is in sliding fit link with the second bevel gear (5-4), The third bevel gear (5-5) is connected in a matching way, the crushing outer frame (4-1) is fixedly connected with the power bottom plate (5-1), and the first bevel gear (5-2) is in meshing transmission with the double-sided bevel gear (4-9).

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