CN216807062U - Special-shaped steel wire conveying and feeding device - Google Patents

Abstract

The utility model relates to a special-shaped steel wire conveying and feeding device which comprises a steel wire feeding module and a steel wire conveying platform, wherein the steel wire conveying platform is provided with a synchronous belt, the synchronous belt is driven by a driving motor through a transmission module to rotate, the synchronous belt and a special-shaped steel wire are in friction transmission, and the special-shaped steel wire moves along the arrangement direction of the steel wire conveying platform; steel wire separation module includes the steel wire buffer memory that links up with steel wire conveying platform, and many dysmorphism steel wires are cached and are existed in the steel wire buffer memory, and the steel wire buffer memory sets up steel wire separating mechanism and steel wire climbing mechanism, and steel wire separating mechanism separates many dysmorphism steel wires, forms the material level of getting of the single dysmorphism steel wire of needs after the jacking of steel wire climbing mechanism. The special-shaped steel wire feeding and separating device disclosed by the utility model can realize feeding and separating of special-shaped steel wires, can improve feeding efficiency and reduce manual operation intensity.

Description

Special-shaped steel wire conveying and feeding device

Technical Field

The utility model relates to the technical field of conveying devices, in particular to a special-shaped steel wire conveying and feeding device.

Background

Figure 7 is a schematic view of a wire profile. As shown in fig. 7, the wire profile 27 includes a first body and a second body which are symmetrical left and right, the first body and the second body both include a head portion 2701, a middle portion 2703 and a tail portion 2705, a straight line where the head portion 2701 and a straight line where the middle portion 2703 are located are parallel to each other, and a straight line where the middle portion 2703 and a straight line where the tail portion 2705 are located are parallel to each other; a convex portion 2702 is arranged between the head portion 2701 and the middle portion 2703, and the cross section of the convex portion 2702 is U-shaped; set up transition portion 2704 between middle part 2703 and afterbody 2705, form first contained angle between the straight line that transition portion 2704 belongs to and the straight line that middle part 2703 belongs to, form the second contained angle between the straight line that transition portion 2704 belongs to and the straight line that afterbody 2705 belongs to, and the degree of first contained angle is the same with the degree of second contained angle.

For feeding of the special-shaped steel wires, manual operation of operators is relied on in the market at present, a corresponding feeding device is not provided, a large amount of labor time cost is consumed under the condition, the special-shaped steel wires deviate from a track or a plurality of special-shaped steel wires are bonded together without separation, secondary separation is needed subsequently, the production efficiency is reduced, the cost is increased, the efficiency is low, and the quality is poor.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects of the prior art, the utility model discloses a special-shaped steel wire conveying and feeding device.

The technical scheme adopted by the utility model is as follows:

a special-shaped steel wire conveying and feeding device comprises

The steel wire feeding module comprises a steel wire conveying platform, the steel wire conveying platform is provided with a synchronous belt, the synchronous belt is driven by a driving motor through a transmission module to rotate, the synchronous belt and the special-shaped steel wire are in friction transmission, and the special-shaped steel wire moves along the arrangement direction of the steel wire conveying platform;

steel wire separation module, include with the steel wire buffer memory of steel wire conveying platform linking, many the dysmorphism steel wire exists slowly the steel wire buffer memory, the steel wire buffer memory sets up steel wire separating mechanism and steel wire climbing mechanism, steel wire separating mechanism separates many the dysmorphism steel wire, the material level of getting of the single dysmorphism steel wire that forms needs behind the steel wire climbing mechanism jacking.

The method is further technically characterized in that: the transmission module comprises a chain tensioned on a group of chain wheels, one chain wheel is sleeved on an output shaft of the driving motor, the other chain wheel is sleeved on a driven shaft, and a transmission wheel is sleeved on the driven shaft; synchronizing wheels are installed at two ends of the steel wire conveying platform, guide wheels for changing steering are installed between the synchronizing wheels, and the synchronizing belts are wound around the synchronizing wheels, the guide wheels and the driving wheels.

The method is further technically characterized in that: the steel wire buffer zone comprises a support plate, first limiting bent pipes are installed on two sides of the support plate and are in butt joint with the steel wire conveying platform, and a linear vibrator is installed below the support plate.

The method is further technically characterized in that: the steel wire separating mechanism comprises an ejection cylinder, and a movable part of the ejection cylinder is connected with a front end taper pin.

The method is further technically characterized in that: the steel wire climbing mechanism comprises a climbing cylinder, the movable part of the climbing cylinder is connected with the positioning plate, a groove is formed in the top of the positioning plate, and the groove is used for clamping the special-shaped steel wire.

The method is further technically characterized in that: the positioning plate is provided with a magnetic element.

The method is further technically characterized in that: the special-shaped steel wire comprises a first body and a second body which are bilaterally symmetrical, the first body and the second body respectively comprise a head part, a middle part and a tail part, a straight line where the head part is located and a straight line where the middle part is located are parallel to each other, and a straight line where the middle part is located and a straight line where the tail part is located are parallel to each other; a bulge is arranged between the head part and the middle part, and the cross section of the bulge is U-shaped; the tail part of the tail body is provided with a transition part, a first included angle is formed between a straight line where the transition part is located and a straight line where the middle part is located, and a second included angle is formed between a straight line where the transition part is located and a straight line where the tail part is located.

The method is further technically characterized in that: the first body and the second body are integrally formed.

The method is further technically characterized in that: the degree of the first included angle is the same as the degree of the second included angle.

The method is further technically characterized in that: the steel wire feeding module and the steel wire separating module are both arranged on the workbench.

Compared with the prior art, the technical scheme of the utility model has the following advantages:

1. according to the utility model, the limiting guide bent pipes are designed on two sides of the steel wire feeding module, and the bent pipes are made of stainless steel, so that the steel wire feeding module has a good guide function and wear resistance, and is more stable and durable in design.

2. According to the utility model, the double synchronous belts are used for feeding the steel wires and distributed left and right, so that the forward moving power of the special-shaped steel wires is more balanced, the steel wire distortion caused by uneven stress of the special-shaped steel wires is avoided, and meanwhile, the synchronous belt structure is adopted, so that the cost is low and the replacement is simple.

3. The utility model adopts the profile structure through the integral frame, has good overhauling and reconstruction conditions, and has better expansibility compared with the traditional square steel welding structure.

Drawings

In order that the present disclosure may be more readily and clearly understood, reference will now be made in detail to the present disclosure, examples of which are illustrated in the accompanying drawings.

Fig. 1 is a schematic diagram of a first viewing angle of the present invention.

Fig. 2 is a schematic diagram of a second viewing angle according to the present invention.

Fig. 3 is a schematic structural view of a wire feeding module.

Fig. 4 is a schematic structural view of a wire separating module.

Fig. 5 is a schematic structural view of the wire separating mechanism.

Fig. 6 is a schematic structural view of a wire jacking mechanism.

Figure 7 is a schematic view of a wire profile.

The specification reference numbers indicate: 1. a work table; 2. a first wire feeding module; 3. a second wire feeding module; 4. a first wire separation module; 5. a second wire separation module; 6. a drive motor; 7. a synchronous belt; 8. bending the pipe; 9. a synchronizing wheel; 10. a support plate; 11. a sprocket; 12. a chain; 13. a driven shaft; 14. a first limit elbow; 15. a linear vibrator; 16. a steel wire buffer area; 17. ejecting out the cylinder; 18. a front end taper pin; 19. positioning a plate; 20. a first sensor; 21. a second sensor; 22. jacking a cylinder; 23. a second limit elbow; 24. a steel wire separating mechanism; 25. a steel wire jacking mechanism; 26. a cylinder fixing plate; 27. a special-shaped steel wire; 2701. a head portion; 2702. a boss portion; 2703. a middle part; 2704. a transition section; 2705. and a tail portion.

Detailed Description

The present invention is further described below in conjunction with the following figures and specific examples so that those skilled in the art may better understand the present invention and practice it, but the examples are not intended to limit the present invention.

The foregoing and other technical matters, features and effects of the present invention will be apparent from the following detailed description of embodiments of the present invention when taken in conjunction with the accompanying drawings. Directional terms as referred to in the following examples, for example: up, down, left, right, front or rear, etc., are simply directions with reference to the drawings. Therefore, the directional terminology used is for the purpose of describing, but not limiting, the utility model, and moreover, like reference numerals designate like elements throughout the embodiments.

Example 1:

referring to FIGS. 3 to 6, a shaped steel wire conveying and feeding device comprises

The steel wire feeding module comprises a steel wire conveying platform, the steel wire conveying platform is a supporting plate 10, and bent pipes 8 are arranged on two sides of the supporting plate 10. Steel wire conveying platform sets up hold-in range 7, and hold-in range 7 is rotated through drive module drive hold-in range 7 by driving motor 6, hold-in range 7 and the friction drive of shaped steel wire 27, and shaped steel wire 27 along steel wire conveying platform's the direction motion that sets up.

Specifically, the transmission module comprises a chain 12 tensioned on a group of chain wheels 11, wherein one chain wheel 11 is sleeved on an output shaft of the driving motor 6, the other chain wheel 11 is sleeved on a driven shaft 13, and a transmission wheel is sleeved on the driven shaft 13. Synchronizing wheels 9 are arranged at two ends of the steel wire conveying platform, guide wheels for changing steering are arranged between the synchronizing wheels 9, and the synchronous belt 7 is wound around the synchronizing wheels 9, the guide wheels and the transmission wheel. This embodiment may adopt an arrangement in which the double timing belt 7 is distributed left and right on both sides of the support plate 10.

Steel wire separation module includes 16 with the steel wire buffer memory of steel wire conveying platform linking, and many deformed steel wires 27 caches in 16 at the steel wire buffer memory, and 16 setting steel wire buffer memory set up steel wire separating mechanism 24 and steel wire climbing mechanism 25, and steel wire separating mechanism 24 separates many deformed steel wires 27, and the material level of getting of single deformed steel wire 27 that forms the needs behind the jacking of steel wire climbing mechanism 25.

The steel wire buffer area 16 comprises a carrier plate, first limit elbows 14 are arranged on two sides of the carrier plate, the first limit elbows 14 are in butt joint with the elbows 8, the special-shaped steel wire 27 can slide to the first limit elbows 14 from the elbows 8, and the linear vibrator 15 is arranged below the carrier plate. A first sensor 20 is installed on one side of the first limit elbow 14, the first sensor 20 is arranged between the steel wire feeding module and the steel wire separating module, and a second sensor 21 is installed on the other side of the first limit elbow 14. The first sensor 20 and the second sensor 21 detect the position of the wire profile 27.

The second limit elbow 23 is arranged below the first limit elbow 14, and the second limit elbow 23 prevents the deformed steel wire 27 from directly falling on the ground and deforming after falling from the first limit elbow 14.

When the first sensor 20 detects that the special-shaped steel wire 27 exists, the driving motor 6 stops rotating, dynamic friction between the special-shaped steel wire 27 and the synchronous belt 7 is avoided, the synchronous belt 7 is protected, and the service life of the synchronous belt 7 is prolonged.

The steel wire separating mechanism 24 comprises an ejection cylinder 17, and the movable part of the ejection cylinder 17 is connected with the front end taper pin 18. In this embodiment, three sets of the wire separating mechanisms 24 are provided, the three sets of the wire separating mechanisms 24 may be respectively provided in the middle portion 2703, the transition portion 2704, and the tail portion 2705 of the wire profile 27, and the extension of the movable portion of the ejecting cylinder 17 may be used to separate the middle portion 2703, the transition portion 2704, and the tail portion 2705 of the two wire profile 27, thereby separating the two wire profile 27.

The steel wire jacking mechanism 25 comprises a jacking cylinder 22, the movable part of the jacking cylinder 22 is connected with a positioning plate 19, and the top of the positioning plate 19 is provided with a groove which is used for clamping the special-shaped steel wire 27. The cylinder body of the jacking cylinder 22 is fixed on a cylinder fixing plate 27, and the cylinder fixing plate 27 is connected with the positioning plate 19.

The positioning plate 19 is provided with a magnetic element which can attract the wire profile 27. In this embodiment, the magnetic element may be a magnet.

Example 2:

referring to fig. 1 and 2, the special-shaped steel wire conveying and feeding device comprises two groups of steel wire feeding modules (a first steel wire feeding module 2 and a second steel wire feeding module 3 respectively) and two groups of steel wire separating modules (a first steel wire separating module 4 and a second steel wire separating module 5 respectively), wherein each group of steel wire feeding modules corresponds to each group of steel wire separating modules one by one, specifically, the first steel wire feeding module 2 corresponds to the first steel wire separating module 4, and the second steel wire feeding module 3 corresponds to the second steel wire separating module 5. The first steel wire feeding module 2, the second steel wire feeding module 3, the first steel wire separating module 4 and the second steel wire separating module 5) are all arranged on the workbench 1.

Steel wire pay-off module, including steel wire conveying platform, steel wire conveying platform is bearing plate 10, and steel wire conveying platform sets up hold-in range 7, and hold-in range 7 is rotated through drive module drive hold-in range 7 by driving motor 6, hold-in range 7 and the friction drive of shaped steel wire 27, and shaped steel wire 27 along steel wire conveying platform's the direction motion that sets up.

Specifically, the transmission module comprises a chain 12 tensioned on a set of chain wheels 11, one chain wheel 11 is sleeved on an output shaft of the driving motor 6, the other chain wheel 11 is sleeved on a driven shaft 13, and a transmission wheel is sleeved on the driven shaft 13. Synchronizing wheels 9 are arranged at two ends of the steel wire conveying platform, guide wheels for changing steering are arranged between the synchronizing wheels 9, and the synchronous belt 7 is wound around the synchronizing wheels 9, the guide wheels and the transmission wheel. This embodiment may adopt an arrangement in which the double timing belt 7 is distributed left and right on both sides of the support plate 10.

Steel wire separation module includes 16 with the steel wire buffer memory of steel wire conveying platform linking, and many deformed steel wires 27 caches in 16 at the steel wire buffer memory, and 16 setting steel wire buffer memory set up steel wire separating mechanism 24 and steel wire climbing mechanism 25, and steel wire separating mechanism 24 separates many deformed steel wires 27, and the material level of getting of single deformed steel wire 27 that forms the needs behind the jacking of steel wire climbing mechanism 25.

The steel wire buffer area 16 comprises a support plate, first limiting bent pipes 14 are arranged on two sides of the support plate, the first limiting bent pipes 14 are in butt joint with the steel wire conveying platform, and a linear vibrator 15 is arranged below the support plate. A first sensor 20 is installed on one side of the first limit elbow 14, the first sensor 20 is arranged between the steel wire feeding module and the steel wire separating module, and a second sensor 21 is installed on the other side of the first limit elbow 14. The first sensor 20 and the second sensor 21 detect the position of the wire profile 27.

The second limit elbow 23 is arranged below the first limit elbow 14, and the second limit elbow 23 prevents the deformed steel wire 27 from directly falling on the ground and deforming after falling from the first limit elbow 14.

When the first sensor 20 detects that the special-shaped steel wire 27 exists, the driving motor 6 stops rotating, dynamic friction between the special-shaped steel wire 27 and the synchronous belt 7 is avoided, the synchronous belt 7 is protected, and the service life of the synchronous belt 7 is prolonged.

The steel wire separating mechanism 24 comprises an ejection cylinder 17, and the movable part of the ejection cylinder 17 is connected with a front end taper pin 18. In this embodiment, three sets of the wire separating mechanisms 24 are provided, the three sets of the wire separating mechanisms 24 may be respectively provided in the middle portion 2703, the transition portion 2704, and the tail portion 2705 of the wire profile 27, and the extension of the movable portion of the ejecting cylinder 17 may be used to separate the middle portion 2703, the transition portion 2704, and the tail portion 2705 of the two wire profile 27, thereby separating the two wire profile 27.

The steel wire jacking mechanism 25 comprises a jacking cylinder 22, the movable part of the jacking cylinder 22 is connected with a positioning plate 19, and the top of the positioning plate 19 is provided with a groove which is used for clamping the special-shaped steel wire 27.

The positioning plate 19 is provided with a magnetic element which can absorb the special-shaped steel wire 27. In this embodiment, the magnetic element may be a magnet.

According to the steel wire separating device, a plurality of groups of steel wire feeding modules and steel wire separating modules can be arranged, and the number of the steel wire feeding modules and the number of the steel wire separating modules are set according to the needs of operators.

The working principle of the utility model is as follows:

an operator loads a plurality of special-shaped steel wires 27 on a steel wire loading module, a driving motor 6 drives a synchronous belt 7 to run, the special-shaped steel wires 27 are enabled to move forwards to a steel wire separation module, a linear vibrator 15 vibrates the special-shaped steel wires 27 to move forwards continuously to reach a positioning plate 19, a first sensor 20 detects the special-shaped steel wires 27, a piston rod of a jacking cylinder 22 ejects the special-shaped steel wires 27, a second sensor 21 is arranged between the steel wire loading module and the steel wire separation module, when the second sensor 21 detects a steel wire, the driving motor 6 stops rotating, dynamic friction between the special-shaped steel wires 27 and the synchronous belt 7 is avoided, the synchronous belt 7 is protected, and the service life of the synchronous belt 7 is prolonged.

In the description of the embodiments of the present invention, it should be further noted that unless otherwise explicitly stated or limited, the terms "disposed" and "connected" should be interpreted broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

It should be understood that the above examples are only for clarity of illustration and are not intended to limit the embodiments. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. And obvious variations or modifications of the utility model may be made without departing from the spirit or scope of the utility model.

Claims (10)

1. The utility model provides a feedway is carried to shaped steel wire which characterized in that: comprises that

The steel wire feeding module comprises a steel wire conveying platform, the steel wire conveying platform is provided with a synchronous belt (7), the synchronous belt (7) is driven by a driving motor (6) through a transmission module to rotate, the synchronous belt (7) and the special-shaped steel wire (27) are in friction transmission, and the special-shaped steel wire (27) moves along the arrangement direction of the steel wire conveying platform;

steel wire separation module, include with steel wire buffer memory district (16) that steel wire conveying platform links up, many dysmorphism steel wire (27) buffer memory is in steel wire buffer memory district (16), steel wire buffer memory district (16) set up steel wire separating mechanism (24) and steel wire climbing mechanism (25), steel wire separating mechanism (24) separation is many dysmorphism steel wire (27), the material position of getting of single dysmorphism steel wire (27) that formation needs behind steel wire climbing mechanism (25) jacking.

2. The wire form feeder of claim 1, wherein: the transmission module comprises a chain (12) tensioned on a group of chain wheels (11), one chain wheel (11) is sleeved on an output shaft of the driving motor (6), the other chain wheel (11) is sleeved on a driven shaft (13), and a driving wheel is sleeved on the driven shaft (13); synchronizing wheels (9) are installed at two ends of the steel wire conveying platform, guide wheels for changing steering are installed between the synchronizing wheels (9), and the synchronous belts (7) are wound around the synchronizing wheels (9), the guide wheels and the transmission wheels.

3. The wire form feeder of claim 1, wherein: the steel wire buffer area (16) comprises a support plate, first limiting bent pipes (14) are installed on two sides of the support plate, the first limiting bent pipes (14) are in butt joint with the steel wire conveying platform, and linear vibrators (15) are installed below the support plate.

4. The wire form feeder of claim 1, wherein: the steel wire separating mechanism (24) comprises an ejection cylinder (17), and the movable part of the ejection cylinder (17) is connected with a front end taper pin (18).

5. The wire form feeder of claim 1, wherein: the steel wire jacking mechanism (25) comprises a jacking cylinder (22), the movable part of the jacking cylinder (22) is connected with a positioning plate (19), the top of the positioning plate (19) is provided with a groove, and the groove is used for clamping the special-shaped steel wire (27).

6. The wire form feeder of claim 5, wherein: the positioning plate (19) is provided with a magnetic element.

7. The wire form feeder of claim 1, wherein: the special-shaped steel wire (27) comprises a first body and a second body which are bilaterally symmetrical, the first body and the second body respectively comprise a head part (2701), a middle part (2703) and a tail part (2705), a straight line where the head part (2701) is located and a straight line where the middle part (2703) is located are parallel to each other, and a straight line where the middle part (2703) is located and a straight line where the tail part (2705) is located are parallel to each other; a convex part (2702) is arranged between the head part (2701) and the middle part (2703), and the cross section of the convex part (2702) is U-shaped; a transition portion (2704) is arranged between the middle portion (2703) and the tail portion (2705), a first included angle is formed between a straight line where the transition portion (2704) is located and a straight line where the middle portion (2703) is located, and a second included angle is formed between a straight line where the transition portion (2704) is located and a straight line where the tail portion (2705) is located.

8. The wire form feeder of claim 7, wherein: the first body and the second body are integrally formed.

9. The wire form feeder of claim 7, wherein: the degree of the first included angle is the same as the degree of the second included angle.

10. The wire form feeder of claim 1, wherein: the steel wire feeding module and the steel wire separating module are both arranged on the workbench (1).

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