CN112025533A

CN112025533A - Otolaryngology branch of academic or vocational study is with processing equipment of cutting

Info

Publication number: CN112025533A
Application number: CN202010980659.3A
Authority: CN
Inventors: 周开言
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-09-17
Filing date: 2020-09-17
Publication date: 2020-12-04

Abstract

The invention relates to the field of medical equipment processing, in particular to processing equipment of scissors for ear-nose-throat department, which comprises a lifting mechanism, a burr removing mechanism, a conveying mechanism, a collecting mechanism and a storing mechanism, wherein the lifting mechanism and the burr removing mechanism are fixedly installed, the burr removing mechanism is fixedly installed right above the lifting mechanism, the conveying mechanism is also fixedly installed at the upper end of the lifting mechanism, the conveying mechanism is fixedly installed at the side of the lifting mechanism, the collecting mechanism and the conveying mechanism are fixedly installed, the collecting mechanism is fixedly installed right above the conveying mechanism, the storing mechanism and the conveying mechanism are fixedly installed, and the conveying mechanism is fixedly installed at the output end of the storing mechanism.

Description

Otolaryngology branch of academic or vocational study is with processing equipment of cutting

Technical Field

The invention relates to the field of medical instrument processing, in particular to processing equipment of scissors for an ear-nose-throat department.

Background

Nowadays, medical equipment is developed, surgical instruments are more poor, and individual operating tools are equipped for different working requirements, such as tissue scissors, dissection scissors, fine scissors, suture scissors, microscopic scissors, ophthalmic scissors, small vessel scissors, right-angle scissors, prostate scissors and the like, however, each scissors has its own corresponding function, such as small vessel scissors: for cutting small blood vessels and other tissues in microsurgery, the small blood vessels are divided into the following parts according to the head form and the length: the head of the small blood vessel is cut finely by a folded angle of 105 mm and a straight shape of 125 mm, the front 12 mm of the straight head is narrowed in a step shape, the head end is 0.3 mm wide and sharp but not sharp, the head of the small blood vessel is usually cut, the head of the folded angle is bent by 25 degrees, the head end is 1.2 mm wide, and the larger blood vessel or other tissues are usually cut; ophthalmic scissors: the ophthalmic scissors are also called ophthalmic surgical scissors and ophthalmic surgical scissors, and are instruments for shearing soft tissues of eyes. The ophthalmologic scissors comprise a fine ice part, a sharp head is 0.4 mm wide, the sharp head is not sharp, the head end of a round head is 1.6 mm wide, under a common condition, a straight head is used for shearing surface layer tissues, an elbow is used for shearing deeper tissues or used as a separation sharp head to be finely sheared, decorated and stabbed for soft tissues, the otolaryngological department mainly diagnoses and treats diseases related to ears, noses and throats, the rhinological department needs to shear hairs of the nasal cavity in the otolaryngological department operation, all processing requirements on the scissors are strict, the ophthalmologic scissors can be used for drum-type deburring of the scissors in a blank shape, the ophthalmologic scissors are convenient and rapid to use, and the ophthalmologic scissors can be automatically collected after deburring.

Disclosure of Invention

In order to solve the technical problems, the technical scheme adopted by the invention is as follows:

preferably, the processing equipment for the scissors for the ear-nose-throat department comprises an elevating mechanism, a burr removing mechanism, a conveying mechanism, a collecting mechanism and a storing mechanism, wherein the elevating mechanism and the burr removing mechanism are fixedly installed, the burr removing mechanism is fixedly installed right above the elevating mechanism, the conveying mechanism is further fixedly installed at the upper end of the elevating mechanism, the conveying mechanism is fixedly installed beside the elevating mechanism, the collecting mechanism and the conveying mechanism are fixedly installed, the collecting mechanism is fixedly installed right above the conveying mechanism, the storing mechanism and the conveying mechanism are fixedly installed, and the conveying mechanism is fixedly installed at the output end of the storing mechanism.

Preferably, the lifting mechanism includes a first mounting frame, a spring, an expansion bracket, a first connecting rod, a second connecting rod, a first slider, a second slider, a first electric push rod, a second electric push rod, and an articulated frame, an output end of the first mounting frame is slidably connected with an output end of the expansion bracket, the expansion bracket is slidably disposed at an upper end of the first mounting frame, an output end of the expansion bracket is further provided with a spring, an input end of the first connecting rod and an input end of the second connecting rod are hinged to the first mounting frame, an output end of the first connecting rod and an output end of the second connecting rod are hinged to a lower end of the first slider and a lower end of the second slider, the first slider and the second slider are slidably connected with an output end of the expansion bracket, a plurality of articulated frames are disposed at a middle portion of the first mounting frame, a first electric push rod and a second electric push rod are further disposed at lower ends of the first connecting rod and the second connecting rod, an, The side of second connecting rod is articulated, and first electric putter, second electric putter's input and articulated the setting of articulated frame, and collection mechanism personally submits the mirror image state with first mounting bracket middle part mirror image and sets up in conveying mechanism's both ends.

Preferably, first mounting bracket is including first cylinder, the second cylinder, the third cylinder, the fourth cylinder, the hinge, fixed mounting has first cylinder on the first mounting bracket, the second cylinder, the third cylinder, the fourth cylinder, first cylinder, the second cylinder, the third cylinder, the fourth cylinder is rectangle state and expandes fixed the setting in the upper end of first mounting bracket, first cylinder, the second cylinder, the third cylinder, the cylindrical side of fourth all is provided with the hinge, first cylinder, the second cylinder, the third cylinder, all set up the recess that supplies expansion bracket sliding state to remove on the cylindrical global of fourth cylinder.

Preferably, the expansion bracket is including the second mounting bracket, first guide post, the second guide post, first slide bar, the second slide bar, second mounting bracket and first guide post, second guide post fixed connection, first guide post is symmetrical state with the second guide post and sets up in the lower extreme of second mounting bracket, first slide bar, second slide bar pole and second mounting bracket fixed connection, first slide bar, second slide bar pole is fixed to be set up in the side of second mounting bracket and is the vertical state setting, first slide bar, sliding connection has first slider on the second slide bar, the second slider.

Preferably, the deburring mechanism is including first mount, the second mounting bracket, first servo motor, the upset bucket, the feed inlet, the apron, first mount, second mount fixed mounting is in the upper end of second mounting bracket, first mount, the middle part of second mount is fixed mounting still has the upset bucket, second mount and first mount fixed connection, first mount fixed mounting is in the side of second mounting bracket, the second mounting bracket is used for the first servo motor of fixed mounting, the global feed inlet that still is provided with of upset bucket, the upper end of feed inlet is fixed mounting still has the apron.

Preferably, the conveying mechanism comprises a synchronous belt feeding mechanism and a spiral feeding mechanism, the synchronous belt feeding mechanism is fixedly mounted with the lifting mechanism, the synchronous belt feeding mechanism is fixedly mounted at the upper end of the lifting mechanism, the spiral feeding mechanism is fixedly mounted with the synchronous belt feeding mechanism, and the spiral feeding mechanism is fixedly mounted at the output end of the synchronous belt feeding mechanism.

Preferably, hold-in range feeding mechanism is including first support frame, blanking box, the second support frame, first transmission belt, first storage vat, first support frame and elevating system fixed connection, first support frame fixed mounting is in elevating system upper end, blanking box and first support frame fixed mounting, blanking box fixed mounting is in the upper end of first support frame, first transmission belt and blanking box are decided the installation, first transmission belt fixed mounting is in blanking box output, the output of first transmission belt still is provided with first storage vat.

Preferably, the spiral feeding mechanism comprises a second servo motor, a third servo motor, a second storage barrel, a first transmission barrel, a first feeding paddle, a second feeding barrel and a second feeding paddle, wherein the input end of the first transmission barrel is fixedly connected with the first storage barrel, the first transmission barrel is fixedly arranged at the lower end of the first storage barrel, the second servo motor is fixedly connected with the first transmission barrel, the second servo motor is fixedly arranged at the input end of the first transmission barrel, the first feeding paddle is arranged in the first transmission barrel along the axis, the output end of the first feeding paddle is fixedly connected with the second servo motor, the second storage barrel is fixedly arranged at the output end of the first transmission barrel, the second feeding barrel is arranged in the middle of the second storage barrel in a vertical state, the second feeding paddle is arranged in the middle of the second feeding barrel along the axis, the third servo motor is fixedly connected with the second feeding barrel, the third servo motor is fixedly arranged at the output end of the second feeding barrel, the third support frame is fixedly connected with the second feeding barrel, and the second feeding barrel is fixedly arranged in the middle of the third support frame.

Preferably, the collecting mechanism comprises a fourth supporting frame, a screw rod sliding table, a sliding plate, a third mounting frame and an electric push rod, adsorption plate, the electro-magnet, the second transmission band, the collecting box, lead screw slip table and fourth support frame fixed mounting, lead screw slip table fixed mounting is in the side of fourth support frame, the gliding recess of confession slide is seted up to the output of fourth support frame, the output fixed connection of slide and lead screw slip table, third mounting bracket and slide fixed connection, slide fixed mounting is in the side of third mounting bracket, the third mounting bracket is used for fixed mounting electric putter, electric putter's output sets up towards the second transmission band, second transmission band fixed mounting is under the fourth support frame, adsorption plate and electric putter fixed mounting, adsorption plate fixed mounting is in electric putter's output, the upper end of adsorption plate evenly is provided with a plurality of electro-magnets, the output of second transmission band still is provided with the collecting box.

Preferably, the storage mechanism comprises a storage box, a feeding pipeline, a cover plate and a plug board, the storage box is fixedly connected with a third support frame, the storage box is fixedly arranged at the upper end of the third support frame, the feeding pipeline is fixedly connected with the storage box, the feeding pipeline is fixedly arranged at the side of the storage box, the cover plate is further arranged at the upper end of the storage box, the plug board is fixedly arranged with the feeding pipeline, and the plug board is arranged at the side of the feeding pipeline in a plug-in manner.

Compared with the prior art, the invention has the beneficial effects that:

the invention finishes the multi-degree-of-freedom swinging work of the deburring mechanism through the lifting mechanism, and comprises the following specific steps: when the burr removing mechanism needs to be inclined, the first electric push rod and the second electric push rod work to drive the output ends to be hinged, the first connecting rod and the second connecting rod move upwards and downwards, the first connecting rod and the second connecting rod drive the first sliding block and the second sliding block which are hinged and connected with the output ends to slide at the output end of the telescopic frame, thereby driving the telescopic frame to slide up and down at the output end of the first mounting frame, thereby driving one end of a conveying mechanism arranged at the upper end of the telescopic frame to be in an inclined state, and a first cylinder, a second cylinder, a third cylinder and a fourth cylinder which are used for being connected with the telescopic frame in a sliding way, the sliding is assisted when the telescopic frame moves up and down, the telescopic frame can be prevented from sliding and falling off, and a spring at the output end of the telescopic frame can play a role in buffering when the sliding mechanism moves down, so that the machine is prevented from being damaged due to the fact that the first electric push rod and the second electric push rod move too fast; the telescopic frame is used for the conveying mechanism and can also adjust the feeding angle of the conveying mechanism, the conveying mechanism is shaken when the conveying mechanism works, so that materials in the conveying mechanism can be shaken uniformly, and the second mounting frame, the first guide post, the second guide post, the first slide bar and the second slide bar are arranged symmetrically;

the invention finishes the work of removing burrs of scissors through the burr removing mechanism, and comprises the following specific steps: the first fixing frame and the second fixing frame are used for fixedly and rotatably mounting the turnover barrel, a worker opens the cover plate to place the scissors in the turnover barrel, the cover plate is covered after the scissors are placed, and the first servo motor drives the turnover barrel fixedly mounted at the output end to rotate to remove burrs of the scissors in the turnover barrel;

the invention finishes the scissors conveying and scissors collecting work through the conveying mechanism and the collecting mechanism, and comprises the following specific steps: the blanking box is used for conveying scissors gravel in the turnover barrel to the upper end of a first conveying belt with a fixedly installed output end under the working state, the scissors gravel is conveyed by the first conveying belt, the scissors are collected by a collecting mechanism, however, the gravel falls into the first storage barrel with the output end of the first conveying belt, a sliding plate slides back and forth in the horizontal direction on the upper end of a fourth support frame through a lead screw sliding table fixedly connected with the output end under the working state, then an electric push rod fixedly installed by a third support frame drives the output end to be fixedly connected with the upper vertical sliding movement, guide rods are further arranged at two ends of the adsorption plate and are used for moving with the third support frame in a sliding state, so that the adsorption plate cannot generate the phenomenon of offset rotation under the push of the electric push rod, and the adsorption plate is matched with an electromagnet to descend to the upper end of the first conveying belt under the push rod to adsorb the scissors which are finished by removing burrs, then, the sliding plate is driven to the upper end of a second conveying belt through the screw rod sliding table, the scissors are placed, and then the scissors are conveyed into a collecting box arranged at the output end through the second conveying belt, so that the scissors collecting work is completed;

the invention finishes the storage work of the sand and stone conveyor through the conveying mechanism and the material storage mechanism, and comprises the following specific steps: the second storage vat is used for collecting the grit, then drive second servo motor drives the first feeding oar of second servo motor output end fixed mounting at first transmission bucket internal rotation, thereby transmit the grit in the first storage vat to the second storage vat of first transmission vat output end fixed connection, then drive third servo motor drive output end fixed connection's second feeding oar at the second feeding vat internal rotation, thereby carry out the pay-off that makes progress to the grit in the second storage vat of second feeding vat input, until pay-off to the storage mechanism of second feeding vat output in, the storage case is used for storing the grit of conveying mechanism output, when the output of upset bucket rotates to the assigned position, the staff takes out the picture peg and lets the grit freely fall through the pipeline, the transport condition can be observed in real time to the apron of storage case upper end fixed mounting.

Drawings

FIGS. 1 and 2 are perspective views from two different perspectives of the present invention;

FIG. 3 is a perspective view of the lift mechanism of the present invention;

FIG. 4 is a perspective view of the telescoping mast of the present invention;

FIG. 5 is a perspective view of a first mount of the present invention;

FIG. 6 is a perspective view of the deburring mechanism of the present invention;

FIG. 7 is a perspective view of the synchronous belt feed mechanism and the spiral feed mechanism of the present invention;

FIG. 8 is a perspective view of the electric putter, the adsorption plate, the electromagnet and the third mounting bracket of the present invention;

FIG. 9 is a perspective view of the spiral feed of the present invention;

FIG. 10 is a perspective view of a first feed barrel, a first feed paddle, and a second servo motor of the present invention;

fig. 11 is a perspective view of the magazine mechanism of the present invention.

The reference numbers in the figures are:

1-a lifting mechanism; 1 a-a first mounting frame; 1a 1-first cylinder; 1a 2-second cylinder; 1a 3-third cylinder; 1a 4-fourth cylinder; 1a 5-hinge; 1 b-a spring; 1 c-a telescopic frame; 1c 1-a second mount; 1c2 — first guide post; 1c 3-second guide post; 1c 4-a first slide bar; 1c 5-a second slide bar; 1 d-first connecting rod; 1 e-a second connecting rod; 1 f-a first slider; 1 g-a second slider; 1 h-a first electric push rod; 1 i-a second electric push rod; 1 j-a hinged frame; 2-a deburring mechanism; 2 a-a first mount; 2 b-a second mount; 2 c-a second mounting frame; 2 d-a first servo motor; 2 e-turning over the barrel; 2 f-feed port; 2 g-cover plate; 3-a conveying mechanism; 3 a-a synchronous belt feeding mechanism; 3a 1-first support frame; 3a 2-baiting magazine; 3a 3-second support shelf; 3a4 — first conveyor belt; 3a 5-first storage vat; 3 b-a spiral feeding mechanism; 3b 1-second servomotor; 3b 2-third servomotor; 3b 3-second storage vat; 3b 4-first transfer bucket; 3b 5-first feed paddle 3b 6-second feed barrel; 3b 7-second feed paddle; 3b 8-third scaffold; 4-a collection mechanism; 4 a-a fourth support; 4 b-a screw rod sliding table; 4 c-a sled; 4 d-a third mount; 4 e-an electric push rod; 4 f-an adsorption plate; 4 g-electromagnet; 4 h-a second conveyor belt; 4 i-a collection box; 5-a material storage mechanism; 5 a-a material storage box; 5 b-a feeding pipeline; 5 c-a cover plate; 5 d-plug board.

Detailed Description

The following description is presented to disclose the invention so as to enable any person skilled in the art to practice the invention. The preferred embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art.

Referring to fig. 1 to 11, a processing device of scissors for otolaryngological department, including elevating system 1, deburring mechanism 2, conveying mechanism 3, collecting mechanism 4, storage mechanism 5, elevating system 1 and deburring mechanism 2 fixed mounting, deburring mechanism 2 fixed mounting is directly over elevating system 1, conveying mechanism 3 is still fixed mounting in the upper end of elevating system 1, conveying mechanism 3 fixed mounting is in the side of elevating system 1, collecting mechanism 4 and conveying mechanism 3 fixed mounting, collecting mechanism 4 fixed mounting is directly over conveying mechanism 3, storage mechanism 5 and conveying mechanism 3 fixed mounting, conveying mechanism 3 fixed mounting is in the output of storage mechanism 5.

The staff puts into deburring mechanism 2's output with medical scissors and grit simultaneously under operating condition, then deburring mechanism 2 cooperates elevating system 1 to carry out the deburring work to the scissors in deburring mechanism 2, after the scissors in deburring mechanism 2 is handled and is accomplished, deburring mechanism 2 is rotatory to the input towards conveying mechanism 3 with the output, then carry the grit and the scissors in deburring mechanism 2 through conveying mechanism 3, collect the scissors that conveying mechanism 3 output was carried through collection mechanism 4 in conveying mechanism 3 to the transportation process of scissors, storage mechanism 5 is used for deposit the grit, storage mechanism 5 puts in the grit to deburring mechanism 2's input when needs are criticized scissors deburring to the second.

Referring to fig. 3 and 5, the lifting mechanism 1 includes a first mounting frame 1a, a spring 1b, a telescopic frame 1c, a first connecting rod 1d, a second connecting rod 1e, a first slider 1f, a second slider 1g, a first electric push rod 1h, a second electric push rod 1i, and a hinge frame 1j, wherein an output end of the first mounting frame 1a is slidably connected with an output end of the telescopic frame 1c, the telescopic frame 1c is slidably disposed at an upper end of the first mounting frame 1a, an output end of the telescopic frame 1c is further provided with a spring 1b, input ends of the first connecting rod 1d and the second connecting rod 1e are hinged with the first mounting frame 1a, output ends of the first connecting rod 1d and the second connecting rod 1e are hinged with lower ends of the first slider 1f and the second slider 1g, the first slider 1f and the second slider 1g are slidably connected with an output end of the telescopic frame 1c, a plurality of hinge frames 1j are disposed at a middle portion of the first mounting frame 1a, the lower extreme of head rod 1d, second connecting rod 1e still is provided with first electric putter 1h, second electric putter 1i, first electric putter 1h, the output of second electric putter 1i respectively with head rod 1d, the side of second connecting rod 1e is articulated, first electric putter 1h, the input of second electric putter 1i and articulated setting of frame 1j, collection mechanism 4 personally submits the mirror image state with first mounting bracket 1a middle part mirror image and sets up in conveying mechanism 3's both ends.

When burr removal mechanism 2 need carry out the tilt state, first electric putter 1h, second electric putter 1i work drives the articulated connection of output, head rod 1d, second connecting rod 1e advances to reciprocating, head rod 1d, second connecting rod 1e drives the first slider 1f that the output is articulated to be connected, second slider 1g slides at the output of expansion bracket 1c, thereby drive expansion bracket 1c and slide from top to bottom at the output of first mounting bracket 1a, thereby 3 one ends of conveying mechanism that drive expansion bracket 1c upper end installation present the tilt state.

Referring to fig. 5, the first mounting frame 1a includes a first cylinder 1a1, a second cylinder 1a2, a third cylinder 1a3, a fourth cylinder 1a4, and a hinge 1a5, the first mounting frame 1a is fixedly mounted with a first cylinder 1a1, a second cylinder 1a2, a third cylinder 1a3, and a fourth cylinder 1a4, the first cylinder 1a1, the second cylinder 1a2, the third cylinder 1a3, and the fourth cylinder 1a4 are unfolded and fixedly disposed at the upper end of the first mounting frame 1a in a rectangular state, lateral sides of the first cylinder 1a1, the second cylinder 1a2, the third cylinder 1a3, and the fourth cylinder 1a4 are all provided with a hinge 1a5, the first cylinder 1a1, the second cylinder 1a2, the third cylinder 1a3, and the fourth cylinder 1a4 are all provided with a sliding grooves for the telescopic frame to move in a sliding state.

First cylinder 1a1, second cylinder 1a2, third cylinder 1a3, fourth cylinder 1a4 for sliding connection expansion bracket 1c, advance supplementary slip when up-and-down motion at expansion bracket 1c, can also prevent that expansion bracket 1c from sliding and droing, spring 1b of expansion bracket 1c output can play the cushioning effect when slide mechanism carries out the downstream, avoid first electric putter 1h, the too fast damage machine of second electric putter 1i motion.

Referring to fig. 4, the telescopic frame 1c includes a second mounting frame 1c1, a first guide post 1c2, a second guide post 1c3, a first sliding bar 1c4, and a second sliding bar 1c5, wherein the second mounting frame 1c1 is fixedly connected to the first guide post 1c2 and the second guide post 1c3, the first guide post 1c2 and the second guide post 1c3 are symmetrically disposed at the lower end of the second mounting frame 1c1, the first sliding bar 1c4 and the second sliding bar 1c5 are fixedly connected to the second mounting frame 1c1, the first sliding bar 1c4 and the second sliding bar 1c5 are fixedly disposed beside the second mounting frame 1c1 and are perpendicular to the second mounting frame 1c1, and the first sliding block 1f and the second sliding block 1g are slidably connected to the first sliding bar 1c4 and the second sliding bar 5.

The telescopic frame 1c is used for the conveying mechanism 3, the feeding angle of the conveying mechanism 3 can be adjusted, the conveying mechanism 3 is shaken when the conveying mechanism 3 works, materials in the conveying mechanism 3 are conveniently and uniformly shaken, and the second mounting frame 1c1, the first guide column 1c2, the second guide column 1c3, the first sliding rod 1c4 and the second sliding rod 1c5 are all arranged in a symmetrical state.

Referring to fig. 6, the deburring mechanism 2 includes a first fixing frame 2a, a second fixing frame 2b, a second fixing frame 2c, a first servo motor 2d, a turnover barrel 2e, a feed inlet 2f, and a cover plate 2g, the first fixing frame 2a, the second fixing frame 2b is fixedly mounted at the upper end of the second fixing frame 1c1, the first fixing frame 2a, the middle part of the second fixing frame 2b is also fixedly mounted with the turnover barrel 2e, the second fixing frame 2c is fixedly connected with the first fixing frame 2a, the first fixing frame 2a is fixedly mounted at the side of the second fixing frame 2c, the second fixing frame 2c is used for fixedly mounting the first servo motor 2d, the peripheral surface of the turnover barrel 2e is also provided with the feed inlet 2f, and the upper end of the feed inlet 2f is also fixedly mounted with the cover plate 2 g.

First mount 2a, second mount 2b are used for fixed rotation installation upset bucket 2e, and the staff opens apron 2g and places the scissors in upset bucket 2e, and the back of placing finishing is covered apron 2g, and first servo motor 2d drive output fixed mounting's upset bucket 2e rotates the scissors in the upset bucket 2e and removes the burr work.

Referring to fig. 7, the conveying mechanism 3 includes a synchronous belt feeding mechanism 3a and a spiral feeding mechanism 3b, the synchronous belt feeding mechanism 3a and the lifting mechanism 1 are fixedly installed, the synchronous belt feeding mechanism 3a is fixedly installed at the upper end of the lifting mechanism 1, the spiral feeding mechanism 3b and the synchronous belt feeding mechanism 3a are fixedly installed, and the spiral feeding mechanism 3b is fixedly installed at the output end of the synchronous belt feeding mechanism 3 a.

Synchronous belt feeding mechanism 3a is used for transmitting the letter sorting to the scissors after the deburring finishes in upset bucket 2e, and spiral feeding mechanism 3b is used for carrying out the retransmission to upset bucket 2e inside to the grit after finishing the letter sorting to carry out the deburring work of second batch.

Referring to fig. 7, the synchronous belt feeding mechanism 3a includes a first support frame 3a1, a blanking box 3a2, a second support frame 3a3, a first transmission belt 3a4, and a first storage barrel 3a5, where the first support frame 3a1 is fixedly connected to the lifting mechanism 1, the first support frame 3a1 is fixedly installed at the upper end of the lifting mechanism 1, the blanking box 3a2 is fixedly installed with the first support frame 3a1, the blanking box 3a2 is fixedly installed at the upper end of the first support frame 3a1, the first transmission belt 3a4 is fixedly installed with the blanking box 3a2, the first transmission belt 3a4 is fixedly installed at the output end of the blanking box 3a2, and the output end of the first transmission belt 3a4 is further provided with the first storage barrel 3a 5.

Under the working condition, the blanking box 3a2 is used for conveying the scissors gravel in the turnover barrel 2e to the upper end of the first conveying belt 3a4 fixedly arranged at the output end, the first conveying belt 3a4 conveys the scissors gravel, the scissors are collected by the collecting mechanism 4, and the gravel falls into the first storage barrel 3a5 at the output end of the first conveying belt 3a 4.

Referring to fig. 9 and 10, the spiral feeding mechanism 3b includes a second servo motor 3b1, a third servo motor 3b2, a second storage barrel 3b3, a first transmission barrel 3b4, a first feeding paddle 3b5, a second feeding barrel 3b6, and a second feeding paddle 3b7, an input end of the first transmission barrel 3b4 is fixedly connected with the first storage barrel 3a5, the first transmission barrel 3b4 is fixedly mounted at a lower end of the first storage barrel 3a5, the second servo motor 3b1 is fixedly connected with the first transmission barrel 3b4, the second servo motor 3b1 is fixedly mounted at an input end of the first transmission barrel 3b4, the first feeding paddle 3b5 is further axially arranged inside the first transmission barrel 3b4, an output end of the first feeding paddle 3b5 is fixedly connected with the second servo motor 3b1, an output end of the first transmission barrel 3b 4624 is fixedly mounted with the second servo motor 633 b 593 b3, the second feeding paddle 3b 593 b is vertically arranged in the middle of the second storage barrel 593 b3, the middle part of second feeding barrel 3b6 is provided with second feeding paddle 3b7, third servo motor 3b2 and second feeding barrel 3b6 fixed connection, third servo motor 3b2 fixed mounting is in the output of second feeding barrel 3b6, third support frame 3b8 and second feeding barrel 3b6 fixed connection, second feeding barrel 3b6 fixed mounting is in the middle part of third support frame 3b 8.

Second storage vat 3b3 is used for collecting the grit, then drive second servo motor 3b1 and drive second servo motor 3b1 output end fixed mounting's first feeding oar 3b5 at first transmission bucket 3b4 internal rotation to the grit in first storage vat 3a5 transmits to first transmission bucket 3b4 output end fixed connection's second storage vat 3b3 in, then drive third servo motor 3b2 and drive output end fixed connection's second feeding oar 3b7 and internal rotation at second feeding bucket 3b6, thereby carry out the upward pay-off to the grit in second storage vat 3b3 of second feeding bucket 3b6 input, until the pay-off to in the storage mechanism 5 of second feeding bucket 3b6 output.

Referring to fig. 7 and 8, the collecting mechanism 4 includes a fourth supporting frame 4a, a screw rod sliding table 4b, a sliding plate 4c, a third mounting frame 4d, an electric push rod 4e, an adsorption plate 4f, an electromagnet 4g, a second transmission belt 4h, and a collecting box 4i, the screw rod sliding table 4b is fixedly mounted on the fourth supporting frame 4a, the screw rod sliding table 4b is fixedly mounted on the side of the fourth supporting frame 4a, a groove for the sliding plate 4c to slide is formed at the output end of the fourth supporting frame 4a, the sliding plate 4c is fixedly connected with the output end of the screw rod sliding table 4b, the third mounting frame 4d is fixedly connected with the sliding plate 4c, the sliding plate 4c is fixedly mounted on the side of the third mounting frame 4d, the third mounting frame 4d is used for fixedly mounting the electric push rod 4e, the output end of the electric push rod 4e is arranged towards the second transmission belt 4h, the second, adsorption plate 4f and electric putter 4e fixed mounting, adsorption plate 4f fixed mounting is in electric putter 4 e's output, and the upper end of adsorption plate 4f evenly is provided with a plurality of electro-magnets 4g, and the output of second transmission band 4h still is provided with collecting box 4 i.

Under the working state, the sliding plate 4c slides back and forth in the horizontal direction at the upper end of the fourth supporting frame 4a through the screw rod sliding table 4b fixedly connected with the output end, then the electric push rod 4e fixedly installed through the third mounting frame 4d drives the output end fixed connection 4f to vertically slide and move on the fourth supporting frame 4d, guide rods are further arranged at two ends of the adsorption plate 4f and are used for moving in a sliding state with the third mounting frame 4d, so that the adsorption plate 4f cannot generate a phenomenon of offset rotation under the pushing of the electric push rod 4e, the adsorption plate 4f is matched with the electromagnet 4g to descend to the upper end of the first transmission belt 3a4 under the pushing of the electric push rod 4e to adsorb the scissors which are deburred, then the sliding plate 4c is driven to the upper end of the second transmission belt 4h through the screw rod sliding table 4b to place the scissors, and then the scissors are transmitted into the collection box 4i arranged at the output end through the, and completing the scissors collection work.

Referring to fig. 11, the storage mechanism 5 includes a storage box 5a, a feeding pipeline 5b, a cover plate 5c, and an insert plate 5d, the storage box 5a is fixedly connected to a third support frame 3b8, the storage box 5a is fixedly mounted at the upper end of a third support frame 3b8, the feeding pipeline 5b is fixedly connected to the storage box 5a, the feeding pipeline 5b is fixedly mounted at the side of the storage box 5a, the cover plate 5c is further disposed at the upper end of the storage box 5a, the insert plate 5d is fixedly mounted to the feeding pipeline 5b, and the insert plate 5d is disposed at the side of the feeding pipeline 5b in a pull-and-insert manner.

Storage case 5a is used for storing the grit of conveying mechanism 3 output, and when the output of upset bucket 2e was rotatory to the assigned position, the staff took out picture peg 5d and let the grit pass through conveying pipeline 5b free fall, and storage case 5a upper end fixed mounting's apron 5c can observe the transport condition in real time.

The working principle of the invention is as follows:

the method comprises the following steps: when the conveying mechanism 3 needs to be inclined, the first electric push rod 1h and the second electric push rod 1i work to drive the output ends to be hinged, the first connecting rod 1d and the second connecting rod 1e move up and down, the first connecting rod 1d and the second connecting rod 1e drive the first sliding block 1f and the second sliding block 1g which are hinged and connected with the output ends to slide at the output end of the telescopic frame 1c, so as to drive the telescopic frame 1c to slide up and down at the output end of the first mounting frame 1a, so as to drive one end of the conveying mechanism 3 arranged at the upper end of the telescopic frame 1c to be inclined, the first cylinder 1a1, the second cylinder 1a2, the third cylinder 1a3 and the fourth cylinder 1a4 are used for slidably connecting the telescopic frame 1c, so as to assist in sliding when the telescopic frame 1c moves up and down, and can also prevent the telescopic frame 1c from sliding and the spring 1b at the output end of the telescopic frame 1c can play a role of buffering when the sliding mechanism moves down, the damage to the machine caused by the over-quick movement of the first electric push rod 1h and the second electric push rod 1i is avoided; the telescopic frame 1c is used for the conveying mechanism 3, can also adjust the advancing angle of the conveying mechanism 3, and can shake the conveying mechanism 3 when the conveying mechanism 3 works, so that materials in the conveying mechanism 3 can be conveniently and uniformly shaken, and the second mounting frame 1c1, the first guide column 1c2, the second guide column 1c3, the first slide bar 1c4 and the second slide bar 1c5 are all arranged in a symmetrical state;

step two: first mount 2a, second mount 2b are used for fixed rotation installation upset bucket 2e, and the staff opens apron 2g and places the scissors in upset bucket 2e, and the back of placing finishing is covered apron 2g, and first servo motor 2d drive output fixed mounting's upset bucket 2e rotates the scissors in the upset bucket 2e and removes the burr work.

Step three: the blanking box 3a2 is used for conveying the scissors gravel in the turnover barrel 2e to the upper end of a first conveying belt 3a4 with a fixedly installed output end under the working state, the first conveying belt 3a4 is used for conveying the scissors gravel, the scissors are collected by the collecting mechanism 4, however, the gravel falls into the first storage barrel 3a5 with the output end of the first conveying belt 3a4, the sliding plate 4c slides back and forth in the horizontal direction at the upper end of a fourth supporting frame 4a through a screw rod sliding table 4b with the fixed output end under the working state, then, an electric push rod 4e fixedly installed through a third mounting frame 4d drives the fixed output end connecting 4f to vertically slide up and down on the fourth supporting frame 4d, guide rods are further arranged at two ends of the adsorption plate 4f and used for moving with the third mounting frame 4d in a sliding state, so that the adsorption plate 4f cannot generate an offset rotation phenomenon under the pushing of the electric push rod 4e, the adsorption plate 4f is pushed by an electric push rod 4e to be matched with an electromagnet 4g to descend to the upper end of the first transmission belt 3a4 to adsorb the scissors which are subjected to burr removal, then a sliding plate 4c is driven to the upper end of a second transmission belt 4h through a screw rod sliding table 4b to place the scissors, and then the scissors are transmitted into a collection box 4i arranged at the output end through the second transmission belt 4h to complete the scissors collection work;

step four: the second storage barrel 3b3 is used for collecting sand, then the second servo motor 3b1 is driven to drive the first feeding paddle 3b5 fixedly installed at the output end of the second servo motor 3b1 to rotate in the first transmission barrel 3b4, so as to transmit the sand in the first storage barrel 3a5 to the second storage barrel 3b3 fixedly connected with the output end of the first transmission barrel 3b4, then the third servo motor 3b2 is driven to drive the second feeding paddle 3b7 fixedly connected with the output end to rotate in the second feeding barrel 3b6, so as to feed the sand in the second storage barrel 3b3 at the input end of the second feeding barrel 3b6 upwards until the sand is fed into the storage mechanism 5 at the output end of the second feeding barrel 3b6, the box 5a is used for storing the sand at the output end of the transmission mechanism 3, when the output end of the storage barrel 2e rotates to a designated position, a worker opens the plug board 5d to allow the sand to freely fall through the feeding pipeline 5b, the conveying condition can be observed in real time by the cover plate 5c fixedly arranged at the upper end of the material storage box 5 a.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are merely illustrative of the principles of the invention, but that various changes and modifications may be made without departing from the spirit and scope of the invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a processing equipment of otolaryngology branch of academic or vocational study with cutting, a serial communication port, including elevating system (1), deburring mechanism (2), conveying mechanism (3), collect mechanism (4), storage mechanism (5), elevating system (1) and deburring mechanism (2) fixed mounting, deburring mechanism (2) fixed mounting is directly over elevating system (1), still fixed mounting has conveying mechanism (3) in the upper end of elevating system (1), conveying mechanism (3) fixed mounting is in the side of elevating system (1), collect mechanism (4) and conveying mechanism (3) fixed mounting, collect mechanism (4) fixed mounting directly over conveying mechanism (3), storage mechanism (5) and conveying mechanism (3) fixed mounting, conveying mechanism (3) fixed mounting is in the output of storage mechanism (5).

2. The processing equipment of the scissors for the ear-nose-throat department according to claim 1, wherein the lifting mechanism (1) comprises a first mounting frame (1 a), a spring (1 b), an expansion frame (1 c), a first connecting rod (1 d), a second connecting rod (1 e), a first slider (1 f), a second slider (1 g), a first electric push rod (1 h), a second electric push rod (1 i) and a hinged frame (1 j), wherein the output end of the first mounting frame (1 a) is slidably connected with the output end of the expansion frame (1 c), the expansion frame (1 c) is slidably arranged at the upper end of the first mounting frame (1 a), the output end of the expansion frame (1 c) is further provided with a spring (1 b), the input end of the first connecting rod (1 d) and the input end of the second connecting rod (1 e) are hinged to the first mounting frame (1 a), and the first connecting rod (1 d), The output end of the second connecting rod (1 e) is hinged with the lower ends of the first sliding block (1 f) and the second sliding block (1 g), the first sliding block (1 f) and the second sliding block (1 g) are connected with the output end of the telescopic frame (1 c) in a sliding state, a plurality of hinged frames (1 j) are arranged in the middle of the first mounting frame (1 a), the lower ends of the first connecting rod (1 d) and the second connecting rod (1 e) are also provided with a first electric push rod (1 h), second electric putter (1 i), the output of first electric putter (1 h), second electric putter (1 i) respectively with head rod (1 d), the side of second connecting rod (1 e) is articulated, first electric putter (1 h), the input of second electric putter (1 i) and articulated the setting of frame (1 j), it sets up in the both ends of conveying mechanism (3) to use first mounting bracket (1 a) middle part mirror image personally to personally submit the mirror image state in collection mechanism (4).

3. The processing device of the scissors for the ear-nose-throat department according to claim 2, wherein the first mounting rack (1 a) comprises a first cylinder (1 a 1), a second cylinder (1 a 2), a third cylinder (1 a 3), a fourth cylinder (1 a 4) and a hinge joint (1 a 5), a first cylinder (1 a 1) is fixedly mounted on the first mounting rack (1 a), a second cylinder (1 a 2), a third cylinder (1 a 3), a fourth cylinder (1 a 4), the first cylinder (1 a 1), the second cylinder (1 a 2), the third cylinder (1 a 3) and the fourth cylinder (1 a 4) are unfolded in a rectangular state and fixedly arranged at the upper end of the first mounting rack (1 a), the first cylinder (1 a 1), the second cylinder (1 a 2), the third cylinder (1 a 3) and the side cylinder (1 a 4) are respectively provided with the first cylinder (1 a 5), and the first cylinder (1 a 1) is arranged at the side of the fourth cylinder (1 a 4), The circumferential surfaces of the second cylinder (1 a 2), the third cylinder (1 a 3) and the fourth cylinder (1 a 4) are all provided with grooves for the telescopic frame (1 c) to move in a sliding state.

4. The processing device of the scissors for the ear-nose-throat department according to claim 2, wherein the telescopic frame (1 c) comprises a second mounting frame (1 c 1), a first guide post (1 c 2), a second guide post (1 c 3), a first slide bar (1 c 4), and a second slide bar (1 c 5), the second mounting frame (1 c 1) is fixedly connected with the first guide post (1 c 2) and the second guide post (1 c 3), the first guide post (1 c 2) and the second guide post (1 c 3) are symmetrically arranged at the lower end of the second mounting frame (1 c 1), the first slide bar (1 c 4), the second slide bar (1 c 5) are fixedly connected with the second mounting frame (1 c 1), the first slide bar (1 c 4), the second slide bar (1 c 5) are fixedly arranged at the side of the second mounting frame (1 c 1), and the second slide bar (1 c 4) is arranged at the side of the second mounting frame (1 c 357), and the second slide bar (1) is arranged at the side of the second mounting frame (1 c 4), The second slide bar (1 c 5) is connected with a first slide block (1 f) and a second slide block (1 g) in a sliding way.

5. The processing device of the scissors for the ear-nose-throat department according to claim 4, wherein the burr removing mechanism (2) comprises a first fixing frame (2 a), a second fixing frame (2 b), a second mounting frame (2 c), a first servo motor (2 d), a turnover barrel (2 e), a feeding port (2 f) and a cover plate (2 g), the first fixing frame (2 a) and the second fixing frame (2 b) are fixedly arranged at the upper end of the second mounting frame (1 c 1), the turnover barrel (2 e) is further fixedly arranged at the middle parts of the first fixing frame (2 a) and the second fixing frame (2 b), the second mounting frame (2 c) is fixedly connected with the first fixing frame (2 a), the first fixing frame (2 a) is fixedly arranged at the side of the second mounting frame (2 c), and the second mounting frame (2 c) is used for fixedly mounting the first servo motor (2 d), the circumferential surface of the turnover barrel (2 e) is also provided with a feed inlet (2 f), and the upper end of the feed inlet (2 f) is also fixedly provided with a cover plate (2 g).

6. The processing device of the scissors for the ear-nose-throat department according to claim 1, wherein the conveying mechanism (3) comprises a synchronous belt feeding mechanism (3 a) and a spiral feeding mechanism (3 b), the synchronous belt feeding mechanism (3 a) and the lifting mechanism (1) are fixedly installed, the synchronous belt feeding mechanism (3 a) is fixedly installed at the upper end of the lifting mechanism (1), the spiral feeding mechanism (3 b) and the synchronous belt feeding mechanism (3 a) are fixedly installed, and the spiral feeding mechanism (3 b) is fixedly installed at the output end of the synchronous belt feeding mechanism (3 a).

7. The processing device of the scissors for the otolaryngological department according to claim 6, wherein the synchronous belt feeding mechanism (3 a) comprises a first support frame (3 a 1), a blanking box (3 a 2) and a second support frame (3 a 3), first transmission band (3 a 4), first storage vat (3 a 5), first support frame (3 a 1) and elevating system (1) fixed connection, first support frame (3 a 1) fixed mounting is in elevating system (1) upper end, lower magazine (3 a 2) and first support frame (3 a 1) fixed mounting, lower magazine (3 a 2) fixed mounting is in the upper end of first support frame (3 a 1), first transmission band (3 a 4) and lower magazine (3 a 2) fixed mounting, first transmission band (3 a 4) fixed mounting is in lower magazine (3 a 2) output, the output of first transmission band (3 a 4) still is provided with first storage vat (3 a 5).

8. The processing equipment of the otolaryngological scissors according to claim 6, wherein the spiral feeding mechanism (3 b) comprises a second servo motor (3 b 1), a third servo motor (3 b 2), a second storage barrel (3 b 3), a first transmission barrel (3 b 4), a first feeding paddle (3 b 5), a second feeding barrel (3 b 6) and a second feeding paddle (3 b 7), the input end of the first transmission barrel (3 b 4) is fixedly connected with the first storage barrel (3 a 5), the first transmission barrel (3 b 4) is fixedly arranged at the lower end of the first storage barrel (3 a 5), the second servo motor (3 b 8548) is fixedly connected with the first transmission barrel (3 b 4), the second servo motor (3 b 1) is fixedly arranged at the input end of the first transmission barrel (3 b 4), the first feeding paddle (3 b 3992) is fixedly arranged in the first transmission barrel (3 b 8), and the output end of the first feeding paddle (3 b 638) is fixedly connected with the second feeding paddle (3 b 5b 1), the output end of first transmission bucket (3 b 4) fixed mounting has second storage vat (3 b 3), second feeding bucket (3 b 6) are vertical state and set up in the middle part of second storage vat (3 b 3), the middle part of second feeding bucket (3 b 6) is still that the axis is provided with second feeding oar (3 b 7), third servo motor (3 b 2) and second feeding bucket (3 b 6) fixed connection, third servo motor (3 b 2) fixed mounting is in the output end of second feeding bucket (3 b 6), third support frame (3 b 8) and second feeding bucket (3 b 6) fixed connection, second feeding bucket (3 b 6) fixed mounting is in the middle part of third support frame (3 b 8).

9. The processing device of the scissors for the otolaryngological department according to claim 1, wherein the collecting mechanism (4) comprises a fourth supporting frame (4 a), a screw rod sliding table (4 b), a sliding plate (4 c), a third mounting frame (4 d), an electric push rod (4 e), an adsorption plate (4 f), an electromagnet (4 g), a second transmission belt (4 h) and a collecting box (4 i), the screw rod sliding table (4 b) and the fourth supporting frame (4 a) are fixedly installed, the screw rod sliding table (4 b) is fixedly installed at the side of the fourth supporting frame (4 a), a groove for the sliding plate (4 c) to slide is formed in the output end of the fourth supporting frame (4 a), the sliding plate (4 c) is fixedly connected with the output end of the screw rod sliding table (4 b), the third mounting frame (4 d) is fixedly connected with the sliding plate (4 c), the sliding plate (4 c) is fixedly installed at the side of the third mounting frame (4 d), third mounting bracket (4 d) is used for fixed mounting electric putter (4 e), the output of electric putter (4 e) sets up towards second transmission band (4 h), second transmission band (4 h) fixed mounting is under fourth support frame (4 a), adsorption plate (4 f) and electric putter (4 e) fixed mounting, adsorption plate (4 f) fixed mounting is in the output of electric putter (4 e), the upper end of adsorption plate (4 f) evenly is provided with a plurality of electro-magnets (4 g), the output of second transmission band (4 h) still is provided with collecting box (4 i).

10. The processing equipment of the scissors for the otolaryngological department as claimed in claim 1, wherein the discharging mechanism (5) comprises a storage box (5 a), a feeding pipeline (5 b), a cover plate (5 c) and an inserting plate (5 d), the storage box (5 a) is fixedly connected with a third support frame (3 b 8), the storage box (5 a) is fixedly installed at the upper end of the third support frame (3 b 8), the feeding pipeline (5 b) is fixedly connected with the storage box (5 a), the feeding pipeline (5 b) is fixedly installed beside the storage box (5 a), the cover plate (5 c) is further arranged at the upper end of the storage box (5 a), the inserting plate (5 d) is fixedly installed with the feeding pipeline (5 b), and the inserting plate (5 d) is arranged beside the feeding pipeline (5 b) in an inserting and pulling manner.