CN111453460A - Medical garbage carrying equipment - Google Patents

Abstract

The invention relates to the field of medical treatment, in particular to medical waste carrying equipment. The medical waste can be carried; the quantity of the medical waste discharged can be adjusted; the carrying speed of the garbage can be adjusted; the component of the medical waste can be realized. Including the pan feeding assembly, push away the material assembly, the delivery assembly, the power supply assembly, the rotation assembly, the chassis, belt one, make the cooperation kelly to be connected with the cooperation of cooperation draw-in groove simultaneously, when the driving-disc pivot rotates, drive the driving-disc and rotate, and then the cooperation through cooperation draw-in groove and cooperation kelly is connected, and then drive the rotation sleeve pipe and rotate, and then make the carrier bar who bears medical waste rotate, medical waste on the carrier bar is got rid of to the effect of carrier bar through the carrier bar push spring simultaneously, simultaneously along with the rotation of carrier bar, make empty carrier bar and medical waste contact, and then realize the component to medical waste, convenient filling.

Description

Medical garbage carrying equipment

Technical Field

The invention relates to the field of medical treatment, in particular to medical waste carrying equipment.

Background

Medical waste carrying equipment is a common equipment in the medical field, but the general medical waste carrying equipment has single function.

Disclosure of Invention

The invention aims to provide medical waste carrying equipment which can carry medical waste; the quantity of the medical waste discharged can be adjusted; the carrying speed of the garbage can be adjusted; the component of the medical waste can be realized.

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

the utility model provides a medical treatment is with rubbish delivery equipment, includes the pan feeding assembly, pushes away the material assembly, carries the assembly, power supply assembly, rotates the assembly, chassis, belt one, the pan feeding assembly with push away the material assembly and be connected, carry the assembly and be connected with the chassis, the power supply assembly is connected with the chassis, push away the material assembly and be connected with the chassis, rotate the assembly and be connected with the chassis, the power supply assembly is connected with the carrying assembly, the power supply assembly with push away the material assembly and be connected.

As a further optimization of the technical scheme, the invention relates to medical garbage carrying equipment, wherein a feeding assembly comprises a feeding outer frame, an inner end sliding plate, an inner end roller, an outer side arc rod, an arc rod clamping rod, an outer side sliding table, an outer side hinged connecting rod, a connecting rod I, a closing plate, a rectangular sleeve, a buffering sleeve I, a buffering sleeve II, a buffering spring, an inner end clamping rod I, an auxiliary push spring, an auxiliary sliding rod, a clamping groove I, a closing plate push rod, a matching roller and a closing plate push rod push spring, wherein the inner end sliding plate is hinged with the feeding outer frame, the inner end roller is rotatably connected with the inner end sliding plate, the outer side arc rod is fixedly connected with the feeding outer frame, the arc rod clamping rod is arranged on the outer side arc rod, the outer side sliding table is slidably connected with the outer side arc rod, the outer side hinged connecting rod is hinged with the outer side sliding table, the connecting rod I is hinged with the outer, the device comprises a rectangular sleeve, a closing plate push rod, a rectangular sleeve, a matching roller, a closing plate push rod push spring, a closing plate push rod, a closing plate, a buffering sleeve I, a buffering sleeve II, a clamping groove I, an outer sliding table, an auxiliary sliding rod and an auxiliary sliding rod.

As a further optimization of the technical scheme, the medical garbage carrying equipment comprises a first rocker, a rocker clamping groove, a rocker slider, a first rocker, a pushing rod, a connecting boss, a rectangular plate, a rocker clip and a rocker pushing spring, wherein the rocker clamping groove is formed in the first rocker, the rocker slider is connected with the first rocker in a matched mode, the rocker clip is connected with the rocker slider in a sliding mode, the rocker pushing spring is arranged between the two rocker clips, the rocker clamping groove is connected with the rocker clip in a matched mode, the first rocker is connected with the rocker slider in a hinged mode, the first rocker is connected with the pushing rod in a hinged mode, the connecting boss is connected with the pushing rod in a sliding mode, the rectangular plate is fixedly connected with the pushing rod, and the connecting boss is fixedly connected with a feeding outer frame.

As a further optimization of the technical scheme, the invention relates to medical garbage carrying equipment, wherein a carrying assembly comprises a carrying outer frame, a carrying rotating shaft, an N-shaped frame, a carrying belt, a carrying roller, an upper side sliding rod, an inner side sliding rod I, an inner side sliding rod II, an inner side sliding rod push spring I, an inner end clamp II, an upper side sliding rod clamping groove, an upper side rotor, a rotor clamping rod and a rotor spring, wherein the carrying rotating shaft is rotatably connected with the carrying outer frame, the N-shaped frame is fixedly connected with the carrying outer frame, the carrying belt is matched and connected with the inner side sliding rod I, the carrying roller is fixedly connected with the carrying rotating shaft, the inner end clamp II is slidably connected with the N-shaped frame, the inner end spring I is arranged between the inner end clamp II and the N-shaped frame, the inner end clamp II is matched and connected with the upper side sliding rod clamping, the inner side sliding rod pushing spring I is connected with the inner side sliding rod II in a sleeved mode, the inner side sliding rod pushing spring I is arranged between the inner side sliding rod I and the inner side sliding rod II, the inner side sliding rod II is fixedly connected with the carrying roller, the upper side rotor is connected with the upper side sliding rod in a rotating mode, the rotor clamping rod is connected with the upper side rotor in a sliding mode, the rotor spring is arranged between the rotor clamping rod and the upper side rotor, the rotor clamping rod is connected with the clamping groove I in a matched mode, and the outer side hinged connecting rod is connected.

As a further optimization of the technical scheme, the invention relates to medical garbage carrying equipment, wherein a power source assembly comprises a power source bottom plate, an input motor, an input friction disk, a middle-end friction disk, a transmission friction disk, a driving slide rod, a prismatic slide rod, a clutch rotating rod, a clutch plate I, a clutch plate II, a transmission shaft I, a connecting belt I, a clutch plate pushing spring, a side pushing spring I, a side slide rod, a side clamping groove, a side clamp and a side clamp pushing spring, wherein the input motor is fixedly connected with the power source bottom plate, the input friction disk is fixedly connected with the input motor, the input friction disk is in friction transmission with the middle-end friction disk, the middle-end friction disk is in rotation connection with the power source bottom plate, the transmission friction disk is in friction transmission with the middle-end friction disk, the transmission friction disk is in fit connection with the driving slide rod, the clutch rotating rod is connected with the power source bottom plate in a rotating mode, the clutch plate I is connected with the clutch rotating rod in a sliding mode, the clutch plate I is connected with the clutch plate II in a matching mode, the transmission shaft I is fixedly connected with the clutch plate II, the transmission shaft I is connected with the power source bottom plate in a rotating mode, the connecting belt I is connected with the transmission shaft I in a matching mode, the clutch plate pushes the spring to be connected with the clutch rotating rod in a sleeving mode, the side sliding rod is fixedly connected with the power source bottom plate, the side clamping groove is formed in the side sliding rod, the side pushing spring I is connected with the side sliding rod in a sleeving mode, the side clamp is connected with the driving sliding rod in a sliding mode, the side clamp is connected with the side clamping groove in a matching mode, the.

As a further optimization of the technical scheme, the invention relates to medical garbage carrying equipment, wherein a rotating assembly comprises a rotating sleeve, a bearing rod, a driving disk rotating shaft, a matching clamping rod, a bearing rod sliding rod, a bearing rod push spring, a rotating sleeve rotating rod, a matching clamping groove, an outer side support and an outer side hinge post, the bearing rod sliding rod is fixedly connected with the rotating sleeve, the bearing rod push spring is connected with the bearing rod sliding rod in a sleeved mode, the bearing rod is connected with the bearing rod sliding rod in a sliding mode, the driving disk is fixedly connected with the driving disk rotating shaft, the driving disk rotating shaft is rotatably connected with an underframe, a belt is connected between the driving disk rotating shaft and a clutch rotating rod, the matching clamping rod is connected with the bearing rod in a hinged mode, the rotating sleeve rotating rod is fixedly connected with the rotating sleeve, the rotating sleeve rotating rod is rotatably connected with the driving disk rotating shaft, the outer side hinged column is fixedly connected with the outer side support, and the outer side hinged column is connected with the matching clamping rod in a matching mode.

The medical garbage carrying equipment has the beneficial effects that:

according to the medical garbage carrying equipment, the bearing rod push spring is compressed, the matching clamping rod is driven to rotate along the outer hinge post through the bearing rod, the matching clamping rod is connected with the matching clamping groove in a matching mode, when the driving disk rotating shaft rotates, the driving disk is driven to rotate, the matching clamping groove is connected with the matching clamping rod in a matching mode, the rotating sleeve is driven to rotate, the bearing rod bearing medical garbage rotates, medical garbage on the bearing rod is discharged through the effect of the bearing rod push spring on the bearing rod, meanwhile, the empty bearing rod is contacted with the medical garbage along with the rotation of the bearing rod, the component of the medical garbage is further achieved, and filling is convenient.

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 third schematic structural view of the feeding assembly of the present invention;

FIG. 7 is a fourth schematic structural view of the feeding assembly of the present invention;

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

FIG. 9 is a first schematic view of a carrier assembly according to the present invention;

FIG. 10 is a schematic view of a second embodiment of the carrier assembly of the present invention;

FIG. 11 is a third schematic view of the carrying assembly of the present invention;

FIG. 12 is a first schematic view of the power source assembly of the present invention;

FIG. 13 is a schematic structural diagram of a power source assembly according to the present invention;

FIG. 14 is a first schematic view of the structure of the rotating assembly of the present invention;

fig. 15 is a second structural schematic diagram of the rotating assembly of the present invention.

In the figure: a feeding assembly 1; feeding an outer frame 1-1; an inner end sliding plate 1-2; inner end rollers 1-3; 1-4 of outer arc-shaped rods; 1-5 of an arc rod clamping rod; outer sliding tables 1-6; outer hinged links 1-7; 1-8 of a first connecting rod; closure panels 1-9; 1-10 of a rectangular sleeve; 1-11 parts of a buffer sleeve; 1-12 parts of a buffer sleeve II; 1-13 of a buffer spring; the inner end clamping rod I is 1-14; auxiliary push springs 1-15; 1-16 auxiliary slide bars; a first clamping groove 1-17; closing plate push rods 1-18; mating rollers 1-19; closing plate push rod push spring 1-20; a material pushing assembly 2; a rocker I2-1; a rocker clamping groove 2-2; 2-3 of a rocker slider; 2-4 parts of a first swing rod; 2-5 of a material pushing rod; connecting bosses 2-6; 2-7 of rectangular plates; a rocker clip 2-8; a rocker push spring 2-9; the carrying assembly 3; carrying the outer frame 3-1; a carrying rotating shaft 3-2; 3-3 of an N-shaped frame; 3-4 of a carrier belt; carrying rollers 3-5; 3-6 of upper slide bar; 3-7 of an inner slide bar I; 3-8 parts of an inner slide bar II; the inner slide bar push spring is 3-9; 3-10 parts of an inner end spring; inner end clips 3-11; the upper side slide bar clamping groove is 3-12; upper rotors 3-13; 3-14 parts of a rotor clamping rod; 3-15 parts of rotor spring; a power source assembly 4; a power source bottom plate 4-1; inputting a motor 4-2; an input friction disc 4-3; 4-4 of a middle friction disc; 4-5 of a transmission friction disc; driving the sliding rod 4-6; 4-7 of prismatic slide bars; 4-8 of a clutch rotating rod; 4-9 parts of clutch plate I; 4-10 parts of a clutch plate II; 4-11 parts of a first transmission shaft; 4-12 parts of a first connecting belt; clutch plate push springs 4-13; side push spring 4-14; 4-15 side sliding rods; 4-16 side clamping grooves; side clips 4-17; 4-18 of side clip push springs; a rotating assembly 5; rotating the sleeve 5-1; a carrier bar 5-2; a drive disc 5-3; a driving disc rotating shaft 5-4; 5-5 of a matching clamping rod; 5-6 of a bearing rod sliding rod; a load bar push spring 5-7; rotating the sleeve rotating rod by 5-8; 5-9 of a matching clamping groove; 5-10 parts of outer brackets; outer hinge columns 5-11; a chassis 6; and a first belt 7.

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:

the embodiment is described below with reference to fig. 1 to 15, and a medical waste carrying device includes a feeding assembly 1, a pushing assembly 2, a carrying assembly 3, a power source assembly 4, a rotating assembly 5, an underframe 6, and a belt 7, where the feeding assembly 1 is connected to the pushing assembly 2, the carrying assembly 3 is connected to the underframe 6, the power source assembly 4 is connected to the underframe 6, the pushing assembly 2 is connected to the underframe 6, the rotating assembly 5 is connected to the underframe 6, the power source assembly 4 is connected to the carrying assembly 3, and the power source assembly 4 is connected to the pushing assembly 2.

The second embodiment is as follows:

the embodiment is described below with reference to fig. 1-15, and the embodiment further describes the first embodiment, where the feeding assembly 1 includes a feeding outer frame 1-1, an inner end sliding plate 1-2, an inner end roller 1-3, an outer side arc rod 1-4, an arc rod clamping rod 1-5, an outer side sliding table 1-6, an outer side hinged connecting rod 1-7, a connecting rod one 1-8, a closing plate 1-9, a rectangular sleeve 1-10, a buffer sleeve one 1-11, a buffer sleeve two 1-12, a buffer spring 1-13, an inner end clamping rod one 1-14, an auxiliary push spring 1-15, an auxiliary sliding rod 1-16, a clamping groove one 1-17, a closing plate push rod 1-18, a matching roller 1-19, a closing plate push rod push spring 1-20, an inner end sliding plate 1-2 hinged to the feeding outer frame 1-1, an inner end roller 1-3 is rotatably connected with an inner end sliding plate 1-2, an outer side arc-shaped rod 1-4 is fixedly connected with a feeding outer frame 1-1, an arc-shaped rod clamping rod 1-5 is arranged on the outer side arc-shaped rod 1-4, an outer side sliding table 1-6 is slidably connected with the outer side arc-shaped rod 1-4, an outer side hinged connecting rod 1-7 is hinged with the outer side sliding table 1-6, a connecting rod 1-8 is hinged with an outer side hinged connecting rod 1-7, a connecting rod 1-8 is hinged with an outer closing plate 1-9, a rectangular sleeve 1-10 is rotatably connected with the feeding outer frame 1-1, a closing plate push rod 1-18 is slidably connected with a rectangular sleeve 1-10, a matching roller 1-19 is in matching connection with the rectangular sleeve 1-10, a closing plate push rod push spring 1-20 is in sleeve connection with the closing plate push rod, the closed plates 1-9 are matched and connected with the matched rollers 1-19, the buffer sleeve I1-11 is hinged with the inner end sliding plate 1-2, the buffer sleeve I1-11 is slidably connected with the buffer sleeve II 1-12, the buffer sleeve II 1-12 is hinged with the feeding outer frame 1-1, the buffer spring 1-13 is arranged between the buffer sleeve I1-11 and the buffer sleeve II 1-12, the clamping groove I1-17 is arranged on the outer hinged connecting rod 1-7, the outer sliding table 1-6 is fixedly connected with the auxiliary sliding rod 1-16, the inner end clamping rod I1-14 is slidably connected with the auxiliary sliding rod 1-16, the auxiliary pushing spring 1-15 is sleeved and connected with the auxiliary sliding rod 1-16, the inner end clamping rod I1-14 is matched and connected with the arc-shaped rod clamping rod 1-5, a tension spring A is connected between the outer hinged connecting rod 1-7 and the feeding outer frame 1-1. .

The third concrete implementation mode:

the first embodiment is further explained by referring to fig. 1-15, the pushing assembly 2 includes a rocker 2-1, a rocker slot 2-2, a rocker slider 2-3, a rocker 2-4, a pushing rod 2-5, a connecting boss 2-6, a rectangular plate 2-7, a rocker clip 2-8, a rocker pushing spring 2-9, the rocker slot 2-2 is disposed on the rocker 2-1, the rocker slider 2-3 is connected with the rocker 2-1 in a matching manner, the rocker clip 2-8 is connected with the rocker slider 2-3 in a sliding manner, the rocker pushing spring 2-9 is disposed between the two rocker clips 2-8, the rocker slot 2-2 is connected with the rocker clip 2-8 in a matching manner, the rocker 2-4 is connected with the rocker slider 2-3 in a hinged manner, the first swing rod 2-4 is hinged with the material pushing rod 2-5, the connecting boss 2-6 is in sliding connection with the material pushing rod 2-5, the rectangular plate 2-7 is fixedly connected with the material pushing rod 2-5, and the connecting boss 2-6 is fixedly connected with the feeding outer frame 1-1.

The fourth concrete implementation mode:

the first embodiment is further described with reference to fig. 1-15, the carrying assembly 3 includes a carrying outer frame 3-1, a carrying rotary shaft 3-2, an N-shaped frame 3-3, a carrying belt 3-4, a carrying roller 3-5, an upper side slide bar 3-6, an inner side slide bar 3-7, an inner side slide bar 3-8, an inner side slide bar push spring 3-9, an inner end spring 3-10, an inner end clip 3-11, an upper side slide bar slot 3-12, an upper side rotor 3-13, a rotor clip 3-14, and a rotor spring 3-15, the carrying rotary shaft 3-2 is rotatably connected with the carrying outer frame 3-1, the N-shaped frame 3-3 is fixedly connected with the carrying outer frame 3-1, the carrying belt 3-4 is cooperatively connected with the inner side slide bar 3-7, the carrying rollers 3-5 are fixedly connected with a carrying rotating shaft 3-2, the inner end clamps 3-11 are connected with the N-shaped frame 3-3 in a sliding mode, the inner end springs 3-10 are arranged between the inner end clamps 3-11 and the N-shaped frame 3-3, the inner end clamps 3-11 are connected with the upper side slide bar clamping grooves 3-12 in a matching mode, the upper side slide bar clamping grooves 3-12 are arranged on the upper side slide bars 3-6, the inner side slide bars 3-7 are connected with the inner side slide bars 3-8 in a sliding mode, the inner side slide bar push springs 3-9 are connected with the inner side slide bars 3-8 in a sleeving mode, the inner side slide bar push springs 3-9 are arranged between the inner side slide bars 3-7 and the inner side slide bars 3-8, the inner side slide bars 3-8 are fixedly connected with the carrying rollers 3-5, and the upper side rotors 3-, the rotor clamping rods 3-14 are connected with the upper side rotors 3-13 in a sliding mode, the rotor springs 3-15 are arranged between the rotor clamping rods 3-14 and the upper side rotors 3-13, the rotor clamping rods 3-14 are connected with the clamping grooves I1-17 in a matched mode, and the outer hinged connecting rods 1-7 are connected with the upper side rotors 3-13 in a matched 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, where the power source assembly 4 includes a power source bottom plate 4-1, an input motor 4-2, an input friction disk 4-3, a middle-end friction disk 4-4, a transmission friction disk 4-5, a drive slide rod 4-6, a prismatic slide rod 4-7, a clutch rotating rod 4-8, a clutch plate one 4-9, a clutch plate two 4-10, a transmission shaft one 4-11, a connecting belt one 4-12, a clutch plate push spring 4-13, a side push spring one 4-14, a side slide rod 4-15, a side slot 4-16, a side clip 4-17, and a side clip push spring 4-18, where the input motor 4-2 is fixedly connected to the power source bottom plate 4-1, an input friction disk 4-3 is fixedly connected with an input motor 4-2, the input friction disk 4-3 is in friction transmission with a middle end friction disk 4-4, the middle end friction disk 4-4 is in rotation connection with a power source bottom plate 4-1, a transmission friction disk 4-5 is in friction transmission with the middle end friction disk 4-4, the transmission friction disk 4-5 is in matching connection with a driving slide rod 4-6, the transmission friction disk 4-5 is in sliding connection with a prismatic slide rod 4-7, the prismatic slide rod 4-7 is fixedly connected with a clutch rotating rod 4-8, the clutch rotating rod 4-8 is in rotation connection with the power source bottom plate 4-1, a clutch plate I4-9 is in sliding connection with the clutch rotating rod 4-8, the clutch plate I4-9 is in matching connection with a clutch plate II 4-10, a transmission shaft I4-11 is fixedly connected with the clutch, the transmission shaft I4-11 is rotatably connected with the power source base plate 4-1, the connecting belt I4-12 is in fit connection with the transmission shaft I4-11, the clutch plate push spring 4-13 is in socket connection with the clutch rotating rod 4-8, the side sliding rod 4-15 is fixedly connected with the power source base plate 4-1, the side clamping groove 4-16 is arranged on the side sliding rod 4-15, the side push spring I4-14 is in socket connection with the side sliding rod 4-15, the side clamp 4-17 is in slide connection with the driving sliding rod 4-6, the side clamp 4-17 is in fit connection with the side clamping groove 4-16, the side clamp push spring 4-18 is arranged between the two side clamps 4-17, the transmission shaft I4-11 is fixedly connected with the rocker I2-1, and the connecting belt I4-12 is in fit connection with the connecting belt I4-12.

The sixth specific 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 rotating assembly 5 includes a rotating sleeve 5-1, a bearing rod 5-2, a driving disk 5-3, a driving disk rotating shaft 5-4, a matching clamping rod 5-5, a bearing rod sliding rod 5-6, a bearing rod push spring 5-7, a rotating sleeve rotating rod 5-8, a matching clamping slot 5-9, an outer bracket 5-10, and an outer hinge column 5-11, the bearing rod sliding rod 5-6 is fixedly connected with the rotating sleeve 5-1, the bearing rod push spring 5-7 is connected with the bearing rod sliding rod 5-6 in a sleeved manner, the bearing rod 5-2 is connected with the bearing rod sliding rod 5-6 in a sliding manner, and the driving disk 5-3 is fixedly connected with the driving disk rotating shaft 5-4, a driving disc rotating shaft 5-4 is rotatably connected with an underframe 6, a belt I7 is connected between the driving disc rotating shaft 5-4 and a clutch rotating rod 4-8, a matching clamping rod 5-5 is hinged with a bearing rod 5-2, a rotating sleeve rotating rod 5-8 is fixedly connected with a rotating sleeve 5-1, the rotating sleeve rotating rod 5-8 is rotatably connected with the driving disc rotating shaft 5-4, a matching clamping groove 5-9 is matched and connected with a driving disc 5-3, an outer side support 5-10 is fixedly connected with the rotating sleeve 5-1, an outer side hinge column 5-11 is fixedly connected with an outer side support 5-10, and an outer side hinge column 5-11 is matched and connected with the matching clamping rod 5-5;

the medical waste falls into the bearing rod 5-2, so that the bearing rod 5-2 moves downwards along the bearing rod sliding rod 5-6, the bearing rod push spring 5-7 is compressed, the matched clamping rod 5-5 is driven to rotate along the outer hinged column 5-11 through the bearing rod 5-2, the matched clamping rod 5-5 is connected with the matched clamping groove 5-9 in a matched mode, when the driving disk rotating shaft 5-4 rotates, the driving disk 5-3 is driven to rotate, the matched clamping groove 5-9 is connected with the matched clamping rod 5-5 in a matched mode, the rotating sleeve 5-1 is driven to rotate, the bearing rod 5-2 bearing the medical waste is further driven to rotate, and the medical waste on the bearing rod 5-2 is removed through the effect of the bearing rod push spring 5-7 on the bearing rod 5-2, meanwhile, with the rotation of the bearing rod 5-2, the empty bearing rod 5-2 is in contact with the medical waste, so that the medical waste is distributed, and the filling is convenient.

The invention relates to medical garbage carrying equipment, which has the working principle that: when the medical garbage collection device is used, medical garbage to be treated is poured in through the upper end of the feeding outer frame 1-1, meanwhile, the medical garbage can conveniently fall into the feeding outer frame 1-1 through the medical garbage and the inner end rollers 1-3, meanwhile, the outer sliding table 1-6 is manually slid along the outer arc-shaped rods 1-4, meanwhile, the closing plates 1-9 are driven to slide along the inner ends of the rectangular sleeves 1-10 to the outer side through the communication of the outer hinged connecting rods 1-7 and the connecting rods 1-8, further, gaps are formed between the closing plates 1-9 and the feeding outer frame 1-1, further, the medical garbage can conveniently flow out, meanwhile, the gaps formed between the closing plates 1-9 and the feeding outer frame 1-1 are changed through the positions of the outer sliding tables 1-6 sliding on the outer arc-shaped rods 1-4, the falling amount of medical waste is convenient to change, and meanwhile, the use positions of the outer sliding tables 1-6 on the outer arc-shaped rods 1-4 are fixed through the matching connection of the inner end clamping rods 1-14 and the arc-shaped rod clamping rods 1-5; the rocker I2-1 rotates, the rocker I2-4 is driven to move by the rocker slider 2-3, and the material pushing rod 2-5 and the rectangular plate 2-7 are driven to move by the rocker I2-4, so that medical waste is pushed; when the carrying rotating shaft 3-2 rotates, the carrying rollers 3-5 are driven to rotate, the carrying belts 3-4 are driven to move through the inner side sliding rods 3-7 and the inner side sliding rods 3-8, the carrying process of the medical waste is further realized through the carrying belts 3-4, meanwhile, when the medical waste falling on the carrying belts 3-4 is overweight, the carrying outer frame 3-1 rotates towards the lower side, the outer side hinged connecting rods 1-7 are driven to move through the upper side sliding rods 3-6 and the upper side rotors 3-13, the connecting rods 1-8 are driven through the outer side hinged connecting rods 1-7 to drive the closing plates 1-9 to shield the feeding outer frame 1-1, the falling amount of the medical waste is further reduced, and the automatic adjustment of the carrying efficiency of the carrying belts 3-4 is further realized, when the medical waste on the carrying belts 3-4 is reduced, the tension spring A is connected between the outer hinged connecting rods (1-7) and the feeding outer frame (1-1), and the connecting rods 1-8 drive the closing plates 1-9 through the outer hinged connecting rods 1-7 so as to restore the original positions of the closing plates 1-9 and further restore the falling amount of the medical waste; starting an input motor 4-2, driving an input friction disc 4-3 to move, driving a middle-end friction disc 4-4 to move through the input friction disc 4-3, driving a transmission friction disc 4-5 to move through the middle-end friction disc 4-4, driving a prismatic sliding rod 4-7 to rotate, driving a clutch rotating rod 4-8 to rotate, driving a driving disc rotating shaft 5-4 to rotate through a belt I7, driving a clutch plate II 4-10 to move through a clutch plate I4-9, driving a transmission shaft I4-11 to move, driving a carrying rotating shaft 3-2 to rotate through a connecting belt I4-12, and driving a rocker I2-1 to rotate through the transmission shaft I4-11; adjusting the transmission ratio output through a transmission shaft I4-11 according to actual conditions, manually pushing a driving slide rod 4-6, simultaneously driving a transmission friction disc 4-5 to slide along a prismatic slide rod 4-7 through the driving slide rod 4-6, and simultaneously changing the use position of the transmission friction disc 4-5 on a middle-end friction disc 4-4, so that the transmission ratios between an input friction disc 4-3 and the middle-end friction disc 4-4 and between the middle-end friction disc 4-4 and the transmission friction disc 4-5 are changed, and further adjusting the transmission ratio output through the transmission shaft I4-11; the medical waste falls into the bearing rod 5-2, so that the bearing rod 5-2 moves downwards along the bearing rod sliding rod 5-6, the bearing rod push spring 5-7 is compressed, the matched clamping rod 5-5 is driven to rotate along the outer hinged column 5-11 through the bearing rod 5-2, the matched clamping rod 5-5 is connected with the matched clamping groove 5-9 in a matched mode, when the driving disk rotating shaft 5-4 rotates, the driving disk 5-3 is driven to rotate, the matched clamping groove 5-9 is connected with the matched clamping rod 5-5 in a matched mode, the rotating sleeve 5-1 is driven to rotate, the bearing rod 5-2 bearing the medical waste is further driven to rotate, and the medical waste on the bearing rod 5-2 is removed through the effect of the bearing rod push spring 5-7 on the bearing rod 5-2, meanwhile, with the rotation of the bearing rod 5-2, the empty bearing rod 5-2 is in contact with the medical waste, so that the medical waste is distributed, and the filling is convenient.

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 (6)

1. The utility model provides a medical treatment is with rubbish delivery equipment, includes pan feeding assembly (1), pushes away material assembly (2), delivery assembly (3), power supply assembly (4), rotates assembly (5), chassis (6), belt (7), its characterized in that: the feeding assembly (1) is connected with the pushing assembly (2), the carrying assembly (3) is connected with the bottom frame (6), the power source assembly (4) is connected with the bottom frame (6), the pushing assembly (2) is connected with the bottom frame (6), the rotating assembly (5) is connected with the bottom frame (6), the power source assembly (4) is connected with the carrying assembly (3), and the power source assembly (4) is connected with the pushing assembly (2).

2. A medical waste carrying facility according to claim 1, further comprising: the feeding assembly (1) comprises a feeding outer frame (1-1), an inner sliding plate (1-2), an inner roller (1-3), an outer arc rod (1-4), an arc rod clamping rod (1-5), an outer sliding table (1-6), an outer hinged connecting rod (1-7), a connecting rod I (1-8), a closing plate (1-9), a rectangular sleeve (1-10), a buffer sleeve I (1-11), a buffer sleeve II (1-12), a buffer spring (1-13), an inner clamping rod I (1-14), an auxiliary push spring (1-15), an auxiliary sliding rod (1-16), a clamping groove I (1-17), a closing plate push rod (1-18), a matching roller (1-19) and a closing plate push rod push spring (1-20), an inner end sliding plate (1-2) is hinged with a feeding outer frame (1-1), an inner end roller (1-3) is rotatably connected with the inner end sliding plate (1-2), an outer side arc rod (1-4) is fixedly connected with the feeding outer frame (1-1), an arc rod clamping rod (1-5) is arranged on the outer side arc rod (1-4), an outer side sliding table (1-6) is slidably connected with the outer side arc rod (1-4), an outer side hinged connecting rod (1-7) is hinged with the outer side sliding table (1-6), a connecting rod I (1-8) is hinged with the outer side hinged connecting rod (1-7), a connecting rod I (1-8) is hinged with an outer closing plate (1-9), a rectangular sleeve (1-10) is rotatably connected with the feeding outer frame (1-1), a closing plate push rod (1-18) is connected with a rectangular sleeve (1-10) in a sliding manner, a matching roller (1-19) is connected with the rectangular sleeve (1-10) in a matching manner, a closing plate push rod push spring (1-20) is connected with the closing plate push rod (1-18) in a sleeving manner, a closing plate (1-9) is connected with the matching roller (1-19) in a matching manner, a buffer sleeve I (1-11) is hinged with an inner end sliding plate (1-2), a buffer sleeve I (1-11) is connected with a buffer sleeve II (1-12) in a sliding manner, the buffer sleeve II (1-12) is hinged with a feeding outer frame (1-1), a buffer spring (1-13) is arranged between the buffer sleeve I (1-11) and the buffer sleeve II (1-12), a clamping groove I (1-17) is arranged on an outer side hinged connecting rod (1-7), the outer sliding table (1-6) is fixedly connected with the auxiliary sliding rod (1-16), the inner end clamping rod I (1-14) is connected with the auxiliary sliding rod (1-16) in a sliding mode, the auxiliary push spring (1-15) is connected with the auxiliary sliding rod (1-16) in a sleeved mode, the inner end clamping rod I (1-14) is connected with the arc-shaped rod clamping rod (1-5) in a matched mode, and a tension spring A is connected between the outer hinged connecting rod (1-7) and the feeding outer frame (1-1).

3. A medical waste carrying facility according to claim 1, further comprising: the pushing assembly (2) comprises a rocker I (2-1), a rocker clamping groove (2-2), a rocker slider (2-3), a rocker I (2-4), a pushing rod (2-5), a connecting boss (2-6), a rectangular plate (2-7), rocker clips (2-8) and a rocker pushing spring (2-9), wherein the rocker clamping groove (2-2) is arranged on the rocker I (2-1), the rocker slider (2-3) is matched and connected with the rocker I (2-1), the rocker clips (2-8) are in sliding connection with the rocker slider (2-3), the rocker pushing spring (2-9) is arranged between the two rocker clips (2-8), the rocker clamping groove (2-2) is matched and connected with the rocker clips (2-8), the rocker I (2-4) is hinged and connected with the rocker slider (2-3), the swing rod I (2-4) is hinged with the material pushing rod (2-5), the connecting boss (2-6) is connected with the material pushing rod (2-5) in a sliding mode, the rectangular plate (2-7) is fixedly connected with the material pushing rod (2-5), and the connecting boss (2-6) is fixedly connected with the feeding outer frame (1-1).

4. A medical waste carrying facility according to claim 1, further comprising: the carrying assembly (3) comprises a carrying outer frame (3-1), a carrying rotating shaft (3-2), an N-shaped frame (3-3), a carrying belt (3-4), a carrying roller (3-5), an upper side sliding rod (3-6), an inner side sliding rod I (3-7), an inner side sliding rod II (3-8), an inner side sliding rod push spring I (3-9), an inner end spring I (3-10), an inner end clamp II (3-11), an upper side sliding rod clamping groove (3-12), an upper side rotor (3-13), a rotor clamping rod (3-14) and a rotor spring (3-15), wherein the carrying rotating shaft (3-2) is rotatably connected with the carrying outer frame (3-1), the N-shaped frame (3-3) is fixedly connected with the carrying outer frame (3-1), and the carrying belt (3-4) is connected with the inner side sliding rod I (3-7) in a matching way, the carrying roller (3-5) is fixedly connected with the carrying rotating shaft (3-2), an inner end clamp II (3-11) is connected with an N-shaped frame (3-3) in a sliding manner, an inner end spring I (3-10) is arranged between the inner end clamp II (3-11) and the N-shaped frame (3-3), the inner end clamp II (3-11) is connected with an upper side slide bar clamping groove (3-12) in a matching manner, the upper side slide bar clamping groove (3-12) is arranged on an upper side slide bar (3-6), an inner side slide bar I (3-7) is connected with an inner side slide bar II (3-8) in a sliding manner, an inner side slide bar push spring I (3-9) is connected with the inner side slide bar II (3-8) in a sleeving manner, the inner side slide bar I (3-9) is arranged between the inner side slide bar I (3-7) and the inner side, the inner side sliding rod II (3-8) is fixedly connected with the carrying roller (3-5), the upper side rotor (3-13) is rotatably connected with the upper side sliding rod (3-6), the rotor clamping rod (3-14) is slidably connected with the upper side rotor (3-13), the rotor spring (3-15) is arranged between the rotor clamping rod (3-14) and the upper side rotor (3-13), the rotor clamping rod (3-14) is connected with the clamping groove I (1-17) in a matched mode, and the outer side hinged connecting rod (1-7) is connected with the upper side rotor (3-13) in a matched mode.

5. A medical waste carrying facility according to claim 1, further comprising: the power source assembly (4) comprises a power source bottom plate (4-1), an input motor (4-2), an input friction disc (4-3), a middle-end friction disc (4-4), a transmission friction disc (4-5), a driving slide rod (4-6), a prismatic slide rod (4-7), a clutch rotating rod (4-8), a clutch plate I (4-9), a clutch plate II (4-10), a transmission shaft I (4-11), a connecting belt I (4-12), a clutch plate push spring (4-13), a side push spring I (4-14), a side slide rod (4-15), a side clamping groove (4-16), a side clamp (4-17) and a side clamp push spring (4-18), wherein the input motor (4-2) is fixedly connected with the power source bottom plate (4-1), an input friction disk (4-3) is fixedly connected with an input motor (4-2), the input friction disk (4-3) is in friction transmission with a middle end friction disk (4-4), the middle end friction disk (4-4) is in rotational connection with a power source bottom plate (4-1), a transmission friction disk (4-5) is in friction transmission with the middle end friction disk (4-4), the transmission friction disk (4-5) is in fit connection with a driving slide rod (4-6), the transmission friction disk (4-5) is in sliding connection with a prismatic slide rod (4-7), the prismatic slide rod (4-7) is fixedly connected with a clutch rotating rod (4-8), the clutch rotating rod (4-8) is in rotational connection with the power source bottom plate (4-1), and a clutch plate I (4-9) is in sliding connection with the clutch rotating rod (4-8), the clutch plate I (4-9) is matched and connected with the clutch plate II (4-10), the transmission shaft I (4-11) is fixedly connected with the clutch plate II (4-10), the transmission shaft I (4-11) is rotatably connected with the power source base plate (4-1), the connecting belt I (4-12) is matched and connected with the transmission shaft I (4-11), the clutch plate push spring (4-13) is sleeved and connected with the clutch rotating rod (4-8), the side sliding rod (4-15) is fixedly connected with the power source base plate (4-1), the side clamping groove (4-16) is arranged on the side sliding rod (4-15), the side push spring I (4-14) is sleeved and connected with the side sliding rod (4-15), the side clamp (4-17) is slidably connected with the driving sliding rod (4-6), the side clamp (4-17) is matched and connected with the side clamping groove (4-16), the side clip push spring (4-18) is arranged between the two side clips (4-17), the transmission shaft I (4-11) is fixedly connected with the rocker I (2-1), and the connecting belt I (4-12) is connected with the connecting belt I (4-12) in a matching manner.

6. A medical waste carrying facility according to claim 1, further comprising: the rotating assembly (5) comprises a rotating sleeve (5-1), a bearing rod (5-2), a driving disk (5-3), a driving disk rotating shaft (5-4), a matching clamping rod (5-5), a bearing rod sliding rod (5-6), a bearing rod push spring (5-7), a rotating sleeve rotating rod (5-8), a matching clamping groove (5-9), an outer side support (5-10) and an outer side hinge post (5-11), the bearing rod sliding rod (5-6) is fixedly connected with the rotating sleeve (5-1), the bearing rod push spring (5-7) is connected with the bearing rod sliding rod (5-6) in a sleeved mode, the bearing rod (5-2) is connected with the bearing rod sliding rod (5-6) in a sliding mode, and the driving disk (5-3) is fixedly connected with the driving disk rotating shaft (5-4), the driving disc rotating shaft (5-4) is rotatably connected with the chassis (6), the belt I (7) is connected between the driving disc rotating shaft (5-4) and the clutch rotating rod (4-8), the matching clamping rod (5-5) is hinged with the bearing rod (5-2), the rotating sleeve rotating rod (5-8) is fixedly connected with the rotating sleeve (5-1), the rotating sleeve rotating rod (5-8) is rotatably connected with the driving disc rotating shaft (5-4), the matching clamping groove (5-9) is matched and connected with the driving disc (5-3), the outer side support (5-10) is fixedly connected with the rotating sleeve (5-1), the outer side hinged column (5-11) is fixedly connected with the outer side support (5-10), and the outer side hinged column (5-11) is matched and connected with the matching clamping rod (5-5).

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