CN109732667B - Special ostomy bag opening and scale grooving device for livestock and veterinary - Google Patents

Abstract

The invention relates to the field of livestock epidemic prevention, in particular to an ostomy bag opening and scale grooving device special for livestock and veterinary, which comprises the following components: the device comprises a base, a fixing frame, a top support part, a first chassis, a clamping part, a second chassis and a cutting part; the mount sets up on the base, the top prop part is including worm gear mechanism, the top prop part sets up on the base and goes up and down to first chassis through worm gear mechanism, press from both sides tight part setting on first chassis and press from both sides tightly to the second chassis, the cutting part sets up and is used for carrying out opening and scale fluting to the ostomy bag on the second chassis on the mount, the top prop part goes up and down first chassis through worm gear mechanism, press from both sides tight part and press from both sides tightly the second chassis, height through rotating member adjustment parallel four-bar mechanism, then adjust the fluting radius of two tool bits, open top prop part and make ostomy bag viscose dish go up and down to laminating tool bit position, open power spare and to ostomy bag viscose dish annular cutting, it is simple convenient practical.

Description

Special ostomy bag opening and scale grooving device for livestock and veterinary

Technical Field

The invention relates to the field of livestock epidemic prevention, in particular to an opening and scale grooving device of an ostomy bag special for livestock and veterinary.

Background

When an animal or a pet in livestock breeding has anorectal diseases or urinary tract diseases and colostomy, ileum and urethrostomy are performed, an ostomy bag is required to be attached to the stomy, and excrement of the animal is collected. The current ostomy bag comprises a bag body and a pasting disc, wherein the upper part of the bag body is fixedly connected with the pasting disc, the lower part of the bag body is provided with an outlet sealed by a sealing clamp, the pasting disc is circular, the center of the pasting disc is provided with a smaller opening, and the opening is led into the bag body. Before using the ostomy bag, the opening is cut into corresponding size openings by scissors according to the size of the stoma of the user, and then the film adhered to the outer surface of the disc is torn and adhered to the site of the stoma of the user.

The existing ostomy bag has the problems of inconvenient use, discomfort and easy puncture of the bag body. Specifically, the opening in the first, adhesive disc needs to be cut with scissors, and sterile scissors are required to be used, so that additional sterile scissors are required to be prepared in nursing work, the use is inconvenient, and the nursing workload is increased. Secondly, the periphery of the orifice formed by the scissors is not smooth enough, and a notch is easy to form, and when the orifice is stuck on the skin at the stoma of a user, discomfort is caused. Third, the bag body is made by plastic film, cuts out the opening on the disc through the scissors, and the scissors pointed end stabs the bag body of pasting the disc rear side easily, leads to making the pocket scrapped.

Disclosure of Invention

In order to solve the problems, the invention aims to provide the convenient-to-process opening and scale grooving device for the ostomy bag special for the livestock and the veterinarian.

The invention aims at realizing the following technical scheme:

the invention provides an opening and scale grooving device of an ostomy bag special for livestock and veterinary, which comprises the following components: the device comprises a base, a fixing frame, a top support part, a first chassis, a clamping part, a second chassis and a cutting part; the mount setting is on the base, and the top support part is including worm gear mechanism, and the top support part sets up on the base and goes up and down to first chassis through worm gear mechanism, and clamping part sets up on first chassis and presss from both sides tightly the second chassis, and cutting part sets up and is used for carrying out opening and scale fluting to the ostomy bag on the second chassis on the mount, and cutting part includes: the device comprises a power piece, a gear frame, a gear, a parallel four-bar mechanism, a cutter head and a rotating piece; the gear rack is hinged on the fixing frame, the power piece is arranged on the fixing frame and is in power connection with the gear rack to drive the gear rack to rotate, the number of gears, the parallel four-bar mechanism and the cutter head is two, the two gears are meshed and hinged on the gear rack, the parallel four-bar mechanism is hinged with the gears and the gear rack, the cutter head is arranged on one bar of the parallel four-bar mechanism which is always in a vertical state, and the rotating piece is arranged on the gear rack and is in power connection with one of the gears.

Further, the parallel four-bar mechanism includes: the first rotating rod, the second rotating rod and the connecting rod; the gear rack comprises a rectangular frame, a first rotating rod, a connecting rod, a second rotating rod and the rectangular frame are sequentially hinged to form a parallel four-bar mechanism, the first rotating rod is hinged to the gear, and the cutter head is arranged on the connecting rod which is always in a vertical state in the parallel four-bar mechanism.

Further, the number of the first rotating rods and the second rotating rods is two, the connecting rods are I-shaped connecting rods, and the cutting part further comprises an external fixed block; the two first rotating rods are arranged in parallel, one end of each first rotating rod is hinged with the gear and the rectangular frame respectively, and the other end of each first rotating rod is hinged with two ends of one end of the connecting rod respectively; the two second rotating rods are arranged in parallel, one ends of the two second rotating rods are respectively hinged with the rectangular frame and the external fixed block, and the other ends of the two second rotating rods are respectively hinged with two ends of the other end of the connecting rod.

Further, the cutting portion further includes: a guiding square sleeve, a guiding telescopic rod and a jacking pin; the guide square sleeve is arranged on the connecting rod, a through hole is formed in the vertical direction of the guide square sleeve, a guide block is arranged on the inner wall of the through hole, a guide groove is formed in the guide telescopic rod, the guide telescopic rod is sleeved in the through hole, the guide block is arranged in the guide groove, a jacking pin hole is formed in the guide square sleeve, and jacking pin threads are sleeved in the jacking pin hole to prop against the guide telescopic rod.

Further, the clamping portion includes: the device comprises a track disc, a plurality of support rods, a plurality of first gear connecting rods, two second gear connecting rods, a plurality of overturning plates, a plurality of clamping wheel frames, clamping wheels and support columns; the track disc is provided with a plurality of track grooves, one end of each support rod is movably clamped in each track groove, two ends of each first gear connecting rod are of gear structures, and one end of each second gear connecting rod is of a gear structure; one end of each second gear connecting rod is hinged with the other end of the corresponding supporting rod, the other ends of the two second gear connecting rods are sequentially meshed and connected through a plurality of first gear connecting rods, and meshed ends of the two first gear connecting rods positioned at the other end side of the supporting rod are hinged with the other ends of the other supporting rods; a turnover plate is connected between the first gear connecting rod and the supporting rod and between the second gear connecting rod and the supporting rod, the clamping wheel is hinged on the clamping wheel frame and used for clamping the ostomy bag on the second chassis, and the clamping wheel frame is arranged on the supporting rod and used for adjusting the clamping position of the clamping wheel by sliding through a plurality of supporting rods; the support column is arranged on the first chassis, a channel cavity is formed in the support column, and a chassis hole corresponding to the channel cavity in position is formed in the second chassis.

Further, the clamping portion further includes: a rotating wheel, a torsion spring; the clamping wheel frame is provided with a clamping wheel block provided with a U-shaped groove, and the rotating wheel is eccentrically hinged in the U-shaped groove through an eccentric hinge shaft; the torsion spring is sleeved on the eccentric hinge shaft, one end of the torsion spring is connected with the clamping wheel block, and the other end of the torsion spring is connected with the rotating wheel; the rotating wheel is provided with an anti-slip groove, and the clamping wheel is sleeved on the rotating wheel and is inlaid and clamped with the anti-slip groove.

Further, the cylindric lock is provided with to bracing piece one end, and cylindric lock activity card is established in the track inslot.

Further, the clamping portion includes: the device comprises a tray ring, a supporting block, a clamping arm, a push rod, a chassis hinge shaft, a cam disc and a deflector rod seat; the tray ring is arranged on the first chassis, a plurality of supporting blocks for placing the second chassis are arranged on the tray ring, a plurality of openings are formed in the tray ring, the clamping arms are hinged in the openings, the chassis hinge shaft is arranged on the first chassis, the chassis hinge shaft is hinged with a cam disc, the lower end of the cam disc is coaxially connected with a deflector rod seat, a deflector rod is arranged on the deflector rod seat, and the periphery of the cam disc is provided with cam teeth; one end of the ejector rod is connected with the clamping arm, and the other end of the ejector rod abuts against the cam teeth.

Further, the jacking portion includes: the device comprises a third chassis, a first motor, a first worm wheel, a first stay bar, a second stay bar and a hinge joint; the third chassis sets up on the base, and first motor setting is connected with first worm on the third chassis, and the quantity of first worm wheel is a plurality of, and a plurality of first worm wheels hinge on the third chassis and be circumference form distribution and first worm meshing, and first vaulting pole is articulated with first worm wheel, and the second vaulting pole is articulated with first vaulting pole, and the articulated joint is articulated with the second vaulting pole, and the articulated joint is connected with first chassis.

Further, the power piece includes the second motor, and the rotating member includes: a hand wheel, a second worm and a second worm wheel; the second worm is hinged on the fixing frame, the second worm wheel is coaxially connected with one of the gears, and the second worm is connected with the hand wheel and meshed with the second worm wheel.

In the special ostomy bag opening and scale grooving device for livestock and veterinary, the propping part lifts the first chassis through the worm and gear mechanism, the clamping part clamps the second chassis, the heights of the parallel four-bar mechanisms are adjusted through the rotating part, then the grooving radiuses of the two cutter heads are adjusted, when the cutter heads are adjusted to a specified caliber, the propping part is opened to lift the ostomy bag adhesive disc to the position of the attached cutter head, and then the power part is opened to circularly cut the ostomy bag adhesive disc, so that the device is simple, convenient and practical.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this specification, illustrate embodiments of the application and together with the description serve to explain the application and do not constitute a limitation on the application. In the drawings:

FIG. 1 is a block diagram of one state of the opening and scale grooving apparatus of the present application for animal husbandry and veterinary use;

FIG. 2 is a block diagram of another state of the opening and scale grooving apparatus of the present invention for animal husbandry and veterinary use;

FIG. 3 is a block diagram of an application of a second embodiment of the clamping portion of the opening and scale grooving apparatus of the present invention for animal husbandry and veterinary use;

FIG. 4 is a view of the opening of the ostomy bag for veterinary use in accordance with the present invention at an angle to the cut portion of the scale grooving apparatus;

FIG. 5 is a view of the opening of the ostomy bag for veterinary use and the other angle of the cut portion of the scale grooving apparatus of the present invention;

FIG. 6 is a view of the opening of the ostomy bag for veterinary use and the further angle of the cutting portion of the scale grooving apparatus of the present invention;

FIG. 7 is a block diagram of the opening of the ostomy bag and the top support portion of the scale grooving apparatus for animal husbandry and veterinary use of the present invention;

FIG. 8 is a view of the opening of the ostomy bag for veterinary use and the angle of the clamp portion of the scale slotting device of the present invention in a first version of the expanded configuration;

FIG. 9 is a view of the opening of the ostomy bag for veterinary use and the alternative angle of the clamping portion of the scale slotting device of the present invention in a first version of the deployment;

FIG. 10 is a view of the opening of the ostomy bag for veterinary use and the angle of the clamping portion of the scale grooving apparatus of the present invention in a first configuration;

FIG. 11 is a view of the opening of the ostomy bag for veterinary use and the structure of the alternative angle of the clamping portion of the scale grooving apparatus of the present invention in the first configuration;

FIG. 12 is a block diagram of the opening of the ostomy bag for livestock and veterinary use of the present invention at an angle to the pinch wheel of the scale grooving apparatus;

FIG. 13 is a view of the opening of the ostomy bag for veterinary use and the alternative angle of the clamping wheel of the scale grooving apparatus of the present invention;

FIG. 14 is a block diagram of an angle between the opening of the animal doctor dedicated ostomy bag and the second aspect of the clamping portion of the scale slotting device of the present invention;

FIG. 15 is a view of the opening of the animal doctor dedicated ostomy bag and the second alternative of the clamping portion of the scale slotting device of the present invention;

wherein the reference numerals are as follows: 1. a base; 2. a fixing frame; 3. a first chassis; 4. a second chassis; 5. an adhesive disc; 6. a gear frame; 7. a first gear; 8. a second gear; 9. a cutter head; 10. a first rotating lever; 11. a second rotating lever; 12. a connecting rod; 13. an external fixed block; 14. a guiding square sleeve; 15. a guiding telescopic rod; 16. a knock pin; 17. a guide block; 18. a guide groove; 19. a track disc; 20. a support rod; 21. a first gear link; 22. a second gear link; 23. a turnover plate; 24. a first gear lever; 25. a second gear lever; 26. a third gear lever; 27. clamping the wheel frame; 28. clamping the wheel block; 29. a pinch roller; 30. a rotating wheel; 31. a torsion spring; 32. an eccentric hinge shaft; 33. a track groove; 34. a chassis hole; 35. a support column; 36. a cylindrical pin; 37. a tray ring; 38. a support block; 39. a clamping arm; 40. a push rod; 41. a chassis hinge shaft; 42. a cam plate; 43. a deflector rod seat; 44. a deflector rod; 45. a third chassis; 46. a support frame; 47. a first worm; 48. a first worm wheel; 49. a first stay; 50. a second stay bar; 51. a hinge joint; 52. a second motor; 53. a hand wheel; 54. a second worm; 55. a second worm wheel; 56. a first rotating shaft; 57. and a worm wheel hinged plate.

Detailed Description

In order that those skilled in the art will better understand the present invention, a technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in which it is apparent that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the present invention without making any inventive effort, shall fall within the scope of the present invention.

As shown in fig. 1 to 15, an ostomy bag opening and scale grooving device special for livestock and veterinary according to an embodiment of the invention comprises: the device comprises a base 1, a fixing frame 2, a top support part, a first chassis 3, a clamping part, a second chassis 4 and a cutting part; the mount 2 sets up on base 1, and the top prop part is including worm gear mechanism, and the top prop part sets up on base 1 and goes up and down to first chassis 3 through worm gear mechanism, and clamping part sets up on first chassis 3 and presss from both sides tightly second chassis 4, and the cutting part setting is used for carrying out opening and scale fluting to the ostomy bag on the second chassis 4 on the mount 2, and the cutting part includes: the device comprises a power part, a gear rack 6, gears, a parallel four-bar mechanism, a cutter head 9 and a rotating part; the gear rack 6 is hinged on the fixed frame 2, the power piece is arranged on the fixed frame 2 and is in power connection with the gear rack 6 to drive the gear rack 6 to rotate, the number of gears, the parallel four-bar mechanism and the cutter head 9 is two, the two gears are meshed and hinged on the gear rack 6, the parallel four-bar mechanism is hinged with the gears and the gear rack 6, the cutter head 9 is arranged on one bar which is always in a vertical state in the parallel four-bar mechanism, and the rotating piece is arranged on the gear rack 6 and is in power connection with one gear.

The device is mainly used for cutting and describing the annular scale wire grooves of the adhesive disc 5 in the special ostomy bag for livestock. The device mainly comprises a fixing frame part, a top supporting part, a clamping part, a cutting part and other structures. In the opening and scale grooving device for the ostomy bag special for livestock and veterinary, the propping part lifts the first chassis 3 through the worm and gear mechanism, the clamping part clamps the second chassis 4, the heights of the parallel four-bar mechanisms are adjusted through the rotating piece, then the grooving radiuses of the two cutter heads 9 are adjusted, when the cutter heads 9 are adjusted to a specified caliber, the propping part is opened to enable the ostomy bag adhesive disc 5 to lift to the position of the attached cutter head 9, and then the power piece is opened to cut the ostomy bag adhesive disc 5 in a ring shape, so that the grooving device is simple, convenient and practical.

In a preferred embodiment, the parallel four-bar mechanism includes: a first rotating lever 10, a second rotating lever 11, and a link 12; the gear frame 6 comprises a rectangular frame, a first rotating rod 10, a connecting rod 12, a second rotating rod 11 and the rectangular frame are sequentially hinged to form a parallel four-bar mechanism, the first rotating rod 10 is hinged to a gear, and the cutter head 9 is arranged on the connecting rod 12 which is always in a vertical state in the parallel four-bar mechanism.

The rack plates on two sides below the gear frame 6 are respectively fixed with a first gear 7 and a second gear 8 with the same specification, the first gear 7 and the second gear 8 are meshed with each other, the first gear 7 and the second gear 8 are arranged in the gear frame 6, one side of the first gear 7 and the second gear 8 is at a certain distance from the corresponding side of the gear frame 6, the gear frame 6 on the side is designed into a rectangular frame structure, and the centers of the first gear 7 and the second gear 8 correspond to two vertex angles above the rectangular frame on the side respectively.

In the preferred technical scheme, the number of the first rotating rods 10 and the second rotating rods 11 is two, the connecting rods 12 are I-shaped connecting rods 12, and the cutting part further comprises an external fixed block 13; the two first rotating rods 10 are arranged in parallel, one end of each first rotating rod is hinged with the gear and the rectangular frame, and the other end of each first rotating rod is hinged with two ends of one end of the connecting rod 12; the two second rotating rods 11 are arranged in parallel, one ends of the two second rotating rods are respectively hinged with the rectangular frame and the external fixed block 13, and the other ends of the two second rotating rods are respectively hinged with two ends of the other end of the connecting rod 12.

The two top corners above the rectangular frame are respectively hinged with the centers of the first gear 7 and the second gear 8 by a first rotating rod 10, the two top corners below the rectangular frame are respectively hinged with a second rotating rod 11 on the corresponding external fixed block 13, and an I-shaped connecting rod 12 is hinged between the two first rotating rods 10 and the two second rotating rods 11 in the vertical direction on the same side, because the first rotating rod 10 and the second rotating rod 11 are in a first specification, the first rotating rod 10, the second rotating rod 11 and the connecting rod 12 form a parallel four-rod mechanism, and the connecting rod 12 is always in a vertical state.

In a preferred embodiment, the cutting portion further includes: a guiding square sleeve 14, a guiding telescopic rod 15 and a top pin 16; the square guide sleeve 14 is arranged on the connecting rod 12, a through hole is formed in the square guide sleeve 14 in the vertical direction, a guide block 17 is arranged on the inner wall of the through hole, a guide groove 18 is formed in the guide telescopic rod 15, the guide telescopic rod 15 is sleeved in the through hole, the guide block 17 is arranged in the guide groove 18, a top pin 16 hole is formed in the square guide sleeve 14, and the top pin 16 is in threaded sleeve connection with the top pin 16 hole to abut against the guide telescopic rod 15.

A guide square sleeve 14 is vertically fixed on the outer side of the middle section rod wall of the connecting rod 12, a through hole is formed in the vertical direction of the guide square sleeve 14, a guide block 17 is arranged on one side of the inner wall of the through hole, and the through hole penetrates through the upper end face and the lower end face of the guide square sleeve 14. A guide telescopic rod 15 is sleeved in the through hole of the guide square sleeve 14, and an axial guide groove 18 is formed in the guide telescopic rod 15 corresponding to the direction of the guide block 17, so that the guide telescopic rod 15 can not rotate and can only vertically move up and down along the axial direction. The outer wall of the guiding square sleeve 14 is perpendicular to the guiding square sleeve 14, a top pin 16 hole is formed in the top pin 16 hole, the top pin 16 is inserted into the top pin 16 hole, the top pin 16 and the top pin 16 hole are in threaded sleeve connection, the front end of the top pin 16 is arranged to be conical, and the top pin 16 is screwed into the top pin 16 hole to be capable of being positively jacked into the guiding groove 18 of the guiding telescopic rod 15 to play an axial clamping role on the guiding telescopic rod 15. The lower end of the guiding telescopic rod 15 is fixedly connected with a cutter head 9, and the lowest end of the cutter head 9 is a cutter point and is used for cutting the center of the ostomy bag adhesive disc 5 and describing annular scale marks on the disc surface.

In a preferred embodiment, the clamping portion includes: the track disc 19, the plurality of support rods 20, the plurality of first gear links 21, the two second gear links 22, the plurality of overturning plates 23, the plurality of clamping wheel frames 27, the clamping wheels 29 and the support columns 35; the track disc 19 is provided with a plurality of track grooves 33, one end of each support rod 20 is movably clamped in each track groove 33, two ends of each first gear connecting rod 21 are in gear structures, and one end of each second gear connecting rod 22 is in gear structures; one end of each second gear connecting rod 22 is hinged with the other end of the corresponding supporting rod 20, the other ends of the two second gear connecting rods 22 are sequentially meshed and connected through a plurality of first gear connecting rods 21, and meshed ends of the two first gear connecting rods 21 positioned on the other end side of the supporting rod 20 are hinged with the other ends of the other supporting rods 20; a turnover plate 23 is connected between the first gear connecting rod 21 and the supporting rod 20 and between the second gear connecting rod 22 and the supporting rod 20, a clamping wheel 29 is hinged on a clamping wheel frame 27 for clamping the ostomy bag on the second chassis 4, and the clamping wheel frame 27 is arranged on the supporting rod 20 and is used for adjusting the clamping position of the clamping wheel 29 by sliding a plurality of supporting rods 20; the support column 35 is arranged on the first chassis 3, a channel cavity is formed in the support column 35, and a chassis hole 34 corresponding to the channel cavity is formed in the second chassis 4.

The whole first chassis 3 is disc-shaped, a track disc 19 is fixed at the center of the upper end surface of the first chassis 3, an annular track groove 33 with a certain depth is formed in the upper end surface of the track disc 19 near the periphery, and a supporting rod 20 is clamped in the track groove 33. Five support rods 20 are clamped in the track grooves 33 of the track disc 19, wherein the width of two adjacent support rods 20 is half of the width of the other support rods 20, a strip-shaped gear rod is fixedly connected to the end head of the upper end of the L-shaped vertical bending section of each support rod 20, the gear rod is perpendicular to the L-shaped vertical bending section of each support rod 20, the second gear rods 25 at the upper ends of the two adjacent support rods 20 extend beyond one side of each support rod 20 in the opposite direction, and the two sides of the first gear rods 24 at the upper ends of the other three groups of support rods 20 extend beyond the support rods 20. The second gear rod 25 connected to two adjacent support rods 20 is hinged with a second gear rod 22 in the inner direction beyond the side end, the second gear rod 22 has no gear structure at the end corresponding to the second gear rod 25, and a gear structure is fixed at the other end of the first gear rod 21. The first gear connecting rods 21 are hinged at the ends of the two ends of the first gear rods 24 fixed by the other three groups of support rods 20, the two ends of the first gear connecting rods 21 are of gear structures, and the two first gear connecting rods 21 hinged at the two ends of the first gear rods 24 are meshed with each other corresponding to the hinged gear structures. The turnover plates 23 are connected between the first gear connecting rod 21 and the supporting rods 20 and between the second gear connecting rod 22 and the supporting rods 20, the central angles of the first gear connecting rod 21 and the second gear connecting rod 22 after being tiled are 30 degrees, the adjacent end gear structure end faces of the two corresponding gear connecting rods 12 on the inner sides of the two adjacent supporting rods 20 are hinged to the two ends of the third gear connecting rod 26 at the same time, and the central angles of the first gear connecting rod 21 and the two ends of the second gear connecting rod 22 after being tiled are 30 degrees, so that the adjacent end gear structure end faces of the gear connecting rods 12 are in the same plane in a horizontal state, and the adjacent gear structures hinged through the same third gear connecting rod 26 are meshed with each other.

The center area of the track disc 19 is provided with a round hole, a support column 35 is vertically and fixedly connected to the center position of the upper end face of the first chassis 3 through the round hole, the support column 35 is integrally cylindrical, an axially penetrated channel cavity with a round section is formed in the support column 35, the support column 35 penetrates through the round hole of the track disc 19 and extends upwards for a certain distance, a second chassis 4 is horizontally and fixedly connected to the upper end of the support column 35, the second chassis 4 is likewise disc-shaped and has a certain elastic deformation characteristic, and the second chassis 4 is located below the clamping wheel 29 in height. And simultaneously, the area of the center of the second chassis 4 corresponding to the channel cavity is provided with a chassis hole 34, so that after the opening of the ostomy bag adhesive disc 5 is cut, the cut part of the center area of the adhesive disc 5 can be blanked through the chassis hole 34 of the second chassis 4.

In a preferred embodiment, the clamping portion further includes: a rotating wheel 30, a torsion spring 31; the clamping wheel frame 27 is provided with a clamping wheel block 28 with a U-shaped groove, and the rotating wheel 30 is eccentrically hinged in the U-shaped groove through an eccentric hinge shaft 32; the torsion spring 31 is sleeved on the eccentric hinge shaft 32, one end of the torsion spring is connected with the clamping wheel block 28, and the other end of the torsion spring is connected with the rotating wheel 30; the rotating wheel 30 is provided with an anti-slip groove, and the clamping wheel 29 is sleeved on the rotating wheel 30 and is inlaid and clamped with the anti-slip groove.

Adjacent gear structures at adjacent ends of the gear connecting rods 12 are meshed with each other, the cylindrical pins 36 which are clamped with the track grooves 33 in the track disc 19 are matched with the supporting rods 20, so that the supporting rods 20 can rotate around the track disc 19, meanwhile, the gear connecting rods 12 meshed with each other can be driven to rotate upwards to turn up, when the supporting rods 20 are close to each other, the upward turning angle of the gear connecting rods 12 is higher, and when the gear connecting rods 12 are turned upwards to be in a vertical state, the gear connecting rods 12 are nearest to each other. The end face of the outer end of the middle three groups of support rods 20 of the five groups of support rods 20 is fixedly connected with a clamping wheel frame 27, the whole clamping wheel frame 27 is in a vertical L shape, the vertical section is a long section, the upper end right-angle inward bending section is a short section, the lower end of the inner end of the horizontal section bent at the upper end of the clamping wheel frame 27 is fixedly connected with a clamping wheel block 28, the lower end of the clamping wheel block 28 is provided with a U-shaped groove, the inside of the U-shaped groove is eccentrically hinged with a rotating wheel 30, the rotating wheel 30 is integrally in a conical structure design from outside to inside, the outer part of the rotating wheel 30 is sleeved with a clamping wheel 29, the clamping wheel 29 is integrally conical in the same, and the conical design can prevent the circular bag making adhesive disc 5 from being torn due to the fact that the linear speed of the clamping wheel 29 in the tangential direction is the same at different radial radius positions when the clamping wheel 29 is used for rolling and clamping the bag making adhesive disc 5 in a horizontal state. The anti-slip groove on the outer wall of the rotating wheel 30 is inlaid and clamped with the clamping wheel 29, so that the clamping wheel 29 cannot slip relative to the rotating wheel 30 in the axial direction.

The clamping wheel 29 is made of flexible materials such as plastic or silica gel, so that the outer wall of the clamping wheel 29 has a larger friction coefficient, and the adhesive disc 5 of the ostomy bag can be clamped conveniently through rolling friction. The outer wall of the cylindrical section of the clamping wheel 29 is designed with a knurled structure, which can further increase the friction of the clamping wheel 29 against the ostomy bag adhesive disc 5. The eccentric hinge shaft 32 at the rear side of the rotating wheel 30 is sleeved with the torsion spring 31, one end of the torsion spring 31 is fixed on the end face at the rear side of the rotating wheel 30, the other end of the torsion spring 31 is fixed in the clamping wheel block 28, one end of the torsion spring 31 fixed on the end face at the rear side of the rotating wheel 30 is fixed on the edge area at the other side of the rear end face of the rotating wheel 30, and the torsion spring 31 can have the function of rotating elastic reset under the action of the torsion spring 31. When the rotating wheel 30 drives the clamping wheel 29 to eccentrically rotate, the clamping wheel 29 realizes high-speed fluctuation under the eccentric action, so that the edge area of the upper end surface of the ostomy bag adhesive disc 5 can be clamped. The supporting rod 20, the gear connecting rod 12 and other related structures play roles in circumferentially and uniformly distributing clamping and folding and releasing the supporting rod 20 on the clamping wheel 29.

In a preferred embodiment, one end of the supporting rod 20 is provided with a cylindrical pin 36, and the cylindrical pin 36 is movably clamped in the track groove 33.

The whole L-shaped support rod 20, the long section end of the support rod 20 is vertically fixed with a cylindrical pin 36 clamped inside the track groove 33, so that the L-shaped long section of the support rod 20 is a horizontal section, and the L-shaped short section bending section is a vertical section. The support rod 20 can move circumferentially in the track groove 33 of the track disc 19 by the cylindrical pin 36, and the support rod 20 can rotate freely by the cylindrical pin 36.

In a preferred embodiment, the clamping portion includes: tray ring 37, support block 38, clamping arm 39, ejector rod 40, chassis hinge shaft 41, cam disk 42 and deflector rod seat 43; the tray ring 37 is arranged on the first chassis 3, a plurality of supporting blocks 38 for placing the second chassis 4 are arranged on the tray ring 37, a plurality of openings are formed in the tray ring 37, the clamping arms 39 are hinged in the openings, the chassis hinge shaft 41 is arranged on the first chassis 3, the chassis hinge shaft 41 is hinged with a cam disc 42, the lower end of the cam disc 42 is coaxially connected with a deflector rod seat 43, a deflector rod 44 is arranged on the deflector rod seat 43, and the periphery of the cam disc 42 is provided with cam teeth; one end of the carrier rod 40 is connected to the clamping arm 39 and the other end abuts against the cam teeth.

The clamping part can adopt the 2 nd scheme, be fixed with tray ring 37 at first chassis 3 up end, tray ring 37 circumference distributes has three group's tray fixed leg to be fixed with first chassis 3, pushes away a tray fixed leg and has certain length so that tray ring 37 has a certain distance from first chassis 3. The tray ring 37 at the upper end of the tray fixing leg is fixedly connected with the supporting blocks 38, the supporting blocks 38 are designed into a step structure, the inner area of each supporting block 38 is arranged at the lower end of the step, the step trend is arc-shaped, three groups of supporting blocks 38 which are uniformly distributed are arranged on the step trend of the same circumference, the lower end of the step of each supporting block 38 is clamped with the second chassis 4, the upper end face of the second chassis 4 is provided with the ostomy bag adhesive disc 5, the circumference of the tray ring 37 is uniformly distributed with three groups of openings, and the openings and the tray fixing legs are distributed in a staggered manner. The inside hinge of three group opening is connected with the clamp arm 39, and clamp arm 39 upper end is buckled towards centre of a circle direction level, is provided with circular arc protruding structure in bending section near centre of a circle side end department lower extreme, and circular arc protruding structure is convenient for clamp arm 39 when inwards rotating, and upper end circular arc protruding structure plays the clamp action at bag viscose dish 5 up end. A push rod 40 is fixedly penetrated at the lower end of the clamping arm 39, and a ball head structure is arranged at the front end of the push rod 40. The chassis hinge shaft 41 is vertically fixed on the upper end face of the first chassis 3, the upper end of the chassis hinge shaft 41 is hinged with the cam disc 42, the lower end of the cam disc 42 is coaxially and fixedly connected with the deflector rod seat 43, the deflector rod seat 43 is laterally and vertically fixedly connected with the deflector rod 44, the deflector rod 44 stretches out of the structure of the tray ring 37 towards the outer side, the deflector rod 44 can be held by hand to control the cam disc 42 to rotate, three groups of cam teeth with the same rotation direction are uniformly distributed on the circumference of the cam disc 42, the ejector rod 40 penetrating through the lower end of the clamping arm 39 is propped against the cam tooth side face of the cam disc 42, when the cam disc 42 is stirred to rotate, the cam tooth can rotate the ejector rod 40 to enable the clamping arm 39 to rotate at a certain angle, and therefore the effect of clamping or releasing the adhesive disc 5 of an ostomy bag can be achieved.

In a preferred embodiment, the jacking portion includes: the third chassis 45, the first motor, the first worm 47, the first worm wheel 48, the first stay bar 49, the second stay bar 50 and the hinge joint 51; the third chassis 45 is arranged on the base 1, the first motor is arranged on the third chassis 45 and connected with the first worm 47, the first worm gears 48 are multiple, the first worm gears 48 are hinged on the third chassis 45 and are circumferentially distributed and meshed with the first worm 47, the first stay bars 49 are hinged with the first worm gears 48, the second stay bars 50 are hinged with the first stay bars 49, the hinge joint 51 is hinged with the second stay bars 50, and the hinge joint 51 is connected with the first chassis 3.

The periphery of this device is mount 2 and base 1, and the lower extreme of base 1 has certain thickness, and mount 2 is the vertical fixed connection of falling L in the marginal zone of base 1 up end, and the middle zone fixedly connected with of base 1 up end this device props the part, and the third chassis 45 of propping the part is the disc, has three group or four group support frames 46 at the lower extreme evenly distributed of third chassis 45, is divergent form from top to bottom and base 1 fixed connection and plays the supporting role. A first rotating shaft 56 is vertically and penetratingly hinged at the center position of the third chassis 45, the first rotating shaft 56 can flexibly rotate, a first motor is coaxially fixed at the lower end of the first rotating shaft 56 at the lower side of the third chassis 45 and is simultaneously fixedly connected with the lower end face of the third chassis 45, a first worm 47 is coaxially fixed on the first rotating shaft 56 at the upper end of the third chassis 45, three groups of first worm gears 48 are uniformly distributed on the circumference outside the first worm 47, two sides of each of the three groups of first worm gears 48 are respectively and vertically provided with a worm gear hinge plate 57 which is fixed on the third chassis 45, the worm gear hinge plates 57 are hinged with the corresponding first worm gears 48 through hinge shafts, the first worm gears 48 are coaxially and fixedly connected with the hinge shafts, the U-shaped groove ends of the first supporting rods 49 are hinged to two sides of the first worm wheel 48 on the inner sides of the worm wheel hinged plates 57 on two sides, the whole section of the first supporting rods 49 is L-shaped, the other end of the L-shaped section of the first supporting rods 49 is designed to be a U-shaped groove structure, the second supporting rods 50 are hinged to the inner portion of the U-shaped groove of the end, the whole second supporting rods 50 are straight sections, the other ends of the second supporting rods 50 are hinged to the hinged joints 51, the hinged joints 51 are fixedly connected to the lower end face of the first chassis 3, three groups of the hinged joints 51 are evenly distributed on the circumference of the first worm wheel 48, the three groups of the second supporting rods 50 are hinged to the hinged joints 51, a plane is determined according to three points, and the three groups of hinged joints 51 evenly distributed on the circumference can stably support the first chassis 3.

In a preferred embodiment, the power member includes a second motor 52, and the rotary member includes: a hand wheel 53, a second worm 54, a second worm wheel 55; the second worm 54 is hinged on the fixed frame 2, the second worm wheel 55 is coaxially connected with one of the gears, and the second worm 54 is connected with the hand wheel 53 and meshed with the second worm wheel 55.

The upper end face of the horizontal bending section end head of the upper end of the fixing frame 2 is fixedly provided with a second motor 52, the second motor 52 is coaxially and vertically fixedly connected with a second rotating shaft, the second rotating shaft penetrates through the fixing frame 2 and extends to the lower end of the horizontal section of the fixing frame 2, and the end head of the lower end of the second rotating shaft is fixedly connected with a gear rack 6. The other side of the second gear 8 opposite to the first rotating rod 10 is coaxially and fixedly connected with a second worm wheel 55, the second worm wheel 55 is meshed with a second worm 54, the second worm 54 is sleeved with two worm hinge plates respectively through axial front and rear worm hinge plates, the worm hinge plates are fixed on the gear frame 6, the second worm 54 is in a horizontal state under the action of the sleeve of the worm hinge plates, the end of the second worm 54 is coaxially and fixedly connected with a hand wheel 53, the second worm 54 can be driven to rotate through the hand wheel 53, so that the two gears are driven to rotate in opposite directions through a worm and gear mechanism, and the parallel four-bar mechanism is driven to rotate, so that the guiding telescopic rod 15 can be lifted or lowered under the action of the connecting rod 12 in a vertical state, and the cutter head 9 can cut the pocket adhesive disc 5.

When the opening and the annular graduation marks of the ostomy bag adhesive disk 5 special for livestock are required to be cut, the ostomy bag adhesive disk 5 is placed on the upper end face of the second chassis 4, and the cutting part, the clamping part and the propping part are all in an initial state. The initial state of the clamping portion is a collapsed state in which both the first gear link 21 and the second gear link 22 are in an erect state. The supporting rods 20 on the outer sides of the clamping parts are pulled outwards, the supporting rods 20 drive the second gear connecting rods 22 which are hinged and connected with the corresponding second gear connecting rods 25, the second gear connecting rods 22 drive the first gear connecting rods 21 to rotate under the meshing action of the second gear connecting rods 22 and the first gear connecting rods 21, the first gear connecting rods 21 drive the other first gear connecting rods 21 to synchronously rotate downwards and turn up, because all the first gear connecting rods 21 and the second gear connecting rods 22 on the circumference uniformly and synchronously rotate downwards until the circumference is horizontal, the middle three groups of supporting rods 20 can be opened through the outward circumferential rotation of the two outer side supporting rods 20, and the clamping wheels 29 on the upper ends of the clamping wheel frames 27 fixedly connected with the middle three groups of supporting rods 20 are contacted with the upper end surfaces of the bag making adhesive discs 5 in the circumferential rotation process of the supporting rods 20 during the opening, so that eccentric rolling starts, and because the second chassis 4 has certain elastic deformation characteristics, the clamping wheels 29 can rotate to the corresponding positions on the outer circumferences of the bag making adhesive discs 5 along with the clamping wheel frames 27 during the eccentric rolling.

At this time, the first stay bar 49 of the propping part is at an un-lifted angle, the first worm 47 is driven to synchronously rotate through the first rotating shaft 56 when the first motor rotates, the first worm 47 drives three groups of first worm gears 48 with the periphery evenly distributed, and the three groups of first worm gears 48 drive the three groups of first stay bars 49 to synchronously lift, so that the height of the first chassis 3 is horizontally lifted, and the ostomy bag adhesive disc 5 of the clamping part is horizontally upwards close to the cutter head 9 of the cutting part above. Then, the hand wheel 53 is rotated, the hand wheel 53 drives the second worm 54 to synchronously rotate, the second worm 54 drives the second worm wheel 55 to synchronously rotate in opposite directions, the first gear 7 and the second gear 8 can be driven by the second worm wheel 55 to synchronously rotate, the parallel four-bar mechanism is driven to rotate, the guiding telescopic rod 15 can be lifted or lowered under the action of the connecting rod 12 in a vertical state, the cutter head 9 can be aligned to a designated cutting position of the adhesive disc 5 of the ostomy bag, then the second motor 52 is opened, the second motor 52 drives the whole circumference of the cutting part to rotate through a second rotating shaft, the cutter tip of the cutter head 9 performs annular cutting or slot scribing on the adhesive disc 5 of the ostomy bag, when the annular slots with different calibers are required to be scribed, the second motor 52 is closed, when the cutter tip of the cutter head 9 is adjusted to the designated caliber by rotating the hand wheel 53, the first motor is opened, the adhesive disc 5 of the ostomy bag is lifted to the position of the attached cutter tip, and then the second motor 52 is opened to continue annular cutting of the adhesive disc 5 of the ostomy bag.

The invention has the innovative technical points and the beneficial effects that:

1. adopt whole mechanism pivoted tool bit 9 to be under the drive of motor to make pocket viscose dish 5 central opening and annular wire casing portrayal, can make pocket viscose dish 5 incision more level and smooth, the condition such as burr can not appear. The traditional opening of the adhesive disc 5 of the ostomy bag adopts a scissors opening, the whole roundness cannot be ensured, the incision is uneven, and the adhesive disc is easy to tear at the burr during use.

2. The first gear 7 and the second gear 8 of the cutting part are hinged in the gear rack 6, the two gears are meshed with each other, one gear is connected through a worm and gear drive, the worm and gear has a self-locking effect and can hover in time and self-lock, the position of the cutter head 9 can not change, the two mutually symmetrical gears respectively drive a parallel four-bar mechanism so as to drive the guide telescopic rods 15 to control the two symmetrical guide telescopic rods 15 to always keep the vertical state, and the distance between the two symmetrical guide telescopic rods 15 is adjusted, so that the cutter head 9 can be accurately aligned to the appointed cutting position and cannot deviate.

3. The top support part drives three groups of worm wheels distributed circumferentially through the worm so as to drive the three groups of stay bars to swing synchronously all the time, and the first chassis 3 can be kept in a horizontal state all the time by controlling a plane through three points, so that the stability of the ostomy bag adhesive disc 5 is ensured.

4. The clamping part of the scheme 1 adopts the structure so that the supporting rod 20 can be synchronously and uniformly opened and closed, and the eccentric clamping wheel 29 can be ensured to be uniformly clamped in the peripheral edge area of the upper end surface of the ostomy bag adhesive disc 5. The second chassis 4 has elastic deformation properties which enable the eccentric rotation of the clamping wheel 29 followed by the synchronous rotation of the clamping wheel carrier 27 to the upper assigned position of the ostomy bag adhesive tray 5.

5. The clamping part of scheme 2 adopts the tray ring 37 that is fixed in first chassis 3, and inside circumference is provided with the support piece 38 card and holds in the palm second chassis 4, adopts cam disc 42 structure to play the jacking effect to the ejector pin 40 of hinging in clamp arm 39 simultaneously, and the cam teeth can rotate the jacking ejector pin 40 and make clamp arm 39 be certain angle rotation to can reach the effect to the tight or release of making a hole viscose dish 5 clamp. The three sets of cam teeth correspond to the three sets of push rods 40, and the clamping arms 39 can be synchronously clamped and released through rotation.

6. The inside feather key of direction side cover 14 cup joints direction telescopic link 15 and makes direction telescopic link 15 can not have the rotation and follow axial concertina movement, and the guide side cover 14 lateral wall carries out the chucking through threaded connection's knock pin 16 to the guide slot 18 department of direction telescopic link 15 can prevent to remove for tool bit 9 can stabilize and cut ostomy bag viscose dish 5.

7. The vertical clamping wheel frame 27 is eccentrically hinged with the clamping wheel 29 through the clamping wheel block 28, and a torsion spring 31 is sleeved between the clamping wheel 29 and the clamping wheel block 28, so that an elastic restoring effect can be achieved on the clamping wheel 29, and the clamping wheel 29 can be restored to an initial state when being separated from clamping.

8. The whole clamping wheel 29 is conical, and the conical design can prevent the circular ostomy bag adhesive disk 5 from tearing due to the fact that the linear speed of the clamping wheel 29 at tangential directions of the clamping wheel 29 at different radial positions of the circular ostomy bag adhesive disk 5 is the same when the clamping wheel 29 faces the ostomy bag adhesive disk 5 in a horizontal state in a rolling and clamping mode.

9. The center angles of the two ends of the first gear connecting rod 21 and the second gear connecting rod 22 are 30 degrees, and the adjacent end gear structure end surfaces of the two corresponding gear connecting rods 12 inside the adjacent two supporting rods 20 are simultaneously hinged with the two ends of the third gear connecting rod 26, because the center angles of the two ends of the first gear connecting rod 21 and the second gear connecting rod 22 are 30 degrees, the adjacent end gear structure end surfaces are in the same plane when the gear connecting rods 12 are in a horizontal state.

10. The cylindrical pin 36 matched with the supporting rod 20 and the track groove 33 in the track disc 19 can enable the supporting rod 20 to rotate, so that the supporting rod 20 can drive the adjacent mutually meshed gear connecting rods 12 to mutually rotate and turn upwards when rotating around the track disc 19, when the supporting rod 20 is close to each other, the upward turning angle of the gear connecting rods 12 is higher, and when the gear connecting rods 12 are turned upwards to be in a vertical state, the gear connecting rods 12 are closest to each other.

The foregoing is merely a preferred embodiment of the present invention and it should be noted that modifications and adaptations to those skilled in the art may be made without departing from the principles of the present invention, which are intended to be comprehended within the scope of the present invention.

Claims (10)

1. Special ostomy bag opening of poultry animal doctor and scale fluting device, its characterized in that includes: the device comprises a base, a fixing frame, a top support part, a first chassis, a clamping part, a second chassis and a cutting part; the fixing frame is arranged on the base, the propping part comprises a worm gear mechanism, the propping part is arranged on the base and used for lifting the first chassis through the worm gear mechanism, the clamping part is arranged on the first chassis and used for clamping the second chassis, the cutting part is arranged on the fixing frame and used for opening and graduated grooving of the ostomy bag on the second chassis, and the cutting part comprises: the device comprises a power piece, a gear frame, a gear, a parallel four-bar mechanism, a cutter head and a rotating piece; the gear rack is hinged to the fixing frame, the power piece is arranged on the fixing frame and is in power connection with the gear rack to drive the gear rack to rotate, the number of gears, the number of parallel four-bar mechanisms and the number of cutter heads are two, the gears are meshed and hinged to the gear rack, the parallel four-bar mechanisms are hinged to the gears and the gear rack, the cutter heads are arranged on one bar which is always in a vertical state in the parallel four-bar mechanisms, and the rotary piece is arranged on the gear rack and is in power connection with one of the gears.

2. An opening and scale slotting device according to claim 1, wherein said parallel four bar mechanism comprises: the first rotating rod, the second rotating rod and the connecting rod; the gear rack comprises a rectangular frame, the first rotating rod, the connecting rod, the second rotating rod and the rectangular frame are sequentially hinged to form the parallel four-bar mechanism, the first rotating rod is hinged to the gear, and the cutter head is arranged on the connecting rod which is always in a vertical state in the parallel four-bar mechanism.

3. The opening and scale slotting device according to claim 2, wherein the number of the first rotating rods and the second rotating rods is two, the connecting rods are I-shaped connecting rods, and the cutting part further comprises an external fixing block; the two first rotating rods are arranged in parallel, one end of each first rotating rod is hinged with the gear and the rectangular frame, and the other end of each first rotating rod is hinged with two ends of one end of the connecting rod; the two second rotating rods are arranged in parallel, one ends of the two second rotating rods are respectively hinged with the rectangular frame and the external fixed block, and the other ends of the two second rotating rods are respectively hinged with the two ends of the other end of the connecting rod.

4. An opening and scale slotting device according to claim 3, wherein the cutting portion further comprises: a guiding square sleeve, a guiding telescopic rod and a jacking pin; the guide square sleeve is arranged on the connecting rod, a through hole is formed in the vertical direction of the guide square sleeve, a guide block is arranged on the inner wall of the through hole, a guide groove is formed in the guide telescopic rod, the guide telescopic rod is sleeved in the through hole, the guide block is arranged in the guide groove, a jacking pin hole is formed in the guide square sleeve, and jacking pin threads are sleeved in the jacking pin hole to prop against the guide telescopic rod.

5. An opening and scale slotting device according to claim 1, wherein the clamping portion comprises: the device comprises a track disc, a plurality of support rods, a plurality of first gear connecting rods, two second gear connecting rods, a plurality of overturning plates, a plurality of clamping wheel frames, clamping wheels and support columns; the track disc is provided with a plurality of track grooves, one end of each support rod is movably clamped in each track groove, two ends of each first gear connecting rod are of gear structures, and one end of each second gear connecting rod is of a gear structure; one end of each second gear connecting rod is hinged with the other end of each supporting rod, the other ends of the two second gear connecting rods are sequentially meshed and connected through a plurality of first gear connecting rods, and the meshed ends of the two first gear connecting rods positioned at the other end side of each supporting rod are hinged with the other ends of the other supporting rods; the overturning plate is connected between the first gear connecting rod and the supporting rod and between the second gear connecting rod and the supporting rod, the clamping wheel is hinged on the clamping wheel frame and used for clamping the ostomy bag on the second chassis, and the clamping wheel frame is arranged on the supporting rod and used for adjusting the clamping position of the clamping wheel by sliding through a plurality of supporting rods; the support column is arranged on the first chassis, a channel cavity is formed in the support column, and a chassis hole corresponding to the channel cavity in position is formed in the second chassis.

6. An opening and scale slotting device according to claim 5, wherein said clamping portion further comprises: a rotating wheel, a torsion spring; the clamping wheel frame is provided with a clamping wheel block provided with a U-shaped groove, and the rotating wheel is eccentrically hinged in the U-shaped groove through an eccentric hinge shaft; the torsion spring is sleeved on the eccentric hinging shaft, one end of the torsion spring is connected with the clamping wheel block, and the other end of the torsion spring is connected with the rotating wheel; the rotating wheel is provided with an anti-slip groove, and the clamping wheel is sleeved on the rotating wheel and is inlaid and clamped with the anti-slip groove.

7. The opening and scale grooving device according to claim 5, wherein one end of the supporting rod is provided with a cylindrical pin, and the cylindrical pin is movably clamped in the track groove.

8. An opening and scale slotting device according to claim 1, wherein the clamping portion comprises: the device comprises a tray ring, a supporting block, a clamping arm, a push rod, a chassis hinge shaft, a cam disc and a deflector rod seat; the tray ring is arranged on the first chassis, a plurality of supporting blocks for placing the second chassis are arranged on the tray ring, a plurality of openings are formed in the tray ring, the clamping arms are hinged in the openings, the chassis hinge shaft is arranged on the first chassis, the chassis hinge shaft is hinged with the cam disc, the lower end of the cam disc is coaxially connected with the deflector rod seat, a deflector rod is arranged on the deflector rod seat, and the periphery of the cam disc is provided with cam teeth; one end of the ejector rod is connected with the clamping arm, and the other end of the ejector rod abuts against the cam teeth.

9. An opening and scale slotting device according to claim 1, wherein said jacking portion comprises: the device comprises a third chassis, a first motor, a first worm wheel, a first stay bar, a second stay bar and a hinge joint; the third chassis is arranged on the base, the first motor is arranged on the third chassis and connected with the first worm, the number of the first worm gears is multiple, the first worm gears are hinged to the third chassis and are circumferentially distributed to be meshed with the first worm, the first supporting rod is hinged to the first worm gears, the second supporting rod is hinged to the first supporting rod, the hinge joint is hinged to the second supporting rod, and the hinge joint is connected with the first chassis.

10. An opening and scale slotting device according to claim 1, wherein the power element comprises a second motor, the rotary element comprising: a hand wheel, a second worm and a second worm wheel; the second worm is hinged to the fixing frame, the second worm wheel is coaxially connected with one gear, and the second worm is connected with the hand wheel and meshed with the second worm wheel.