CN219720965U - Electrically driven costal cartilage chip preparation machine - Google Patents

Abstract

The utility model discloses an electrically driven rib cartilage chip preparation machine, which consists of a machine body and a cylindrical roller with a cutter disc, wherein cartilage is thrown into a hollow cylindrical throwing hole, a push rod pushes down the cartilage to enter between the machine body and the cylindrical roller, a motor drives a first sprocket wheel to rotate, the first sprocket wheel is meshed with a second sprocket wheel at the input end of the cylindrical roller through a chain to drive the cylindrical roller to rotate, in the high-speed rotation process of the cutter disc on the cylindrical roller, sharp holes rub with rib cartilage, the cartilage can be cut into chips and falls into the cylindrical roller, the chips of the cartilage are collected in the cylindrical roller after being formed, the chips of the cartilage can be discharged from the cylindrical roller after being prepared, and the chips can be discharged into a receiving groove through a discharging opening at the bottom of an inverted U-shaped cover, so that the cartilage can be conveniently and rapidly prepared into chips.

Description

Electrically driven costal cartilage chip preparation machine

Technical Field

The utility model belongs to the technical field of chip cartilage preparation, and particularly relates to an electrically-driven costal cartilage chip preparation machine.

Background

The clastic cartilage is an autologous tissue material commonly used for nasal basal filling, nasal back filling and chin filling in cosmetic surgery, has the characteristics of low absorptivity, easiness in shaping, light tissue reaction and the like, and is increasingly widely applied to plastic surgery in recent years. However, how to prepare cartilage fragments that can be filled/injected after removal of the costal cartilage surgery is a considerable improvement.

The inventor of the utility model performs the first line of medical cosmetology and clinic for a long time and obtains some research results, for example, the application of the paper 'portable visual retractor in the skin dilation operation behind the ear' is published in journal of cosmetology and plastic surgery in China in 2021; for another example, in 2018, a paper of research progress of exosomes in the field of regeneration repair and anti-aging is published in the university of Legious medical school.

The inventors found that the conventional method for preparing costal cartilage fragments is to cut cylindrical costal cartilage into pieces, then strips and finally particles with a scalpel. This method is time consuming, long-term exposure of the implant to air is one of the risk factors for postoperative implant infection, and laborious, requiring the surgeon and his patience. The inventors have thus proposed an electrically driven apparatus for preparing costal cartilage in particulate form and filed this technology with the name 202222752638.3 of China, which has been issued on the date 31 of 2023 with the name 218393955U.

However, the inventors have found in practice that there is a continuing need for improvement in the art for the manufacture of a device that will rapidly prepare cartilage into chips, thereby shortening and simplifying the surgical procedure.

To this end, the inventors propose an electrically driven costal cartilage chip preparation machine.

Disclosure of Invention

The utility model aims to provide an electrically driven costal cartilage chip preparation machine which solves the problems in the background art.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides an electric drive rib cartilage piece preparation machine, includes the support, the support is protruding style of calligraphy pedestal, the top of support is equipped with the organism, it is connected with cylindrical cylinder to rotate on the organism, the top of organism is equipped with the cavity cylindrical of leading to cylindrical cylinder and throws the hole, cavity cylindrical is thrown in the downthehole grafting and is had the push rod, be equipped with the blade disc on the cylindrical cylinder, be equipped with the jack groove on the organism, the output of the motor that the jack groove internal fixation set up is connected with the input transmission of first sprocket, first sprocket passes through the second sprocket meshing of chain and cylindrical cylinder input, cylindrical cylinder's discharge end switch-on has the cover at the inverted U type cover of organism lateral surface, the jack inslot just is located one side grafting that keeps away from the motor has the material receiving groove, the discharge opening of inverted U type cover bottom is put through with material receiving groove mutually.

Three silica gel strips are annularly and equidistantly arranged in the hollow cylindrical input hole.

The lateral surface of push rod is equipped with the concave surface groove of pegging graft with three silica gel strips matched with direction, the top of push rod is equipped with the limiting plate at cavity cylindrical input hole top, the top of limiting plate is equipped with first handle.

The bottom of the push rod is uniformly provided with spines.

The right side of organism is equipped with the driving cover, first sprocket, chain and second sprocket all are located the driving cover.

The material receiving groove is limited between the support and the inverted U-shaped cover, two second handles which are used for pulling the material receiving groove out of the insertion groove are arranged on the material receiving groove, a turnover cover plate is hinged to the material receiving groove, and a third handle is arranged on the turnover cover plate.

The inverted U-shaped cover is buckled with the machine body through a lock catch.

The utility model has the technical effects and advantages that: this electric drive rib cartilage piece preparation machine, through a hollow cylindrical throw-in hole, trilateral has silica gel, can prevent that the cartilage from sliding, push gradually the rib cartilage through the push rod of taking sharp thorn into a cylindrical cylinder of taking the blade disc, the blade disc is at the rotatory in-process of cylinder high-speed, sharp hole and rib cartilage friction take place, just can cut into the piece form with the cartilage, the cartilage piece forms the back and will collect in the cylinder is inside, can take out in the cylinder after accomplishing, this cylinder is electric drive, adjustable speed, drive arrangement and cylinder cutting device separate, be convenient for disinfect.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is an exploded view of the present utility model;

FIG. 3 is a schematic view of the inverted U-shaped cover of the present utility model.

In the figure: 1. a support; 2. a body; 3. a hollow cylindrical input hole; 301. a silica gel strip; 4. a push rod; 401. a concave groove; 402. a limiting plate; 403. a first handle; 404. spike; 5. a cylindrical drum; 6. a cutterhead; 7. a plug-in groove; 8. a motor; 9. a first sprocket; 10. a chain; 11. a second sprocket; 12. a drive housing; 13. an inverted U-shaped cover; 14. a receiving groove; 15. a second handle; 16. turning over the cover plate; 17. a third handle; 18. locking; 19. and a discharging opening.

Description of the embodiments

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

The utility model provides an electric-driven rib cartilage chip preparation machine as shown in figures 1-3, which comprises a support 1, wherein the support 1 is a convex-shaped support body, the top of the support 1 is provided with a machine body 2, a cylindrical roller 5 is rotatably connected to the machine body 2, a hollow cylindrical feeding hole 3 leading to the cylindrical roller 5 is arranged at the top of the machine body 2, a push rod 4 is inserted into the hollow cylindrical feeding hole 3, a cutter disc 6 is arranged on the cylindrical roller 5, a plug groove 7 is arranged on the machine body 2, the output end of a motor 8 fixedly arranged in the plug groove 7 is in transmission connection with the input end of a first sprocket wheel 9, the first sprocket wheel 9 is meshed with a second sprocket wheel 11 at the input end of the cylindrical roller 5 through a chain 10, an inverted U-shaped cover 13 covered on the outer side surface of the machine body 2 is connected to the discharge end of the cylindrical roller 5, a material receiving groove 14 is inserted into the plug groove 7 and positioned at one side far away from the motor 8, and a material discharging opening 19 at the bottom of the inverted U-shaped cover 13 is connected with the material receiving groove 14.

The cartilage is thrown into the hollow cylindrical throwing hole 3, the push rod 4 pushes down the cartilage to enter between the machine body 2 and the cylindrical roller 5, the motor 8 drives the first chain wheel 9 to rotate, the first chain wheel 9 is meshed with the second chain wheel 11 at the input end of the cylindrical roller 5 through the chain 10 to drive the cylindrical roller 5 to rotate, in the high-speed rotating process of the cutterhead 6 on the cylindrical roller 5, sharp holes and rib cartilage are rubbed, the cartilage can be cut into fragments and fall into the cylindrical roller 5, the fragments of the cartilage are collected in the cylindrical roller 5 after being formed, the cylindrical roller 5 can be used for discharging after preparation, and the fragments can be conveniently and rapidly prepared into fragments by blanking into the receiving groove 14 through the discharging opening 19 at the bottom of the inverted U-shaped cover 13.

Three silica gel strips 301 are arranged in the hollow cylindrical input hole 3 in a circular equidistant manner, so that the cartilage can be prevented from sliding.

The outer side surface of the push rod 4 is provided with a concave groove 401 matched with the three silica gel strips 301 for guiding and inserting, the top of the push rod 4 is provided with a limiting plate 402 limited at the top of the hollow cylindrical feeding hole 3, the top of the limiting plate 402 is provided with a first handle 403, and the bottom of the push rod 4 is uniformly provided with spikes 404.

The costal cartilage is gradually pushed into a cylindrical roller 5 with a cutter head by a push rod 4, and a spike 404 is arranged to fix the costal cartilage.

The right side of organism 2 is equipped with driving cover 12, first sprocket 9, chain 10 and second sprocket 11 all are located driving cover 12, can prevent dust and protect first sprocket 9, chain 10 and second sprocket 11.

The receiving groove 14 is limited between the support 1 and the inverted U-shaped cover 13, two second handles 15 which are pulled out from the inserting groove 7 are arranged on the receiving groove 14, a turnover cover plate 16 is hinged on the receiving groove 14, and a third handle 17 is arranged on the turnover cover plate 16.

The receiving groove 14 can be pulled out for cleaning and sterilizing, and the turnover cover plate 16 can be opened when the costal cartilage is used, so that the costal cartilage can be conveniently taken and placed, the taking and placing speed is improved, and the long-term exposure of the implant to the air can be avoided.

The inverted U-shaped cover 13 is buckled with the machine body 2 through the lock catch 18, so that the inverted U-shaped cover 13 is conveniently detached, and the cylindrical roller 5 is conveniently disinfected and cleaned.

This electric drive rib cartilage piece preparation machine drops into the cartilage towards hollow cylindrical throwing hole 3, push rod 4 pushes down the cartilage and enters into between organism 2 and the cylindrical drum 5, motor 8 drive first sprocket 9 rotates, first sprocket 9 passes through chain 10 and the second sprocket 11 meshing of cylindrical drum 5 input, drive cylindrical drum 5 and rotate, cutter disc 6 high-speed rotatory in-process on the cylindrical drum 5, sharp hole and rib cartilage friction take place, just can cut the cartilage into the piece form, fall into cylindrical drum 5, the cartilage piece forms the back and will collect in cylindrical drum 5 inside, can be discharged by rolling cylindrical drum 5 after the preparation is accomplished, through the ejection of compact opening 19 of the bottom of falling U type cover 13, blanking is to receiving tank 14 in, conveniently prepare the cartilage into the piece fast, whole device is electric drive (battery).

Finally, it should be noted that: the foregoing description is only illustrative of the preferred embodiments of the present utility model, and although the present utility model has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements or changes may be made without departing from the spirit and principles of the present utility model.

Claims (7)

1. An electrically driven costal cartilage chip preparation machine comprising a support (1), characterized in that: the support (1) is protruding style of calligraphy pedestal, the top of support (1) is equipped with organism (2), rotate on organism (2) and be connected with cylindrical cylinder (5), the top of organism (2) is equipped with the cavity cylindrical of leading to cylindrical cylinder (5) and throws hole (3), cavity cylindrical is thrown hole (3) in and is inserted push rod (4), be equipped with blade disc (6) on cylindrical cylinder (5), be equipped with spliced groove (7) on organism (2), the output of motor (8) that spliced groove (7) internal fixation set up is connected with the input transmission of first sprocket (9), the second sprocket (11) meshing of first sprocket (9) with cylindrical cylinder (5) input through chain (10), the discharge end switch-on of cylindrical cylinder (5) has cover in the inverted U type cover (13) of organism (2) lateral surface, one side that spliced in spliced groove (7) and lie in keeping away from motor (8) has and connect silo (14), the discharge opening (19) of inverted U type cover (13) bottom is connected with silo (14).

2. An electrically driven costal cartilage chip preparation machine as claimed in claim 1 wherein: three silica gel strips (301) are arranged in the hollow cylindrical input hole (3) at equal intervals in an inner ring.

3. An electrically driven costal cartilage chip preparation machine as claimed in claim 2 wherein: the outer side surface of the push rod (4) is provided with a concave groove (401) matched with three silica gel strips (301) for guiding and inserting, the top of the push rod (4) is provided with a limiting plate (402) limited at the top of the hollow cylindrical feeding hole (3), and the top of the limiting plate (402) is provided with a first handle (403).

4. An electrically driven costal cartilage chip preparation machine as claimed in claim 1 wherein: the bottom of the push rod (4) is uniformly provided with spines (404).

5. An electrically driven costal cartilage chip preparation machine as claimed in claim 1 wherein: the right side of organism (2) is equipped with driving cover (12), first sprocket (9), chain (10) and second sprocket (11) all are located driving cover (12).

6. An electrically driven costal cartilage chip preparation machine as claimed in claim 1 wherein: the material receiving groove (14) is limited between the support (1) and the inverted U-shaped cover (13), two second handles (15) which are used for pulling the material receiving groove (14) out of the inserting groove (7) are arranged on the material receiving groove (14), a turnover cover plate (16) is hinged on the material receiving groove (14), and a third handle (17) is arranged on the turnover cover plate (16).

7. An electrically driven costal cartilage chip preparation machine as claimed in claim 1 wherein: the inverted U-shaped cover (13) is buckled with the machine body (2) through a lock catch (18).