CN215220369U

CN215220369U - Vibration/noise reduction's tubular stranding machine

Info

Publication number: CN215220369U
Application number: CN202023211294.2U
Authority: CN
Inventors: 李建军
Original assignee: Chaohu Junwei Electrical Machinery Co ltd
Current assignee: Chaohu Junwei Electrical Machinery Co ltd
Priority date: 2020-12-28
Filing date: 2020-12-28
Publication date: 2021-12-17
Anticipated expiration: 2030-12-28

Abstract

The utility model is suitable for a stranding machine technical field provides a tubular stranding machine of vibration/noise reduction, including stranding machine body and damper assembly, the stranding machine body includes stranded conductor roller and supporting part, the both ends of stranded conductor roller are rotated and are connected in the supporting part, damper assembly includes damper disc, clamping part and spring board, the damper disc cover is located the outer wall of stranded conductor roller, the clamping part is located stranded conductor roller both sides, and sliding connection is in the damper disc; the vibrations of hank line roller just can drive the clamping part and constantly shrink in the inside of shock attenuation dish, and drive the spring plate in step and carry out bending deformation, and simultaneously, the spring plate resets after crooked, and can drive the clamping part in step and reset, and then the vibrations of hank line roller and the motion that the shake just can drive the clamping part, and the relative motion alright the reduction of utilizing the clamping part vibrations that the stranded conductor roller produced, and the reduction of vibrations just can the production of noise reduction, thereby alright avoid the noise to cause the influence to the staff.

Description

Vibration/noise reduction's tubular stranding machine

Technical Field

The utility model belongs to the technical field of the stranding machine, especially, relate to a vibration/noise reduction's tubular stranding machine.

Background

The stranding machine is a stranding mechanical device which can be widely applied to various soft/hard conductor wires, so that a plurality of single conductors are twisted into one strand to meet the process requirements of wires. The stranding machine can be generally classified into a single stranding machine, a pair stranding machine, a high-speed stranding machine, a back stranding machine, a cage stranding machine, a frame stranding machine, a tubular stranding machine, a disc stranding machine, and the like according to a stranding method.

The stranding machine on the existing market has the defects of insufficient structural stability and no shock absorption and noise reduction effects, so that the influence on the body of an operator is caused when the operator works on the spot.

SUMMERY OF THE UTILITY MODEL

The utility model provides a vibration/noise reduction's tubular stranding machine aims at solving the stranding machine on the current market and has structural stability not enough, does not possess the shock attenuation and fall the effect of making an uproar to make operating personnel at the site work during, caused the problem of influence to operating personnel's health.

The utility model discloses a realize like this, a vibration/noise reduction's tubular stranding machine, including stranding machine body and damper assembly, the stranding machine body includes stranded conductor roller and supporting part, the both ends of stranded conductor roller are rotated and are connected in the supporting part, damper assembly includes shock attenuation dish, clamping part and spring plate, the shock attenuation dish cover is located the outer wall of stranded conductor roller, the clamping part is located stranded conductor roller both sides to sliding connection in the shock attenuation dish, the spring plate is located inside the shock attenuation dish, and both ends sliding connection in the clamping part outer wall.

Preferably, the supporting part comprises a supporting rod and a bottom plate, the bottom of the supporting rod is fixedly connected to the bottom plate, and two ends of the stranded wire roller are rotatably connected to the supporting rod.

Preferably, the clamping portion comprises a clamping plate and a connecting plate, the connecting plate is fixed to the outer wall of the clamping plate, penetrates through the inner wall of the stranded wire roller and is connected to the damping disc in a sliding mode.

Preferably, the outer wall of the connecting plate is provided with a sliding groove, two ends of the spring plate are located inside the sliding groove, and the spring plate is connected to the connecting plate in a sliding mode through the sliding groove.

Preferably, the damping assembly further comprises a supporting seat and a fixing rod, the top of the fixing rod is fixed on the outer wall of the damping disc, the bottom of the fixing rod is contained in the supporting seat and is connected with the supporting seat in a sliding mode, and the bottom of the supporting seat is fixed on the bottom plate.

Preferably, the spring is accommodated in the supporting seat, and two ends of the spring are respectively and fixedly connected to the fixing rod and the supporting seat.

Preferably, the spring plate and the connecting plate are both arc-shaped, and the diameter of the spring plate is smaller than that of the connecting plate.

Preferably, the shock absorption assembly further comprises a telescopic rod, and two ends of the telescopic rod are fixedly connected to the middle points of the connecting plate and the spring plate respectively.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model discloses a vibration/noise reduction's tubular stranding machine, through setting up the shock attenuation board, clamping part and spring board, in the use, because the outer wall of hank roller is located to the shock attenuation dish cover, and splint centre gripping is in the both sides of hank roller, when hank roller is when pivoted in-process vibrations, the vibrations of hank roller just can drive the clamping part and constantly shrink in the inside of shock attenuation dish, and drive the spring board in step and carry out bending deformation, and simultaneously, the spring board resets after crooked, and can drive the clamping part with step and reset, and then the vibrations and the shake of hank roller just can drive the motion of clamping part, and utilize the relative motion alright reduction of clamping part the vibrations that the stranded wire roller produced, and the reduction of vibrations just can the production of noise reduction, thereby alright avoid the noise to cause the influence to the staff.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the structure of the damping plate of the present invention;

FIG. 3 is a schematic view of the internal structure of the damping plate of the present invention;

FIG. 4 is a schematic view of the construction of the connector tiles of the present invention;

in the figure: 1. a stranding machine body; 11. a stranding roller; 12. a support bar; 13. a base plate; 2. a shock absorbing assembly; 21. a damper disc; 22. a supporting seat; 23. a splint; 24. a connector tile; 25. fixing the rod; 26. a spring; 27. a spring plate; 28. a telescopic rod; 29. a chute.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1-4, the present invention provides a technical solution: the utility model provides a vibration/noise reduction's tubular stranding machine, includes stranding machine body 1 and damper assembly 2, and stranding machine body 1 includes stranded conductor roller 11 and supporting part, and the both ends of stranded conductor roller 11 are rotated and are connected in the supporting part, and damper assembly 2 includes shock attenuation dish 21, clamping part and spring board 27, and the outer wall of stranded conductor roller 11 is located to shock attenuation dish 21 cover, and the clamping part is located 11 both sides of stranded conductor roller to sliding connection is in shock attenuation dish 21, and spring board 27 is located inside shock attenuation dish 21, and both ends sliding connection is in the clamping part outer wall.

In this embodiment, the spring plate 27 and the connection plates 24 are both arc-shaped, and the arc diameter of the spring plate 27 is smaller than that of the connection plates 24, when the connection plates 24 slide back and forth in the shock absorbing disc 21, the spring plate 27 is pressed, so that the spring plate 27 starts to bend and deform, and meanwhile, the distance between the two ends of the spring plate 27 is gradually enlarged, and the two ends of the spring plate 27 slide in the sliding grooves 29 formed in the outer wall of the connection plates 24 under the pressing of the connection plates 24, and when the spring plate 27 is reset, the distance between the two ends of the spring plate 27 is reduced, and the connection plates 24 are reversely pushed to slide on the shock absorbing disc 21, and the cycle of the spring plate 27 supporting the connection plates 24 is sequentially cycled.

In the present embodiment, during the use, the wire twisting machine body 1 starts to work, and both ends of the wire twisting roll 11 rotate on the support rods 12, and the wire twisting work is performed by the rotation of the wire twisting roll 11, when the wire twisting roll 11 rotates, because bearings (not shown) are arranged at the positions of the wire twisting roll 11 and the clamping plate 23, the clamping plate 23 can be prevented from rotating under the engagement action of the bearings when the wire twisting roll 11 rotates, secondly, when the wire twisting roll 11 vibrates during the rotation, the force generated by the vibration of the wire twisting roll 11 is transmitted to the clamping plate 23, the clamping plate 23 is slidably connected to the inner wall of the damping disc 21 through the joint plate 24, and the clamping plate 23 slides in the damping disc 21 through the joint plate 24 due to the vibration of the wire twisting roll 11, and the spring plate 27 is arranged between the joint plate 24 and the inner wall of the damping disc 21, when the connection plate 24 slides under the action of the clamping plate 23, the connection plate 27 is pressed to deform, the distance between the two ends of the spring plate 27 is enlarged, the two ends slide on the connection plate 24 to adapt to the movement of the connection plate 24, when the spring plate 27 is reset after deformation, the spring plate 27 pushes the connection plate 24 and the clamping plate 23 reversely to reset, and then under the deformation of the spring plate 27 and the continuous sliding action of the clamping part, the vibration generated in the rotation process of the stranded wire roller 11 can be weakened, secondly, when the vibration force is transmitted to the damping disc 21, the fixing rod 25 arranged at the bottom of the damping disc 21 slides in the supporting seat 22, and simultaneously the spring 26 in the pressing supporting seat 22 contracts and stretches continuously, so that the secondary damping of the stranded wire roller 11 can be realized under the action of the spring 26, and the noise can be reduced, therefore, the influence of noise on workers can be avoided.

Further, the supporting part comprises a supporting rod 12 and a bottom plate 13, the bottom of the supporting rod 12 is fixedly connected to the bottom plate 13, and two ends of the stranded wire roller 11 are rotatably connected to the supporting rod 12.

In the present embodiment, the support rod 12 is used to support the wire roller 11 so as to smoothly rotate during use, and the bottom plate 13 serves to support the support rod 12.

Further, the nip portion includes a clamping plate 23 and a connecting plate 24, the connecting plate 24 is fixed to an outer wall of the clamping plate 23, and the connecting plate 24 penetrates through an inner wall of the capstan roller 11 and is slidably connected to the damper disc 21.

In this embodiment, when the wire roller 11 vibrates during rotation, the force generated by the vibration of the wire roller 11 is transmitted to the clamping plate 23, and the clamping plate 23 is slidably connected to the inner wall of the damping plate 21 through the connecting plate 24, so that the clamping plate 23 slides in the damping plate 21 through the connecting plate 24 due to the vibration of the wire roller 11.

Furthermore, the outer wall of the connecting plate 24 is provided with a sliding groove 29, two ends of the spring plate 27 are located inside the sliding groove 29, and the spring plate 27 is slidably connected to the connecting plate 24 through the sliding groove 29; the spring plates 27 and the connecting joint plates 24 are both arc-shaped, and the diameter of the spring plates 27 is smaller than that of the connecting joint plates 24.

Further, the damping assembly 2 further comprises a supporting seat 22 and a fixing rod 25, the top of the fixing rod 25 is fixed on the outer wall of the damping disc 21, the bottom of the fixing rod 25 is accommodated in the supporting seat 22 and is slidably connected to the supporting seat 22, and the bottom of the supporting seat 22 is fixed on the bottom plate 13; the support base 22 accommodates a spring 26 therein, and both ends of the spring 26 are fixedly connected to the fixing rod 25 and the support base 22, respectively.

In the present embodiment, when the force of the vibration is transmitted to the damper disc 21, the fixing rod 25 disposed at the bottom of the damper disc 21 slides inside the supporting seat 22, and the spring 26 inside the supporting seat 22 is pressed to continuously contract and stretch, so that the secondary damping of the wire roller 11 can be performed under the action of the spring 26.

Further, the shock absorbing assembly 2 further comprises a telescopic rod 28, and both ends of the telescopic rod 28 are fixedly connected to the middle points of the connecting joint plates 24 and the spring plates 27 respectively.

In the embodiment, in the using process, the relative position of the spring plate 27 can be fixed through the arrangement of the telescopic rod 28, the telescopic rod 28 is used for adapting to the change of the distance between the middle point of the spring plate 27 and the middle point of the connecting plate 24, and the situation that the spring plate 27 slides up and down is avoided.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims

1. The utility model provides a vibration/noise reduction's tubular stranding machine, includes stranding machine body (1) and damper assembly (2), stranding machine body (1) is including stranded wire roller (11) and supporting part, the both ends of stranded wire roller (11) are rotated and are connected in supporting part, its characterized in that: damping component (2) are including shock attenuation dish (21), clamping part and spring board (27), shock attenuation dish (21) cover is located the outer wall of hank line roller (11), the clamping part is located hank line roller (11) both sides to sliding connection in shock attenuation dish (21), spring board (27) are located inside shock attenuation dish (21), and both ends sliding connection in clamping part outer wall.

2. A vibration and noise reducing tubular strander as claimed in claim 1, wherein: the supporting part comprises a supporting rod (12) and a bottom plate (13), the bottom of the supporting rod (12) is fixedly connected to the bottom plate (13), and two ends of the stranded wire roller (11) are rotatably connected to the supporting rod (12).

3. A vibration and noise reducing tubular strander as claimed in claim 1, wherein: the clamping part comprises a clamping plate (23) and a connecting plate (24), the connecting plate (24) is fixed to the outer wall of the clamping plate (23), and the connecting plate (24) penetrates through the inner wall of the stranded wire roller (11) and is connected to the damping disc (21) in a sliding mode.

4. A vibration and noise reducing tubular strander as claimed in claim 3, wherein: the outer wall of the connecting plate (24) is provided with a sliding groove (29), two ends of the spring plate (27) are located inside the sliding groove (29), and the spring plate (27) is connected to the connecting plate (24) in a sliding mode through the sliding groove (29).

5. A vibration and noise reducing tubular strander as claimed in claim 2, wherein: the damping assembly (2) further comprises a supporting seat (22) and a fixing rod (25), the top of the fixing rod (25) is fixed on the outer wall of the damping disc (21), the bottom of the fixing rod is contained in the supporting seat (22) and is connected to the supporting seat (22) in a sliding mode, and the bottom of the supporting seat (22) is fixed on the bottom plate (13).

6. A vibration/noise reducing tubular strander as claimed in claim 5, wherein: the spring (26) is accommodated in the support seat (22), and two ends of the spring (26) are respectively and fixedly connected to the fixing rod (25) and the support seat (22).

7. A vibration and noise reducing tubular strander as claimed in claim 3, wherein: the spring plate (27) and the connecting plate (24) are both arc-shaped, and the diameter of the spring plate (27) is smaller than that of the connecting plate (24).

8. A vibration and noise reducing tubular strander as set forth in claim 7, wherein: the shock absorption assembly (2) further comprises a telescopic rod (28), and two ends of the telescopic rod (28) are fixedly connected to the middle points of the connecting plate (24) and the spring plate (27) respectively.