CN111265743A - Medical treatment is with treatment facility of abandonment intravenous route ware - Google Patents

Abstract

The invention relates to the field of medical treatment, in particular to a treatment device of a medical waste intravenous injector. The waste intravenous injector can be crushed; the crushing effect can be adjusted according to the actual situation; the waste intravenous injector which is crushed can be disinfected, and meanwhile, the disinfectant can be automatically discharged. Including the power supply assembly, the separation and reunion assembly, smash the assembly, the disinfection chamber assembly, through antiseptic solution and the kibbling contact of abandonment intravenous route ware of smashing the completion, and then accomplish the kibbling disinfection of abandonment intravenous route ware of smashing the completion, through the kibbling increase of abandonment intravenous route ware simultaneously, and then promote the carrier bar and move down, and then promote the slurcam through spring A and move down along the disinfection chamber frame, and then push away spring one through the buffering through buffering slide bar one, the buffering pushes away two movements of spring two drive buffering slide bar, and then drive the closed pole through buffering slide bar two and rotate to the outside, and then make the antiseptic solution get rid of automatically.

Description

Medical treatment is with treatment facility of abandonment intravenous route ware

Technical Field

The invention relates to the field of medical treatment, in particular to a treatment device of a medical waste intravenous injector.

Background

A device for treating a medical waste intravenous syringe is a common device in the medical field, but is generally used

Disclosure of Invention

The invention aims to provide a treatment device of a medical waste intravenous injector, which can crush the waste intravenous injector; the crushing effect can be adjusted according to the actual situation; the waste intravenous injector which is crushed can be disinfected, and meanwhile, the disinfectant can be automatically discharged.

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

the utility model provides a medical treatment is with treatment facility of abandonment intravenous route ware, includes power supply assembly, separation and reunion assembly, smashes the assembly, disinfection chamber assembly, its characterized in that: the force source assembly is connected with the clutch assembly, the crushing assembly is connected with the clutch assembly, and the disinfection cavity assembly is connected with the crushing assembly.

As a further optimization of the technical scheme, the invention relates to a treatment device of a medical discarded intravenous injector, a power source combination body comprises a power source bottom plate, an input motor, a first transmission conical roller, a first transmission conical tooth, a middle-end transmission rod, a rectangular sliding frame, a second transmission conical tooth, a second transmission conical roller, an inner rotary column, a first hinge sliding rod push spring, a second hinge sliding rod and a second hinge sliding rod push spring, wherein the input motor is fixedly connected with the power source bottom plate, the first transmission conical roller is rotatably connected with the power source bottom plate, the first transmission conical roller is fixedly connected with the input motor, the first transmission conical tooth is in meshing transmission with the first transmission conical roller, the first transmission conical tooth is hinged with the middle-end transmission rod, the middle-end transmission rod is in matching connection with the second hinge sliding rod, the first hinge sliding rod is hinged with the rectangular sliding frame, and the first hinge sliding, the hinged sliding rod push spring II is connected with the hinged sliding rod II in a sleeved mode, the hinged sliding rod push spring I and the hinged sliding rod push spring II are arranged between the hinged sliding rod push spring II and the hinged sliding rod II, the rectangular sliding frame is connected with the power source bottom plate in a sliding mode, the transmission bevel gear II is connected with the middle-end transmission rod in a hinged mode, the transmission bevel gear II is in meshed transmission with the transmission bevel roller II, the transmission bevel roller II is fixedly connected with the inner rotary column, and the inner rotary column is connected with the power source bottom plate in a rotating mode.

As a further optimization of the technical scheme, the invention relates to a treatment device of a medical waste intravenous injector, wherein a clutch assembly comprises a clutch underframe, a clutch rotary column, a clutch push spring I, a clutch rod II, a driving belt wheel I and a prismatic rod, the clutch rotary column is rotationally connected with the clutch underframe, the prismatic rod is fixedly connected with the clutch rotary column, the clutch push spring I is connected with the prismatic rod in a sleeved mode, the clutch rod I is connected with the prismatic rod in a sliding mode, the clutch rod I is connected with the clutch rod II in a matched mode, the clutch rod II is rotationally connected with the clutch underframe, the driving belt wheel I is fixedly connected with the clutch rod II, and the clutch rotary column is fixedly connected with an inner end rotary column.

As a further optimization of the technical scheme, the invention relates to a treatment device of a medical discarded intravenous injector, wherein a crushing assembly comprises a crushing outer frame, a connecting plate, a side wall belt wheel I, a side wall belt wheel II, a side wall rotating column, an annular waist groove I, an annular waist groove II, a middle end rotating column, a middle end prismatic rod, a crushing leaf I, a crushing leaf II, a side wall rectangular groove, a side wall belt wheel III, a rectangular slider, a driving slide rod I, a driving hinge rod II, a side wall clamping groove, a side wall clamp and a side wall clamp push spring, the connecting plate is fixedly connected with the crushing outer frame, the side wall belt wheel I is rotatably connected with the crushing outer frame, the side wall belt wheel I and the side wall belt wheel II are cooperatively connected with the crushing outer frame, the side wall rotating column is rotatably connected with the crushing outer frame, the annular waist groove I and the annular waist groove II are arranged on the, the side wall belt wheel III is fixedly connected with the middle end rotary column, the crushing blade I, crushing second leaves are connected with a middle-end prismatic rod in a sliding mode, the middle-end prismatic rod is fixedly connected with a middle-end rotary column, a side wall rectangular groove is formed in a crushing outer frame, a side wall clamping groove is formed in the side wall rectangular groove, side wall clamps are connected with the side wall clamping groove in a matched mode, the side wall clamps are connected with a rectangular slider in a sliding mode, a side wall clamp push spring is arranged between the two side wall clamps, a driving slide rod I is connected with an annular waist groove in a matched mode, the driving slide rod I is connected with the crushing outer frame in a sliding mode, the driving hinge rod I is connected with the driving slide rod I in a hinged mode, the driving hinge rod I is connected with the driving hinge rod II in a sliding mode, the driving hinge rod II is connected with the crushing second leaves in a matched mode, a connecting plate is fixedly connected with a power source bottom plate, a clutch bottom.

As a further optimization of the technical scheme, the invention relates to a treatment device of a medical waste intravenous injector, wherein a disinfection cavity assembly comprises a disinfection cavity outer frame, a bearing rod, a closing rod, a lower side sliding column, a sliding column pushing spring I, a sliding column pushing spring II, an inner end sleeve, a buffering sliding rod I, a buffering pushing spring I, a buffering sliding rod II, a buffering pushing spring II and a pushing plate, wherein the bearing rod is connected with the pushing plate in a sliding way, a spring A is arranged between the bearing rod and the pushing plate, the closing rod is hinged with the disinfection cavity outer frame, the lower side sliding column is fixedly connected with the disinfection cavity outer frame, the pushing plate is fixedly connected with the inner end sleeve, the inner end sleeve is connected with the lower side sliding column in a sliding way, the sliding column pushing spring I is connected with the inner end sleeve in a sleeved way with the lower side sliding column, the sliding column pushing spring II is arranged between the pushing plate and the inner end sleeve, the buffering sliding rod I is hinged, the second buffer sliding rod is hinged with the closing rod, the first buffer pushing spring and the second buffer pushing spring are arranged between the first buffer sliding rod and the second buffer sliding rod, and the outer frame of the disinfection chamber is fixedly connected with the crushing outer frame.

The treatment equipment for the medical waste intravenous injector has the beneficial effects that:

the invention relates to a treatment device of a medical waste intravenous injector, which is characterized in that the crushed waste intravenous injector falls into a disinfection chamber outer frame, disinfectant is injected into the disinfection chamber outer frame, the disinfection of the crushed waste intravenous injector is completed through the contact of the disinfectant and the crushed waste intravenous injector, a bearing rod is pushed to move downwards through the increase of the crushed waste intravenous injector, a push plate is pushed to move downwards along the disinfection chamber outer frame through a spring A, a buffer slide rod II is driven to move through a buffer slide rod I and a buffer push spring II, a closing rod is driven to rotate outwards through the buffer slide rod II, and the disinfectant is automatically discharged.

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 first schematic view of the power source assembly of the present invention;

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

FIG. 5 is a third schematic structural view of the power source assembly of the present invention;

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

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

FIG. 8 is a first schematic view of the comminution assembly of the present invention;

FIG. 9 is a second schematic view of the comminution assembly of the present invention;

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

FIG. 11 is a first schematic view of a sterilization chamber assembly according to the present invention;

FIG. 12 is a second schematic structural view of the sterilization chamber assembly of the present invention.

In the figure: a power source assembly 1; a power source bottom plate 1-1; inputting a motor 1-2; 1-3 of a transmission conical roller; 1-4 of a transmission bevel gear I; a middle drive rod 1-5; 1-6 of a rectangular sliding frame; 1-7 parts of a second transmission bevel gear; a second transmission conical roller 1-8; inner end rotary columns 1-9; 1-10 of a hinged sliding rod I; hinged sliding rod push spring 1-11; a second hinged sliding rod 1-12; hinged sliding rod push spring two 1-13; a clutch assembly 2; a clutch chassis 2-1; a clutch rotary column 2-2; a clutch push spring I2-3; 2-4 parts of a clutch lever I; 2-5 of a clutch lever II; a first driving belt wheel 2-6; 2-7 of prismatic rods; a crushing assembly 3; crushing the outer frame 3-1; a connecting plate 3-2; a side wall belt wheel I3-3; 3-4 parts of a side wall belt I; a second side wall belt 3-5; side wall rotating columns 3-6; 3-7 of a ring-shaped waist groove I; 3-8 of a second annular waist groove; 3-9 of a middle-end rotary column; 3-10 of a middle prismatic rod; 3-11 parts of crushed first leaves; 3-12 parts of crushed second leaf; 3-13 side wall rectangular grooves; side wall belt wheels three 3-14; 3-15 parts of rectangular slider; driving the first sliding rod 3-16; driving the first hinge rod 3-17; driving the hinge rods II 3-18; side wall slots 3-19; side wall clips 3-22; 3-23 parts of side wall clip push springs; a disinfection chamber assembly 4; a disinfection cavity outer frame 4-1; a carrier bar 4-2; 4-3 of a closing rod; 4-4 of lower slide column; 4-5 of a sliding column push spring; 4-6 of a sliding column push spring II; inner end sleeves 4-7; 4-8 buffer sliding rods; 4-9 parts of a buffering push spring; 4-10 parts of a buffer sliding rod II; a second buffer push spring 4-11; pushing the plates 4-12.

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 welding; fixing by means of thread fixing and the like, and using different fixing modes by combining 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 is formed by a hinge; the pin shaft, the short shaft and other connecting parts are movably connected; the required sealing positions are sealed by sealing rings or O-shaped rings.

The first embodiment is as follows:

1. the following describes the present embodiment with reference to fig. 1 to 12, and a medical waste intravenous injector treatment apparatus includes a power source assembly 1, a clutch assembly 2, a crushing assembly 3, and a sterilization chamber assembly 4, and is characterized in that: the force source assembly 1 is connected with the clutch assembly 2, the crushing assembly 3 is connected with the clutch assembly 2, and the disinfection chamber assembly 4 is connected with the crushing assembly 3.

The second embodiment is as follows:

the embodiment is described below with reference to fig. 1-12, and the embodiment further describes the first embodiment, where the power source assembly 1 includes a power source bottom plate 1-1, an input motor 1-2, a transmission conical roller 1-3, a transmission conical tooth 1-4, a middle end transmission rod 1-5, a rectangular sliding frame 1-6, a transmission conical tooth two 1-7, a transmission conical roller two 1-8, an inner end rotating column 1-9, a hinge sliding rod one 1-10, a hinge sliding rod push spring one 1-11, a hinge sliding rod two 1-12, and a hinge sliding rod push spring two 1-13, the input motor 1-2 is fixedly connected with the power source bottom plate 1-1, the transmission conical roller one 1-3 is rotatably connected with the power source bottom plate 1-1, the transmission conical roller one 1-3 is fixedly connected with the input motor 1-2, the transmission bevel gear I1-4 is in meshed transmission with the transmission bevel roller I1-3, the transmission bevel gear I1-4 is hinged with the middle end transmission rod 1-5, the middle end transmission rod 1-5 is in matched connection with the hinge sliding rod II 1-12, the hinge sliding rod I1-10 is hinged with the rectangular sliding frame I1-6, the hinge sliding rod I1-10 is in sliding connection with the hinge sliding rod II 1-12, the hinge sliding rod push spring II 1-13 is in sleeved connection with the hinge sliding rod II 1-12, the hinge sliding rod push spring I1-11 and the hinge sliding rod push spring II 1-13 are both arranged between the hinge sliding rod push spring II 1-13 and the hinge sliding rod II 1-12, the rectangular sliding frame I1-6 is in sliding connection with the power source bottom plate 1-1, the transmission bevel gear II 1-7 is hinged with the middle end transmission rod I1-5, the transmission bevel gear II 1-7 is in meshed transmission with the transmission bevel roller II 1-8, the transmission bevel roller II 1-8 is fixedly connected with the inner end rotating column 1-9, and the inner end rotating column 1-9 is rotatably connected with the power source bottom plate 1-1.

The third concrete implementation mode:

the following describes the present embodiment with reference to fig. 1 to 12, and the present embodiment further describes the first embodiment, where the clutch assembly 2 includes a clutch chassis 2-1, a clutch rotating column 2-2, a clutch pushing spring one 2-3, a clutch rod one 2-4, a clutch rod two 2-5, a driving pulley one 2-6, and a prismatic rod 2-7, the clutch rotating column 2-2 is rotationally connected with the clutch chassis 2-1, the prismatic rod 2-7 is fixedly connected with the clutch rotating column 2-2, the clutch pushing spring one 2-3 is connected with the prismatic rod 2-7 in a sleeved manner, the clutch rod one 2-4 is slidably connected with the prismatic rod 2-7, the clutch rod one 2-4 is connected with the clutch rod two 2-5 in a matched manner, and the clutch rod two 2-5 is rotationally connected with the clutch chassis 2-1, the driving belt wheel I2-6 is fixedly connected with the clutch rod II 2-5, and the clutch rotating column 2-2 is fixedly connected with the inner end rotating column 1-9.

The fourth concrete implementation mode:

the embodiment is described below with reference to fig. 1-12, and the embodiment further describes the first embodiment, wherein the crushing assembly 3 includes a crushing outer frame 3-1, a connecting plate 3-2, a side wall pulley 3-3, a side wall belt 3-4, a side wall belt 3-5, a side wall rotating column 3-6, an annular waist groove 3-7, an annular waist groove 3-8, a middle end rotating column 3-9, a middle end prismatic rod 3-10, a crushing leaf 3-11, a crushing leaf 3-12, a side wall rectangular groove 3-13, a side wall pulley three 3-14, a rectangular slider 3-15, a driving sliding rod one 3-16, a driving hinge rod one 3-17, a driving hinge rod two 3-18, a side wall clamping groove 3-19, and a side wall clamp 3-22, A side wall clamp push spring 3-23, a connecting plate 3-2 is fixedly connected with a crushing outer frame 3-1, a side wall belt wheel I3-3 is rotatably connected with the crushing outer frame 3-1, a side wall belt I3-4 and a side wall belt II 3-5 are matched and connected with the side wall belt wheel I3-3, a side wall rotating column 3-6 is rotatably connected with the crushing outer frame 3-1, an annular waist groove I3-7 and an annular waist groove II 3-8 are arranged on the side wall rotating column 3-6, a middle end rotating column 3-9 is rotatably connected with a rectangular slider 3-15, a side wall belt wheel III 3-14 is fixedly connected with a middle end rotating column 3-9, a crushing blade I3-11, a crushing blade II 3-12 is slidably connected with a middle end prismatic rod 3-10, the middle end prismatic rod 3-10 is fixedly connected with the middle end rotating column 3-9, the side wall rectangular grooves 3-13 are arranged on the crushing outer frame 3-1, the side wall clamping grooves 3-19 are arranged on the side wall rectangular grooves 3-13, the side wall clips 3-22 are matched and connected with the side wall clamping grooves 3-19, the side wall clips 3-22 are slidably connected with the rectangular sliders 3-15, the side wall clip push springs 3-23 are arranged between the two side wall clips 3-22, the driving slide bar I3-16 is matched and connected with the annular waist groove I3-7, the driving slide bar I3-16 is slidably connected with the crushing outer frame 3-1, the driving hinge bar I3-17 is hinged and connected with the driving slide bar I3-16, the driving hinge bar I3-17 is slidably connected with the driving hinge bar II 3-18, the driving hinge bar II 3-18 is matched and connected with the crushing leaf II 3-12, and the connecting plate 3-2 is fixedly connected with the power source bottom plate 1-1, the clutch underframe 2-1 is fixedly connected with the connecting plate 3-2, the driving belt wheel I2-6 is in fit connection with the side wall belt I3-4, and the side wall belt wheel III 3-14 is in fit connection with the side wall belt I3-4.

The fifth concrete implementation mode:

the embodiment is described below with reference to fig. 1-12, and the embodiment further describes the first embodiment, wherein the disinfection chamber assembly 4 includes a disinfection chamber outer frame 4-1, a carrier bar 4-2, a closing bar 4-3, a lower sliding column 4-4, a sliding column push spring I4-5, a sliding column push spring II 4-6, an inner end sleeve 4-7, a buffer sliding bar I4-8, a buffer push spring I4-9, a buffer sliding bar II 4-10, a buffer push spring II 4-11, and a push plate 4-12, the carrier bar 4-2 is slidably connected with the push plate 4-12, a spring A is arranged between the carrier bar 4-2 and the push plate 4-12, the closing bar 4-3 is hinged with the disinfection chamber outer frame 4-1, the lower sliding column 4-4 is fixedly connected with the disinfection chamber outer frame 4-1, a push plate 4-12 is fixedly connected with an inner end sleeve 4-7, the inner end sleeve 4-7 is connected with a lower side sliding column 4-4 in a sliding manner, a sliding column push spring I4-5 is connected with the inner end sleeve 4-7 and the lower side sliding column 4-4 in a sleeved manner, a sliding column push spring II 4-6 is arranged between the push plate 4-12 and the inner end sleeve 4-7, a buffer sliding rod I4-8 is hinged with the push plate 4-12, a buffer sliding rod I4-8 is connected with a buffer sliding rod II 4-10 in a sliding manner, a buffer sliding rod II 4-10 is hinged with a closing rod 4-3, a buffer push spring I4-9, a second buffer push spring 4-11 is arranged between the first buffer slide bar 4-8 and the second buffer slide bar 4-10, and the outer frame 4-1 of the disinfection cavity is fixedly connected with the crushing outer frame 3-1;

the crushed waste intravenous syringes fall into the outer frame 4-1 of the disinfection chamber, meanwhile, disinfectant is injected into the outer frame 4-1 of the disinfection chamber, meanwhile, through the contact of the disinfectant and the fragments of the crushed waste intravenous syringes, thereby completing the sterilization of the crushed waste intravenous syringe fragments, and simultaneously through the increase of the waste intravenous syringe fragments, thereby pushing the bearing rod 4-2 to move downwards, further pushing the pushing plate 4-12 to move downwards along the outer frame 4-1 of the disinfection chamber through the spring A, further drives the buffer slide bar II 4-10 to move through the buffer slide bar I4-8, the buffer push spring I4-9 and the buffer push spring II 4-11, and the closing rod 4-3 is driven to rotate outwards by the buffer sliding rod two 4-10, so that the disinfectant is automatically discharged.

The invention relates to a treatment device of a medical waste intravenous injector, which has the working principle that:

when the power output device is used, the input motor 1-2 is started, the transmission conical roller I1-3 is driven to rotate, the transmission conical tooth I1-4 is driven to rotate, the transmission middle-end transmission rod 1-5 is driven to move through the transmission conical tooth I1-4, the transmission conical tooth II 1-7 is driven to rotate, the transmission conical roller II 1-8 is driven to rotate, the inner-end rotary column 1-9 is driven to rotate, and power output is facilitated through the inner-end rotary column 1-9; the rotating speed output by the inner rotating columns 1 to 9 can be adjusted according to the actual situation, the rectangular sliding frames 1 to 6 are manually slid, further drives the middle end transmission rod 1-5 to move through the first hinged sliding rod 1-10 and the second hinged sliding rod 1-12, further changing the transmission position of the transmission bevel gear I1-4 on the transmission conical roller I1-3 through the middle transmission rod 1-5, simultaneously, the transmission positions of the second transmission bevel gears 1-7 on the second transmission conical rollers 1-8 are changed, the transmission ratio between the transmission position of the first transmission bevel gear 1-4 on the first transmission conical roller 1-3 and the transmission position of the second transmission bevel gear 1-7 on the second transmission conical roller 1-8 is changed, and the chicken realizes the adjustment of the output speed of the inner rotary column 1-9; the inner end rotary column 1-9 rotates to drive the clutch rotary column 2-2 to rotate, further drives the prismatic rod 2-7 to rotate, further drives the clutch rod two 2-5 to move through the clutch rod one 2-4, further drives the driving belt wheel one 2-6 to move, further drives the side wall belt one 3-4 to move, further drives the side wall belt wheel one 3-3 to rotate, further drives the side wall belt two 3-5 to move, further drives the side wall rotary column 3-6 to rotate, simultaneously enables the annular waist groove one 3-7 to move along with the rotation of the side wall rotary column 3-6, when the side wall belt wheel three 3-14 rotates, drives the middle end rotary column 3-9 to rotate, further drives the middle end prismatic rod 3-10 to move, further drives the crushing leaf two 3-12 to rotate, and simultaneously contacts with the waste intravenous injector through the crushing leaf two 3-12, the crushing of the waste intravenous injector is further completed, meanwhile, the first driving slide rod 3-16, the first driving hinge rod 3-17 and the second driving hinge rod 3-18 drive the second crushing blade 3-12 to slide on the prismatic rod 3-10 at the middle end along with the movement of the first annular waist groove 3-7, so that the contact area with the waste intravenous injector is increased, and the crushing efficiency is further improved conveniently; meanwhile, the rectangular sliders 3-15 are slid along the rectangular grooves 3-13 on the side walls, and the middle-end rotating columns 3-9 are driven by the rectangular sliders 3-15, so that the distance from the second crushed leaves 3-12 to the bottom end of the crushing outer frame 3-1 is changed, and the crushing effect on the waste intravenous syringes is conveniently controlled; the crushed waste intravenous syringes fall into the outer frame 4-1 of the disinfection chamber, meanwhile, disinfectant is injected into the outer frame 4-1 of the disinfection chamber, meanwhile, through the contact of the disinfectant and the fragments of the crushed waste intravenous syringes, thereby completing the sterilization of the crushed waste intravenous syringe fragments, and simultaneously through the increase of the waste intravenous syringe fragments, thereby pushing the bearing rod 4-2 to move downwards, further pushing the pushing plate 4-12 to move downwards along the outer frame 4-1 of the disinfection chamber through the spring A, further drives the buffer slide bar II 4-10 to move through the buffer slide bar I4-8, the buffer push spring I4-9 and the buffer push spring II 4-11, and the closing rod 4-3 is driven to rotate outwards by the buffer sliding rod two 4-10, so that the disinfectant is automatically discharged.

Of course, the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and variations can be made by those skilled in the art within the spirit and scope of the present invention; modifying; and the addition or the replacement also belongs to the protection scope of the invention.

Claims (5)

1. The utility model provides a medical treatment is with treatment facility of abandonment intravenous route ware, includes power supply assembly (1), separation and reunion assembly (2), smashes assembly (3), disinfection chamber assembly (4), its characterized in that: the force source assembly (1) is connected with the clutch assembly (2), the crushing assembly (3) is connected with the clutch assembly (2), and the disinfection chamber assembly (4) is connected with the crushing assembly (3).

2. The disposal apparatus for medical waste intravenous syringes as set forth in claim 1, wherein: the power source assembly (1) comprises a power source bottom plate (1-1), an input motor (1-2), a transmission conical roller I (1-3), a transmission conical tooth I (1-4), a middle end transmission rod (1-5), a rectangular sliding frame (1-6), a transmission conical tooth II (1-7), a transmission conical roller II (1-8), an inner end rotating column (1-9), a hinged sliding rod I (1-10), a hinged sliding rod push spring I (1-11), a hinged sliding rod II (1-12) and a hinged sliding rod push spring II (1-13), wherein the input motor (1-2) is fixedly connected with the power source bottom plate (1-1), the transmission conical roller I (1-3) is rotatably connected with the power source bottom plate (1-1), the transmission conical roller I (1-3) is fixedly connected with the input motor (1-2), a first transmission bevel gear (1-4) is in meshing transmission with a first transmission conical roller (1-3), the first transmission bevel gear (1-4) is hinged with a middle end transmission rod (1-5), the middle end transmission rod (1-5) is in matching connection with a second hinge sliding rod (1-12), the first hinge sliding rod (1-10) is hinged with a rectangular sliding frame (1-6), the first hinge sliding rod (1-10) is in sliding connection with the second hinge sliding rod (1-12), the second hinge sliding rod push spring (1-13) is in sleeve connection with the second hinge sliding rod (1-12), the first hinge sliding rod push spring (1-11) and the second hinge sliding rod push spring (1-13) are arranged between the second hinge sliding rod push spring (1-13) and the second hinge sliding rod (1-12), the rectangular sliding frame (1-6) is in sliding connection with a power source bottom plate (1-1), the transmission bevel gear II (1-7) is hinged with the middle-end transmission rod (1-5), the transmission bevel gear II (1-7) is in meshing transmission with the transmission conical roller II (1-8), the transmission conical roller II (1-8) is fixedly connected with the inner end rotating column (1-9), and the inner end rotating column (1-9) is rotatably connected with the power source bottom plate (1-1).

3. The disposal apparatus for medical waste intravenous syringes as set forth in claim 1, wherein: the clutch assembly (2) comprises a clutch underframe (2-1), a clutch rotary column (2-2), a clutch push spring I (2-3), a clutch rod I (2-4), a clutch rod II (2-5), a driving belt wheel I (2-6) and a prismatic rod (2-7), the clutch rotary column (2-2) is rotationally connected with the clutch underframe (2-1), the prismatic rod (2-7) is fixedly connected with the clutch rotary column (2-2), the clutch push spring I (2-3) is connected with the prismatic rod (2-7) in a sleeved mode, the clutch rod I (2-4) is connected with the prismatic rod (2-7) in a sliding mode, the clutch rod I (2-4) is connected with the clutch rod II (2-5) in a matched mode, and the clutch rod II (2-5) is rotationally connected with the clutch underframe (2-1), the driving belt wheel I (2-6) is fixedly connected with the clutch rod II (2-5), and the clutch rotating column (2-2) is fixedly connected with the inner end rotating column (1-9).

4. The disposal apparatus for medical waste intravenous syringes as set forth in claim 1, wherein: the crushing assembly (3) comprises a crushing outer frame (3-1), a connecting plate (3-2), a side wall belt wheel I (3-3), a side wall belt I (3-4), a side wall belt II (3-5), a side wall rotating column (3-6), an annular waist groove I (3-7), an annular waist groove II (3-8), a middle end rotating column (3-9), a middle end prismatic rod (3-10), a crushing leaf I (3-11), a crushing leaf II (3-12), a side wall rectangular groove (3-13), a side wall belt wheel III (3-14), a rectangular slider (3-15), a driving slide rod I (3-16), a driving hinge rod I (3-17), a driving hinge rod II (3-18), a side wall clamping groove (3-19), a side wall clamp (3-22), and a side wall clamp, A side wall clamp push spring (3-23), a connecting plate (3-2) is fixedly connected with a crushing outer frame (3-1), a side wall belt wheel I (3-3) is rotatably connected with the crushing outer frame (3-1), a side wall belt I (3-4) and a side wall belt II (3-5) are matched and connected with the side wall belt wheel I (3-3), a side wall rotating column (3-6) is rotatably connected with the crushing outer frame (3-1), an annular waist groove I (3-7) and an annular waist groove II (3-8) are arranged on the side wall rotating column (3-6), a middle end rotating column (3-9) is rotatably connected with a rectangular slider (3-15), a side wall belt wheel III (3-14) is fixedly connected with a middle end rotating column (3-9), a crushing leaf I (3-11), a crushing leaf II (3-12) is slidably connected with a middle end prismatic rod (3-10), the middle-end prismatic rod (3-10) is fixedly connected with the middle-end rotary column (3-9), the side wall rectangular groove (3-13) is arranged on the crushing outer frame (3-1), the side wall clamping groove (3-19) is arranged on the side wall rectangular groove (3-13), the side wall clamp (3-22) is matched and connected with the side wall clamping groove (3-19), the side wall clamp (3-22) is slidably connected with the rectangular slider (3-15), the side wall clamp push spring (3-23) is arranged between the two side wall clamps (3-22), the driving slide rod I (3-16) is matched and connected with the annular waist groove I (3-7), the driving slide rod I (3-16) is slidably connected with the crushing outer frame (3-1), and the driving hinge rod I (3-17) is hinged and connected with the driving slide rod I (3-16), the first driving hinged rod (3-17) is connected with the second driving hinged rod (3-18) in a sliding mode, the second driving hinged rod (3-18) is connected with the second crushing blade (3-12) in a matching mode, the connecting plate (3-2) is fixedly connected with the power source bottom plate (1-1), the clutch underframe (2-1) is fixedly connected with the connecting plate (3-2), the first driving belt wheel (2-6) is connected with the first side wall belt (3-4) in a matching mode, and the third side wall belt wheel (3-14) is connected with the first side wall belt (3-4) in a matching mode.

5. The disposal apparatus for medical waste intravenous syringes as set forth in claim 1, wherein: the disinfection cavity assembly (4) comprises a disinfection cavity outer frame (4-1), a bearing rod (4-2), a closing rod (4-3), a lower side sliding column (4-4), a sliding column push spring I (4-5), a sliding column push spring II (4-6), an inner end sleeve (4-7), a buffering sliding rod I (4-8), a buffering push spring I (4-9), a buffering sliding rod II (4-10), a buffering push spring II (4-11) and a push plate (4-12), wherein the bearing rod (4-2) is in sliding connection with the push plate (4-12), a spring A is arranged between the bearing rod (4-2) and the push plate (4-12), the closing rod (4-3) is hinged with the disinfection cavity outer frame (4-1), the lower side sliding column (4-4) is fixedly connected with the disinfection cavity outer frame (4-1), the push plate (4-12) is fixedly connected with the inner end sleeve (4-7), the inner end sleeve (4-7) is connected with the lower side sliding column (4-4) in a sliding manner, the sliding column push spring I (4-5) is connected with the inner end sleeve (4-7) and the lower side sliding column (4-4) in a sleeved manner, the sliding column push spring II (4-6) is arranged between the push plate (4-12) and the inner end sleeve (4-7), the buffering sliding rod I (4-8) is hinged with the push plate (4-12), the buffering sliding rod I (4-8) is connected with the buffering sliding rod II (4-10) in a sliding manner, the buffering sliding rod II (4-10) is hinged with the closing rod (4-3), the buffering push spring I (4-9) and the buffering push spring II (4-11) are arranged between the buffering sliding rod I (4-8) and the buffering sliding rod II (4-10), the outer frame (4-1) of the disinfection cavity is fixedly connected with the outer frame (3-1) of the crushing cavity.

Images