CN219442960U - Traction device for extruder - Google Patents

Abstract

The utility model relates to the technical field of traction devices, in particular to a traction device for an extruder, which comprises: the traction device comprises a traction device body and two rotating rods, wherein the two rotating rods are fixedly connected to the traction device body, and a rotating plate is rotationally connected to the rotating rods; the transmission assembly is positioned on the corresponding rotating plate and used for preventing the rotating plate from wearing the aluminum profile material; the two first sliding grooves are respectively arranged on one side of the corresponding rotating plate, and the sliding blocks are connected in a sliding manner in the first sliding grooves; the support plates are fixedly connected to two sides of the traction device body; the driving assembly is positioned in the supporting plate, and can ensure that the extruded aluminum material can be corrected in time when offset occurs, so that the waste of the material is prevented, the damage to the traction device is prevented, the friction between the extruded aluminum material and the rotating plate is reduced, and meanwhile, the scratch of the rotating plate to the extruded aluminum material is avoided.

Description

Traction device for extruder

Technical Field

The utility model relates to the technical field of traction devices, in particular to a traction device for an extruder.

Background

As in the chinese patent with the patent number of CN217369813U, the utility model provides a three-head traction device for forming an aluminum profile, which comprises a frame and an aluminum profile traction track, wherein a double-track tractor and a synchronous cutter are respectively arranged on two sides of the aluminum profile traction track, so that a first traction mechanism and a second traction mechanism in the double-track tractor can respectively move on independent tracks, alternately traction the aluminum profile, thereby not only fully playing the energy efficiency of an extruder, but also improving the production efficiency of the aluminum profile; the synchronous cutting machine can keep the same moving speed of the cutting mechanism and the aluminum profile during traction, and the cutter head of the cutting mechanism is driven by the longitudinal driving mechanism to cut off the aluminum profile, so that the cutter head does not play with the aluminum profile during cutting off, the production quality of the aluminum profile is ensured, and the service life of the cutter head is also ensured

The traction device adopts the traction device to carry out traction transmission, however, the phenomenon that an aluminum type material deviates on the traction device in the traction process can cause the aluminum type material to separate from the traction device and even be blocked on a track of the traction device if the aluminum type material is not corrected in time, and the traction device is in a working state, so that the aluminum type material is bent or even broken by the traction device, thereby causing material waste or damage to the traction device and affecting the smooth progress of discharging traction work.

Disclosure of Invention

The present utility model is directed to a traction device for an extruder, which solves the problems set forth in the background art.

The technical scheme of the utility model is as follows: a traction device for an extruder, comprising:

the traction device comprises a traction device body and two rotating rods, wherein the two rotating rods are fixedly connected to the traction device body, and a rotating plate is rotatably connected to the rotating rods;

the transmission assembly is positioned on the corresponding rotating plate and used for preventing the rotating plate from wearing the aluminum profile material;

the two first sliding grooves are respectively arranged on one side of the corresponding rotating plate, and the sliding blocks are connected in a sliding manner in the first sliding grooves;

the supporting plates are fixedly connected to two sides of the traction device body;

the driving assembly is positioned in the supporting plate and used for driving the sliding block to move.

Preferably, the rotating plate is in sliding connection with the top surface of the traction device body, and the bottom surface of the rotating plate is not in contact with the conveying belt of the traction device body.

Preferably, the transmission assembly includes:

the first rotating grooves are formed in one side of the rotating plate, and the fixing rods are fixedly connected in the first rotating grooves;

the rotating roll shafts are respectively sleeved on the corresponding fixed rods.

Preferably, the first rotating groove is rotationally connected with the rotating roller shaft, and a gap exists between the inner wall of the first rotating groove and the peripheral side of the rotating roller shaft.

Preferably, the driving assembly includes:

the second sliding groove is formed in the supporting plate and communicated with the outside, and second rotating grooves are formed in two ends of the second sliding groove; the two sliding rods are symmetrically and slidingly connected in the second sliding groove, and the bottoms of the sliding rods are rotationally connected with the sliding blocks;

the first threaded rod is rotatably connected to one of the second rotating grooves, and one end of the first threaded rod penetrates through one of the sliding rods and extends into the second sliding groove;

the second threaded rod is rotatably connected in the other second rotating groove, and one end of the second threaded rod penetrates through the other sliding rod and extends into the second sliding groove to be fixed with one end of the first threaded rod;

the handle, the other end at first threaded rod is connected to handle fixed, and the one end of handle runs through the backup pad and extends to the external world.

Preferably, the handle is rotatably connected with the support plate, and the first threaded rod and the second threaded rod are of opposite thread structures.

The utility model provides a traction device for an extruder through improvement, which has the following improvements and advantages compared with the prior art:

the method comprises the following steps: according to the utility model, through the cooperation between the traction device body, the rotating plates, the sliding blocks, the rotating roller shafts, the sliding rods, the first threaded rod, the second threaded rod and the handle, when the traction device is used, the handle is rotated by hand, the handle drives the first threaded rod and the second threaded rod to rotate, the first threaded rod and the second threaded rod respectively drive the two sliding rods to move under the action of threads of the first threaded rod, one sliding rod can move towards the direction of the second threaded rod under the action of threads of the first threaded rod, one sliding rod drives the corresponding sliding block to slide, the sliding block pushes the corresponding rotating plate to rotate, one end of the rotating plate moves towards the direction of the first threaded rod under the action of counter threads of the second threaded rod, when the two rotating plates move to a proper position, the rotating handle is stopped, then the extruded aluminum material is pulled towards the traction device body, when the extruded aluminum material is offset, the extruded aluminum material can slide towards the direction of the second threaded rod under the action of the corresponding sliding rod, one sliding rod can move towards the direction of the first threaded rod under the action of counter threads of the second threaded rod, the sliding block can be pushed by the corresponding sliding block to rotate, the sliding plate can be pushed by the corresponding sliding rod to rotate, the sliding plate can be driven by the sliding block to rotate, and the corresponding sliding rod can be prevented from being damaged when the extruded material is offset, and formed to be timely moved, and can be prevented from being in contact with the extruded and formed material.

And two,: according to the utility model, through the cooperation among the rotating plate, the first rotating groove, the fixed rod and the rotating roll shaft, when the extruded aluminum-type material is pulled to be contacted with one side of the rotating plate, the extruded aluminum-type material can drive the rotating roll shaft to rotate on the fixed rod along the first rotating groove, so that the friction between the extruded aluminum-type material and the rotating plate is reduced, and meanwhile, the scraping and rubbing of the rotating plate on the extruded aluminum-type material are avoided.

Drawings

The utility model is further explained below with reference to the drawings and examples:

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

FIG. 2 is one of the schematic views of the partial explosion structure of the present utility model;

FIG. 3 is a second schematic view of a partial explosion structure of the present utility model;

FIG. 4 is one of the schematic cross-sectional structural views of the support plate of the present utility model;

FIG. 5 is a second schematic cross-sectional view of the support plate of the present utility model.

Reference numerals illustrate:

1. a traction device body; 2. a rotating lever; 3. a rotating plate; 4. a first chute; 5. a slide block; 6. a support plate; 7. a first rotating groove; 8. a fixed rod; 9. rotating the roll shaft; 10. a second chute; 11. a second rotating groove; 12. a slide bar; 13. a first threaded rod; 14. a second threaded rod; 15. a handle.

Detailed Description

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

The utility model provides a traction device for an extruder through improvement, which comprises the following technical scheme:

as shown in fig. 1 to 5, a traction device for an extruder includes:

the traction device comprises a traction device body 1 and two rotating rods 2, wherein the two rotating rods 2 are fixedly connected to the traction device body 1, and a rotating plate 3 is rotatably connected to the rotating rods 2;

the transmission component is positioned on the corresponding rotating plate 3 and used for preventing the rotating plate 3 from wearing the aluminum profile material;

the two first sliding grooves 4 are respectively formed in one side of the corresponding rotating plate 3, and the sliding blocks 5 are connected in the first sliding grooves 4 in a sliding manner;

the support plates 6 are fixedly connected to the two sides of the traction device body 1;

the driving component is positioned in the supporting plate 6 and is used for driving the sliding block 5 to move.

Further, the rotating plate 3 is slidably connected with the top surface of the traction device body 1, so that the rotating plate 3 can slide normally on the top surface of the traction device body 1, the bottom surface of the rotating plate 3 is not contacted with the conveying belt of the traction device body 1, and the conveying belt of the traction device body 1 is ensured not to influence the movement of the rotating plate 3.

Further, the transmission assembly includes:

the first rotating grooves 7 are formed in one side of the rotating plate 3, and fixing rods 8 are fixedly connected in the first rotating grooves 7;

the plurality of rotating roll shafts 9 are respectively sleeved on the corresponding fixed rods 8.

When the extruded aluminum material is pulled to be in contact with one side of the rotating plate 3, the extruded aluminum material can drive the rotating roller shaft 9 to rotate on the fixed rod 8 along the first rotating groove 7, so that friction between the extruded aluminum material and the rotating plate 3 is reduced, and scratch of the rotating plate 3 on the extruded aluminum material is avoided.

Further, the first rotating groove 7 is rotationally connected with the rotating roller shaft 9, so that the rotating roller shaft 9 can normally rotate in the first rotating groove 7, a gap exists between the inner wall of the first rotating groove 7 and the peripheral side of the rotating roller shaft 9, and the friction force of the rotating roller shaft 9 is further reduced.

Further, the drive assembly includes:

the second sliding chute 10 is arranged in the supporting plate 6 and is communicated with the outside, and second rotating grooves 11 are formed in two ends of the second sliding chute 10; the two slide bars 12, the two slide bars 12 are symmetrically and slidingly connected in the second chute 10, and the bottom of the slide bar 12 is rotationally connected with the slide block 5;

the first threaded rod 13 is rotatably connected to one of the second rotating grooves 11, and one end of the first threaded rod 13 penetrates one of the slide bars 12 and extends into the second slide groove 10;

the second threaded rod 14 is rotatably connected in the other second rotating groove 11, and one end of the second threaded rod 14 penetrates through the other slide rod 12 and extends into the second slide groove 10 to be fixed with one end of the first threaded rod 13;

the handle 15, handle 15 fixed connection is at the other end of first threaded rod 13, and the one end of handle 15 runs through backup pad 6 and extends to the external world.

When in use, the handle 15 is rotated by hand, the handle 15 drives the first threaded rod 13 and the second threaded rod 14 to rotate in the second sliding groove 10, so that the first threaded rod 13 and the second threaded rod 14 respectively drive the two sliding rods 12 to move along the second sliding groove 10 under the action of threads, one sliding rod 12 can move towards the second threaded rod 14 under the action of the threads of the first threaded rod 13, one sliding rod 12 drives the corresponding sliding block 5 to slide in the first sliding groove 4, the sliding block 5 pushes the corresponding rotating plate 3 to rotate by taking the rotating rod 2 as an axis, one end of the rotating plate 3 moves towards the second threaded rod 14, meanwhile, the other sliding rod 12 can move towards the first threaded rod 13 under the action of the reverse threads of the second threaded rod 14, so that the other sliding rod 12 drives the corresponding sliding block 5 to slide in the first sliding groove 4, the slide block 5 pushes the corresponding rotating plate 3 to rotate by taking the rotating rod 2 as the axis, one end of the rotating plate 3 moves towards the direction of the first threaded rod 13, when the two rotating plates 3 move to the proper position, a user stops rotating the handle 15, then the user can start the extruder and the traction device body 1 to extrude the aluminum material into the traction device body 1 for traction, when the extruded aluminum material deflects, the extruded aluminum material contacts with the rotating roll shaft 9, at the moment, the extruded aluminum material moves along the rotating plate 3 under the action of the inclination of the rotating plate 3, when the extruded aluminum material moves to the proper position, the extruded aluminum material passes through the space between the two rotating plates 3, so that when the extruded aluminum material deflects, can be corrected in time.

Further, the handle 15 is rotatably connected with the support plate 6, so that the handle 15 can normally rotate on the support plate 6, the first threaded rod 13 and the second threaded rod 14 are of opposite threaded structures, and when the handle 15 drives the first threaded rod 13 and the second threaded rod 14 to rotate in the second sliding groove 10, the first threaded rod 13 and the second threaded rod 14 can respectively drive the corresponding sliding rod 12 to move between the two sliding rods 12.

Working principle: before using the traction device body 1, the extruder is suspended, then a user rotates the handle 15 by hand, the handle 15 drives the first threaded rod 13 and the second threaded rod 14 to rotate in the second chute 10, the first threaded rod 13 and the second threaded rod 14 respectively drive the two slide bars 12 to move along the second chute 10 under the action of threads, one slide bar 12 can move towards the second threaded rod 14 under the action of the threads of the first threaded rod 13, one slide bar 12 drives the corresponding slide block 5 to slide in the first chute 4, the slide block 5 pushes the corresponding rotating plate 3 to rotate by taking the rotating rod 2 as an axis, one end of the rotating plate 3 moves towards the second threaded rod 14, simultaneously the other slide bar 12 can move towards the first threaded rod 13 under the action of the reverse threads of the second threaded rod 14, the other slide bar 12 drives the corresponding slide block 5 to slide in the first chute 4, the slide block 5 pushes the corresponding rotating plate 3 to rotate by taking the rotating rod 2 as the axis, one end of the rotating plate 3 moves towards the direction of the first threaded rod 13, when the two rotating plates 3 move to the proper position, a user stops rotating the handle 15, then, the user can start the extruder and the traction device body 1 to extrude the aluminum material into the traction device body 1 for traction, when the extruded aluminum material deflects, the extruded aluminum material contacts with the rotating roller shaft 9, at the moment, the extruded aluminum material is subject to the inclination of the rotating plate 3 to move along the rotating plate 3, meanwhile, the extruded aluminum material drives the rotating roller shaft 9 to rotate along the first rotating groove 7 on the fixed rod 8, so that the friction force between the extruded aluminum material and the rotating plate 3 is reduced, and avoid the rolling plate 3 to cut and scratch the aluminium alloy of extrusion forming, when the aluminium alloy of extrusion forming moved suitable position, the aluminium alloy of extrusion forming can pass through between two rolling plates 3, has guaranteed when the aluminium alloy of extrusion forming takes place the skew, can in time be corrected.

The previous description is provided to enable any person skilled in the art to make or use the present utility model. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the utility model. Thus, the present utility model is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (6)

1. A traction device for an extruder, comprising:

the traction device comprises a traction device body (1) and two rotating rods (2), wherein the two rotating rods (2) are fixedly connected to the traction device body (1), and a rotating plate (3) is rotationally connected to the rotating rods (2);

the transmission assembly is positioned on the corresponding rotating plate (3) and used for preventing the rotating plate (3) from wearing the aluminum profile;

the two first sliding grooves (4) are respectively formed in one side of the corresponding rotating plate (3), and the sliding blocks (5) are connected in the first sliding grooves (4) in a sliding manner;

the supporting plates (6) are fixedly connected to the two sides of the traction device body (1);

the driving assembly is positioned in the supporting plate (6) and used for driving the sliding block (5) to move.

2. The traction device for an extruder according to claim 1, wherein: the rotating plate (3) is in sliding connection with the top surface of the traction device body (1), and the bottom surface of the rotating plate (3) is not contacted with the conveying belt of the traction device body (1).

3. The traction device for an extruder as claimed in claim 1, wherein the transmission assembly comprises:

the first rotating grooves (7) are formed in one side of the rotating plate (3), and fixing rods (8) are fixedly connected in the first rotating grooves (7);

the plurality of rotating roll shafts (9) are respectively sleeved on the corresponding fixed rods (8).

4. A traction device for an extruder according to claim 3, characterized in that: the first rotating groove (7) is rotationally connected with the rotating roll shaft (9), and a gap exists between the inner wall of the first rotating groove (7) and the circumferential side of the rotating roll shaft (9).

5. The traction device for an extruder according to claim 1, wherein the driving assembly comprises:

the second sliding groove (10) is formed in the supporting plate (6) and is communicated with the outside, and second rotating grooves (11) are formed in two ends of the second sliding groove (10); the two sliding rods (12) are symmetrically and slidingly connected in the second sliding groove (10), and the bottoms of the sliding rods (12) are rotationally connected with the sliding blocks (5);

the first threaded rod (13) is rotatably connected to one of the second rotating grooves (11), and one end of the first threaded rod (13) penetrates through one of the sliding rods (12) and extends into the second sliding groove (10);

the second threaded rod (14) is rotatably connected in the other second rotating groove (11), and one end of the second threaded rod (14) penetrates through the other sliding rod (12) and extends into the second sliding groove (10) to be fixed with one end of the first threaded rod (13);

the handle (15), the other end at first threaded rod (13) is connected to handle (15) fixed, and the one end of handle (15) runs through backup pad (6) and extends to the external world.

6. The traction device for an extruder according to claim 5, wherein: the handle (15) is rotatably connected with the supporting plate (6), and the first threaded rod (13) and the second threaded rod (14) are of opposite threaded structures.