CN109169366B

CN109169366B - Dog chews knot-tying machine

Info

Publication number: CN109169366B
Application number: CN201811053914.9A
Authority: CN
Inventors: 侯凤香; 叶听蕉; 谢传正; 李家明
Original assignee: Wenzhou Polytechnic
Current assignee: Wenzhou Jinheng Pet Products Co ltd
Priority date: 2018-09-10
Filing date: 2018-09-10
Publication date: 2020-08-04
Anticipated expiration: 2038-09-10
Also published as: CN109169366A

Abstract

The invention discloses a dog chews knotter, which comprises a material conveying mechanism: for conveying strip-shaped rubber compounds; the material cutting mechanism comprises: for cutting the strip-shaped glue stock; the first knotting mechanism: one end of the banded glue is knotted; a conveying mechanism: the conveying device is used for conveying the belt-shaped rubber material with one end knotted; a second knotting mechanism: the knotting device is used for knotting the unknotted end of the belt-shaped rubber material; the conveying mechanism is provided with a reversing mechanism for reversing the strip-shaped rubber material; the conveying mechanism comprises a conveying surface, the conveying surface comprises a starting end and a tail end, the belt-shaped rubber materials are conveyed from the starting end to the tail end, the material conveying mechanism is arranged at the starting end of the conveying surface, the first knotting mechanism is arranged above the starting end, and the second knotting mechanism is arranged at the tail end. Therefore, bidirectional knotting can be directly carried out through machinery, and the working efficiency is greatly improved.

Description

Dog chews knot-tying machine

Technical Field

The invention relates to a pet article, in particular to a dog chew knotting machine.

Background

Dog chews are a pet toy or pet food; the dog chews are shaped like bones, rubber balls, circles, wooden sticks, shoes, particles and the like, and are a high-protein meat food nutritional product for pet dogs. Because dogs have the hobby of biting bones, the designed shape is also suitable for the playing characteristics of dogs and dogs, and the dog chews are specially designed for dogs and dogs to clean oral cavities.

In the prior art, the dog chews are mainly made into strips by edible animal organic matters or plant organic matters, and knots are tied at two ends, so that the dog chews are more like bones. However, the prior art is knotted manually, so that the working efficiency is low.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a dog chew knotting machine for efficiently knotting.

In order to achieve the purpose, the invention provides the following technical scheme:

a dog chew knotting machine comprises

Conveying mechanism: for conveying strip-shaped rubber compounds;

the material cutting mechanism comprises: for cutting the strip-shaped glue stock;

the first knotting mechanism: one end of the banded glue is knotted;

a conveying mechanism: the conveying device is used for conveying the belt-shaped rubber material with one end knotted;

a second knotting mechanism: the knotting device is used for knotting the unknotted end of the belt-shaped rubber material;

the conveying mechanism is provided with a reversing mechanism for reversing the strip-shaped rubber material;

the conveying mechanism comprises a conveying surface, the conveying surface comprises a starting end and a tail end, the belt-shaped rubber materials are conveyed from the starting end to the tail end, the material conveying mechanism is arranged at the starting end of the conveying surface, the first knotting mechanism is arranged above the starting end, and the second knotting mechanism is arranged at the tail end.

As a further improvement of the invention:

the first knotting mechanism and the second knotting mechanism respectively comprise a mounting plate, a driving mechanism, a rotating disc, a clamp, a fixed rod, a telescopic rod, a first telescopic mechanism and a second telescopic mechanism, the rotating disc is rotatably connected onto the mounting plate, the driving mechanism is used for driving the rotating disc to rotate, the first telescopic mechanism is arranged on the rotating disc, the clamp is arranged at the output end of the first telescopic mechanism, the clamp is used for clamping a strip-shaped rubber material, the fixed rod is fixedly arranged on the mounting plate and concentrically arranged with the rotating disc, the fixed rod is a hollow rod, the fixed rod is used for winding the strip-shaped rubber material, the telescopic rod penetrates out of the fixed rod, the telescopic rod is connected with the output end of the second telescopic mechanism, the second telescopic mechanism is used for retracting the telescopic rod extending out of the fixed rod into the fixed rod, and one end of the fixed rod, which faces away from the, the edge of the annular baffle plate is provided with a plurality of notches, and one end of the telescopic rod, which extends out of the fixed rod, is provided with a notch.

As a further improvement of the invention:

the dead lever is provided with the annular groove for the position of winding banded adhesive tape, it is connected with the expansion pole to slide on the dead lever, the expansion pole includes horizontal pole and montant, be provided with the hole of sliding on the dead lever, montant one end slides and connects in the hole of sliding, and the other end extends to outside the hole of sliding and be connected with the horizontal pole, the horizontal pole extends towards the ring baffle direction, be provided with the answer mechanism who keeps the horizontal pole towards the motion of dead lever between horizontal pole and the dead lever, the part that the dead lever was stretched into to the telescopic link includes depressed part and conflict portion, the depressed part is arranged in when the telescopic link gets into the dead lever and separates with the montant, conflict portion is used for along with.

As a further improvement of the invention:

the driving mechanism is a rotating motor, a driving gear is arranged at the output end of the rotating motor, a driven gear is arranged on the rotating disc, and the driving gear and the driven gear are meshed with each other.

As a further improvement of the invention:

the clamp is a clamping jaw cylinder, the clamping jaw cylinder comprises a shell and a clamping jaw portion, and the shell is fixed at the output end of the first telescopic mechanism.

As a further improvement of the invention:

the extension direction of a fixed rod on the first knotting mechanism is perpendicular to the direction of conveying the banded adhesive tape by the conveying mechanism, the extension direction of a fixed rod on the second knotting mechanism is opposite to the direction of conveying the banded adhesive tape by the conveying mechanism, and the first knotting mechanism and the second knotting mechanism are respectively positioned on two sides of the conveying direction of the conveying surface.

As a further improvement of the invention:

the reversing mechanism comprises an inclined push plate, a straight push plate and a baffle plate, wherein the baffle plate is located at the tail end of the transmission surface and spans two sides of the transmission surface, the straight push plate is arranged on one side, back to the second knotting mechanism, of the transmission surface and is located at the tail end of the transmission surface and used for pushing the strip-shaped adhesive tape to the second knotting machine, the straight push plate is provided with a straight pushing mechanism used for driving the straight push plate to move, the inclined push plate is arranged at a position between the starting end and the tail end and is located outside the transmission surface in the initial state, the inclined push plate is provided with an inclined pushing mechanism used for driving the inclined push plate to move towards the writing transmission surface, and the inclined push plate is used for stirring the strip-shaped adhesive tape transmitted on the transmission surface and enabling the strip-.

As a further improvement of the invention:

the position of the conveying surface relative to the second knotting mechanism is provided with a fixed plate and a lifting plate, a gap is reserved between the fixed plate and the baffle, the lifting plate is arranged above the fixed plate, the baffle and the lifting plate form a through hole, the width of the through hole is smaller than that of a knot which is knotted by the first knotting mechanism, and the lifting plate is provided with a lifting mechanism for opening the closed through hole.

As a further improvement of the invention:

the conveying mechanism comprises two transmission wheels, a transmission belt is arranged on the two transmission wheels, the transmission surface is positioned on the transmission belt, and a rotating mechanism is arranged on one of the transmission wheels.

As a further improvement of the invention:

the material conveying mechanism comprises two driving wheels, conveying belts are arranged on the driving wheels, one of the driving wheels is provided with a rotating mechanism, the material cutting mechanism comprises a third telescopic mechanism and a cutter, and the cutter is arranged at the output end of the third telescopic mechanism and faces the conveying belts.

The invention has the advantages that the first knotting mechanism and the second knotting mechanism are in the working process in the knotting process, firstly one end of the strip-shaped rubber strip is clamped by the clamp, then the rubber strip to be rotated is wound on the fixed rod through the rotation of the rotating disc, meanwhile, the first telescopic mechanism can continuously extend out in the rotating process of the rotating disc and drive the whole clamp to move, after the rubber strip is wound for one circle, the first telescopic mechanism can drive the clamp to extend out of the position of the baffle plate so as to be wound in the notch, then the second telescopic mechanism is started to retract the telescopic rod into the fixed rod, after the telescopic rod is retracted into the fixed rod, the clamp loosens the strip-shaped rubber strip, then one end of the strip-shaped rubber material is continuously pulled along with the telescopic rod, and the original strip-shaped rubber material is not broken, so that the knotting work in the first knotting mechanism can be realized, and the strip-shaped rubber strip, and then the whole knotting work is completed. Therefore, bidirectional knotting can be directly carried out through machinery, and the working efficiency is greatly improved.

Drawings

FIG. 1 is a schematic overall structure diagram of an embodiment of the present invention;

FIG. 2 is a structure diagram of the matching of the telescopic rod and the fixed rod in the embodiment of the invention;

FIG. 3 is a diagram illustrating a structure of a transmission structure according to an embodiment of the present invention;

FIG. 4 is a schematic structural diagram of a feeding structure according to an embodiment of the present invention;

FIG. 5 is an enlarged view of the structure at point A in accordance with an embodiment of the present invention;

FIG. 6 is an enlarged view of the structure at B in accordance with the embodiment of the present invention;

FIG. 7 is an enlarged view of the structure at position C in accordance with an embodiment of the present invention;

FIG. 8 is an enlarged view of the structure at D in accordance with an embodiment of the present invention;

FIG. 9 is an enlarged view of the structure at E in accordance with an embodiment of the present invention.

Reference numerals:

1. a transport mechanism; 11. a transport surface; 111. a starting end; 112. a tail end; 12. a transmission wheel; 13. a transmission belt; 14. a rotation mechanism;

2. a material cutting mechanism; 23. a third telescoping mechanism; 24. a cutter;

3. a first knotting mechanism; 31. mounting a plate; 32. a drive mechanism; 321. a driving gear; 322. a driven gear; 33. rotating the disc; 34. a clamp; 341. a housing; 342. a jaw portion; 35. fixing the rod; 36. a telescopic rod; 37. a first telescoping mechanism; 38. a second telescoping mechanism; 351. an annular baffle plate; 352. a notch; 353. an annular groove; 361. notching;

37. an expansion rod; 371. a cross bar; 372. a vertical rod; 373. a sliding hole; 374. a recessed portion; 375. a contact part; 376. a return mechanism;

4. a material conveying mechanism; 41. a driving wheel; 42. a conveyor belt; 43. a rotating mechanism;

5. a second knotting mechanism;

6. a reversing mechanism; 61. an inclined push plate; 62. a straight push plate; 63. a baffle plate; 64. a direct pushing mechanism; 65. a diagonal pushing mechanism;

71. a fixing plate; 72. a lifting plate; 73. perforating; 74. a lifting mechanism.

Detailed Description

The invention will be further described in detail with reference to the following examples, which are given in the accompanying drawings.

Referring to FIGS. 1 to 9, the present embodiment

A dog chew knotting machine comprises

Conveying mechanism 4: for conveying strip-shaped rubber compounds;

and a material cutting mechanism 2: for cutting the strip-shaped glue stock;

first knotting mechanism 3: one end of the banded glue is knotted;

the conveying mechanism 1: the conveying device is used for conveying the belt-shaped rubber material with one end knotted;

second knotting mechanism 5: the knotting device is used for knotting the unknotted end of the belt-shaped rubber material;

the conveying mechanism 4 is provided with a reversing mechanism 6 for reversing the strip-shaped rubber material;

the conveying mechanism 1 comprises a conveying surface 11, the conveying surface 11 comprises a starting end 111 and a tail end 112, the belt-shaped rubber material is conveyed from the starting end 111 to the tail end 112, the material conveying mechanism 4 is arranged at the starting end 111 of the conveying surface 11, the first knotting mechanism 3 is arranged above the starting end 111, and the second knotting mechanism 5 is arranged at the tail end 112.

Through the technical scheme: in the using process of the invention, a whole strip of belt-shaped rubber material is firstly placed on the material conveying mechanism 4, one end of the whole strip of belt-shaped rubber material is conveyed to the first knotting mechanism 3 by the material conveying mechanism 4, one end of the belt-shaped rubber material is knotted by the first knotting mechanism 3, then the material cutting mechanism 2 is started, the belt-shaped rubber material with one knotted end is cut off and falls into the conveying mechanism 1, then the belt-shaped rubber material falls into the starting end 111 of the conveying surface 11 of the conveying mechanism 1 for conveying, the belt-shaped rubber material is conveyed in the conveying process, then the reversing mechanism 6 is started, the belt-shaped rubber material on the conveying surface 11 is reversed, the unknotted end of the belt-shaped rubber material faces the second knotting mechanism 5, then the belt-shaped rubber material is continuously conveyed to the tail end 112 of the conveying surface 11, and then the belt-shaped rubber material enters the second knotting mechanism 5 for knotting the other, making the process more efficient.

As a modified specific embodiment, the first knotting mechanism 3 and the second knotting mechanism 5 each include a mounting plate 31, a driving mechanism 32, a rotating disc 33, a clamp 34, a fixing rod 35, an expansion rod 36, a first expansion mechanism 37 and a second expansion mechanism 38, the rotating disc 33 is rotatably connected to the mounting plate 31, the driving mechanism 32 is used for driving the rotating disc 33 to rotate, the first expansion mechanism 37 is disposed on the rotating disc 33, the clamp 34 is disposed at an output end of the first expansion mechanism 37, the clamp 34 is used for clamping a band-shaped adhesive material, the fixing rod 35 is fixedly disposed on the mounting plate 31 and is concentric with the rotating disc 33, the fixing rod 35 is a hollow rod, the fixing rod 35 is used for winding the band-shaped adhesive material, the expansion rod 36 extends out of the fixing rod 35, and the expansion rod 36 is connected to an output end of the second expansion mechanism 38, the second expansion mechanism 38 is used for retracting the expansion rod 36 extending out of the fixing rod 35 into the fixing rod 35, an annular blocking plate 351 is arranged at one end of the fixing rod 35, which is back to the mounting plate 31, a plurality of notches 352 are arranged on the edge of the annular blocking plate 351, and a notch 361 is arranged at one end of the expansion rod 36, which extends out of the fixing rod 35.

Through the technical scheme, the first knotting mechanism 3 and the second knotting mechanism 5 are in the working process of knotting, firstly, one end of a strip-shaped rubber strip is clamped by the clamp 34, then, the rubber strip to be rotated is wound on the fixing rod 35 through the rotation of the rotating disc 33, meanwhile, the first telescopic mechanism 37 continuously extends out in the rotating process of the rotating disc 33 and drives the whole clamp 34 to move, after the rubber strip is wound for one circle, the first telescopic mechanism 37 drives the clamp 34 to extend out of the position of the baffle 63 and further to be wound in the notch 361, then, the second telescopic mechanism 38 is started, the telescopic rod 36 is retracted into the fixing rod 35, after the telescopic rod 36 is retracted into the fixing rod 35, the clamp 34 loosens the strip-shaped rubber strip, then, one end of the strip-shaped rubber strip is continuously pulled along with the telescopic rod 36, and the original strip-shaped rubber strip is not broken, so that the knotting work in the first knotting mechanism 3 can, and is pulled off from the edge of the annular blocking plate 351 with constant pulling, and then the whole knotting work is completed.

As a modified embodiment, the fixing rod 35 is provided with an annular groove 353 with respect to the position where the strip-shaped rubber strip is wound, an expansion rod 370 is slidably connected to the fixing rod 35, the expansion rod 370 comprises a cross rod 371 and a vertical rod 372, the fixing rod 35 is provided with a sliding hole 373, one end of the vertical rod 372 is connected in the sliding hole 373 in a sliding way, the other end of the vertical rod 372 extends out of the sliding hole 373 and is connected with the cross rod 371, the cross bar 371 extends towards the ring-shaped baffle 63, a return mechanism 376 which keeps the cross bar 371 moving towards the fixed rod 35 is arranged between the cross bar 371 and the fixed rod 35, the portion of the extension pole 36 extending into the fixing pole 35 includes a recess 374 and an interference 375, the recess 374 is adapted to separate from the vertical rod 372 when the telescopic rod 36 enters the fixing rod 35, the interference part 375 is used for interfering with the vertical rod 372 after the expansion link 36 is continuously expanded and contracted.

Through the arrangement of the technical scheme, the arrangement of the annular groove 353 can ensure that the winding process can be limited so that the winding process cannot deviate, and simultaneously through the arrangement of the expansion rod 370, in use, initially during the winding process, a tape-like adhesive is wound around the cross bar 371, the recessed portions 374 of the spreader bar 370 correspond to the vertical bars 372, therefore, the interference can not occur, when the strip-shaped rubber material is wound at the position of the notch 361, the interference part 375 is interfered with the vertical rod 372, so that the cross rod 371 slides back to the fixed rod 35, and the whole winding ring is expanded, and the sliding path is larger than that of the annular stop plate 351, and the cross rod 371 can be arranged at the position of the notch 352, so that during the process of tensioning the strip-shaped rubber material at the notch 352 during the movement, the wound portion is separated from the fixing rod 35 by an external force, so that the entire process is smoother. While the contact surfaces of the stem 372 and the interference 375 may be beveled.

As a modified specific embodiment, the driving mechanism 32 is a rotating motor, a driving gear 321 is disposed on an output end of the rotating motor, a driven gear 322 is disposed on the rotating disc 33, and the driving gear 321 and the driven gear 322 are engaged with each other.

Through the technical scheme: the driving gear 321 is driven to rotate by the rotation of the rotating motor, and the driven gear 322 is driven to move by the engagement of the driving gear 321 and the driven gear 322, so that the rotating disc is driven to rotate.

As a modified specific embodiment, the clamp 34 is a clamping jaw cylinder, the clamping jaw cylinder includes a housing 341 and a clamping jaw portion 342, and the housing 341 is fixed at the output end of the first telescopic mechanism 37.

As an improved specific implementation mode, the clamping jaw part 342 of the clamping jaw cylinder can clamp one end of the belt-shaped rubber material through the arrangement of the clamping jaw cylinder, so that the normal operation of the whole process is realized, and the clamping jaw cylinder is convenient to use and easy to purchase and install.

In a modified embodiment, the extending direction of the fixing rod 35 on the first knotting mechanism 3 is perpendicular to the direction in which the conveying mechanism 1 conveys the strip-shaped adhesive tape, the extending direction of the fixing rod 35 on the second knotting mechanism 5 is opposite to the direction in which the conveying mechanism 1 conveys the strip-shaped adhesive tape, and the first knotting mechanism 3 and the second knotting mechanism 5 are respectively located on two sides of the conveying direction of the conveying surface 11.

Through the technical scheme, the arrangement is more reasonable on the whole, so that knotting at two ends of the banded rubber material can be guaranteed.

As a modified embodiment, the reversing mechanism 6 includes a slant pushing plate 61, a straight pushing plate 62, and a blocking plate 63, the blocking plate 63 is located at the end 112 of the conveying surface 11 and spans two sides of the conveying surface 11, the straight pushing plate 62 is located at the end 112 of the conveying surface 11 opposite to the second knotting mechanism 5, and is used for pushing the ribbon-shaped adhesive tape to the second knotting machine, the straight pushing plate 62 is provided with a straight pushing mechanism 64 for driving the straight pushing plate 62 to move, the slant pushing plate 61 is located at a position between the starting end 111 and the end 112, the slant pushing plate 61 is initially located outside the conveying surface 11, the slant pushing plate 61 is provided with a slant pushing mechanism 65 for driving the slant pushing plate 61 to move toward the writing conveying surface 11, and the slant pushing plate 61 is used for pushing and tilting the ribbon-shaped adhesive tape conveyed on the conveying surface 11.

Through the technical scheme, in the using process, when one end of the knotted belt-shaped rubber material passes through the inclined push plate 61, the inclined push mechanism 65 is started to incline the belt-shaped rubber material, and the knotted end faces the straight push mechanism 64, so that the belt-shaped rubber material can continuously move for a period of time after contacting the baffle plate 63 along with the movement of the transmission surface 11, the belt-shaped rubber material faces the second knotting mechanism 5, the knotted end faces the straight push mechanism 64, and the belt-shaped rubber material is pushed to the second knotting mechanism 5 through the straight push mechanism to be knotted. The inclined pushing mechanism 65 can be selected from a rotary motor, a telescopic motor, a rotary cylinder and a direct pushing cylinder, and the direct pushing mechanism 64 can be selected from a direct pushing cylinder or a telescopic motor.

In a modified embodiment, the position of the conveying surface 11 relative to the second knotting mechanism 5 is provided with a fixed plate 71 and a lifting plate 72, a gap is left between the fixed plate 71 and the baffle 63, the lifting plate 72 is arranged above the fixed plate 71, the baffle 63 and the lifting plate 72 form a through hole 73, the width of the through hole 73 is smaller than the width of the knot made by the first knotting mechanism 3, and the lifting plate 72 is provided with a lifting mechanism 74 for opening the closed through hole 73.

Through above-mentioned technical scheme, through the perforation 73 that forms, can carry on spacingly to the one end of banding sizing material for can receive the restriction at second knotting mechanism 5 in the in-process one end of knoing, and after accomplishing the knot, open perforation 73 through elevating system 74, make the banding sizing material pass through.

As a modified specific embodiment, the conveying mechanism 1 includes two conveying wheels 12, a transmission belt 13 is disposed on the two conveying wheels 12, the conveying surface 11 is disposed on the transmission belt 13, and a rotating mechanism 14 is disposed on one of the conveying wheels 12.

Through the technical scheme, a conveying structure is formed by the arrangement of the two conveying wheels 12 and the matching of the two conveying wheels and the transmission belt 13, and the conveying structure is driven by the rotating mechanism 14, so that the whole conveying surface 11 can run. Through the technical scheme, the material conveying mechanism 4 comprises two driving wheels 41, conveying belts 42 are arranged on the driving wheels 41, one of the driving wheels 41 is provided with a rotating mechanism 43, the material cutting mechanism 2 comprises a third telescopic mechanism 23 and a cutter 24, and the cutter 24 is arranged at the output end of the third telescopic mechanism 23 and faces the conveying belts 42.

Through the technical scheme, in the use process, the conveying belt 42 can be driven through the driving wheel 41, the conveying structure is more stable, and the third telescopic mechanism 23 drives the cutter 24 to move to realize material cutting.

The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above embodiments, and all technical solutions belonging to the idea of the present invention belong to the protection scope of the present invention. It should be noted that modifications and embellishments within the scope of the invention may occur to those skilled in the art without departing from the principle of the invention, and are considered to be within the scope of the invention.

Claims

1. The utility model provides a dog chews knot machine which characterized in that: comprises that

Conveying mechanism (4): for conveying strip-shaped rubber compounds;

blank mechanism (2): for cutting the strip-shaped glue stock;

first knotting mechanism (3): one end of the banded glue is knotted;

conveying mechanism (1): the conveying device is used for conveying the belt-shaped rubber material with one end knotted;

second knotting mechanism (5): the knotting device is used for knotting the unknotted end of the belt-shaped rubber material;

a reversing mechanism (6) for reversing the strip-shaped rubber material is arranged on the material conveying mechanism (4);

conveying mechanism (1) includes a transmission face (11), transmission face (11) include a initiating terminal (111) and a tail end (112), and banding sizing material is transported tail end (112) from initiating terminal (111), defeated material mechanism (4) set up initiating terminal (111) at transmission face (11), first knotting mechanism (3) set up the top at initiating terminal (111), second knotting mechanism (5) set up tail end (112).

2. The dog chew knotter of claim 1, wherein:

the first knotting mechanism (3) and the second knotting mechanism (5) comprise a mounting plate (31), a driving mechanism (32), a rotating disc (33), a clamp (34), a fixing rod (35), a telescopic rod (36), a first telescopic mechanism (37) and a second telescopic mechanism (38), the rotating disc (33) is rotatably connected onto the mounting plate (31), the driving mechanism (32) is used for driving the rotating disc (33) to rotate, the first telescopic mechanism (37) is arranged on the rotating disc (33), the clamp (34) is arranged at the output end of the first telescopic mechanism (37), the clamp (34) is used for clamping a belt-shaped rubber material, the fixing rod (35) is fixedly arranged on the mounting plate (31) and concentrically arranged with the rotating disc (33), the fixing rod (35) is a hollow rod, the fixing rod (35) is used for winding the belt-shaped rubber material, and the telescopic rod (36) penetrates out of the fixing rod (35), and the output end of telescopic link (36) and second telescopic machanism (38) is connected, second telescopic machanism (38) are arranged in will stretching out telescopic link (36) outside dead lever (35) retraction dead lever (35), the one end of dead lever (35) dorsad mounting panel (31) sets up annular resistance board (351), be provided with a plurality of breachs (352) on annular resistance board (351) edge, the one end that telescopic link (36) stretched out dead lever (35) is provided with scarce groove (361).

3. A dog chew knotter as claimed in claim 2, wherein: the fixing rod (35) is provided with an annular groove (353) relative to the position where the strip-shaped adhesive tape is wound, an expansion rod (370) is connected to the fixing rod (35) in a sliding mode, the expansion rod (370) comprises a cross rod (371) and a vertical rod (372), a sliding hole (373) is formed in the fixing rod (35), one end of the vertical rod (372) is connected to the sliding hole (373) in a sliding mode, the other end of the vertical rod (372) extends out of the sliding hole (373) and is connected with the cross rod (371), the cross rod (371) extends towards the direction of the annular baffle (63), a return mechanism (376) for keeping the cross rod (371) moving towards the fixing rod (35) is arranged between the cross rod (371) and the fixing rod (35), the part of the telescopic rod (36) extending into the fixing rod (35) comprises a concave part (374) and an interference part (375), and the concave part (374) is used for being separated from, the collision part (375) is used for colliding with the vertical rod (372) after the telescopic rod (36) is continuously stretched.

4. A dog chew knotter as claimed in claim 3, wherein: the driving mechanism (32) is a rotating motor, a driving gear (321) is arranged at the output end of the rotating motor, a driven gear (322) is arranged on the rotating disc (33), and the driving gear (321) and the driven gear (322) are meshed with each other.

5. The dog chew knotter of claim 4, wherein: the clamp (34) is a clamping jaw air cylinder which comprises a shell (341) and a clamping jaw portion (342), and the shell (341) is fixed at the output end of the first telescopic mechanism (37).

6. A dog chew knotter as claimed in claim 5, wherein:

the direction of extension of a fixing rod (35) on the first knotting mechanism (3) is perpendicular to the direction of conveying the belt-shaped rubber strips by the conveying mechanism (1), the direction of extension of the fixing rod (35) on the second knotting mechanism (5) is opposite to the direction of conveying the belt-shaped rubber strips by the conveying mechanism (1), and the first knotting mechanism (3) and the second knotting mechanism (5) are respectively positioned on two sides of the conveying direction of the conveying surface (11).

7. The dog chew knotter of claim 6, wherein: the reversing mechanism (6) comprises an inclined push plate (61), a straight push plate (62) and a baffle plate (63), the baffle plate (63) is positioned at the tail end (112) of the transmission surface (11), and cross over both sides of the transmission surface (11), the straight push plate (62) is arranged on one side of the transmission surface (11) back to the second knotting mechanism (5), and is located at the end (112) for pushing the strip-like strip towards the second knotter, the straight push plate (62) is provided with a straight push mechanism (64) for driving the straight push plate (62) to move, the inclined push plate (61) is arranged at a position between the starting end (111) and the ending end (112), the inclined push plate (61) is positioned outside the transmission surface (11) in an initial state, an inclined push mechanism (65) for driving the inclined push plate (61) to move towards the transmission surface (11) is arranged on the inclined push plate (61), the inclined push plate (61) is used for shifting and inclining the strip-shaped adhesive tape conveyed on the conveying surface (11).

8. The dog chew knotter of claim 7, wherein: the position of transmission face (11) relative second knotting mechanism (5) has fixed plate (71) and lifter plate (72), leave the clearance between fixed plate (71) and baffle (63), lifter plate (72) set up in fixed plate (71) top, fixed plate (71), baffle (63), lifter plate (72) form a perforation (73), perforation (73) width is less than the width of the knot that first knotting mechanism (3) were beaten, be provided with lifter mechanism (74) on lifter plate (72) and be used for opening confined perforation (73).

9. The dog chew knotter of claim 8, wherein: the conveying mechanism (1) comprises two conveying wheels (12), a transmission belt (13) is arranged on the two conveying wheels (12), the transmission surface (11) is positioned on the transmission belt (13), and a rotating mechanism (14) is arranged on one of the conveying wheels (12).

10. The dog chew knotter of claim 9, wherein:

defeated material mechanism (4) include two drive wheels (41), be provided with conveyer belt (42) on drive wheel (41), one of them be provided with slewing mechanism (43) on drive wheel (41), blank mechanism (2) include third telescopic machanism (23) and cutter (24), cutter (24) set up at the output of third telescopic machanism (23) and set up towards conveyer belt (42).