CN211521219U - Vertical multi-wheel wire storage device - Google Patents

Abstract

The utility model relates to a vertical multiunit wheel storage line device contains the bottom plate, and its characteristics are: the bottom plate is provided with a vertical frame. The upper end of the vertical frame is provided with a wheel seat and an upper chain wheel. The lower end of the vertical frame is provided with a motor, an output shaft of the motor is provided with a lower chain wheel, and a transmission chain is arranged between the lower chain wheel and the upper chain wheel. Two vertical guide rails are arranged on one surface of the vertical frame which is vertical to the wheel surfaces of the upper and lower chain wheels. The vertical guide rail is provided with an upper slide block and a lower slide block which are in sliding fit with the vertical guide rail. The front of the upper and lower sliding blocks is respectively connected with an upper and a lower connecting plates. The outer sides of the upper and lower connecting plates are provided with wheel shafts vertical to the plate surfaces, and the wheel shafts are provided with wire storage wheels. The vertical frames on the two vertical edges of the lower connecting plate are respectively connected with a wire inlet frame and a wire outlet frame, and the wire inlet frame and the wire outlet frame are respectively provided with a wire inlet steering wheel and a wire outlet steering wheel. By adopting the wire storage device, the investment and the energy consumption can be reduced, and the production cost can be reduced. The wire take-up device is suitable for take-up of an electron accelerator in the process of irradiating wires.

Description

Vertical multi-wheel wire storage device

Technical Field

The utility model relates to a wire storage device. In particular to a vertical multi-group wheel wire storage device for taking up wires in the process of irradiating the wires by an electron accelerator.

Background

In the field of wire and cable production, it is known that in order to improve the performance of wires and cables, an electron accelerator is used to irradiate the wires and cables before the wires and cables leave a factory. In the irradiation process, after the wires and cables continuously pass through the under-beam device of the electron accelerator at a constant speed, the irradiated wires and cables are wound by the take-up device. When the wire on the take-up device is fully wound, the machine needs to be stopped and an empty roll needs to be replaced. In the shutdown and reel change process, the electron accelerator still continues to operate, and in order to avoid the gathering and winding phenomena of wires and cables in the reel change process, a wire storage device is mostly arranged between the lower bundling device and the wire take-up device. Most of traditional wire storage devices are horizontal wire storage devices, wire storage wheels of the horizontal wire storage devices are all located on the same horizontal plane, and the occupied area of the horizontal wire storage devices is mainly the area surrounded by the wire storage wheels. Therefore, the occupied area is large, and the investment of the factory building is large. And because the wire storage wheels are all positioned on a horizontal plane, the wires and the cables are easy to droop, the tension loss is large, the energy consumption is high, and the production cost is high.

SUMMERY OF THE UTILITY MODEL

The to-be-solved problem of the utility model is to provide a vertical multiunit wheel storage line device. By adopting the wire storage device, the investment can be reduced, the energy consumption can be reduced, and the production cost can be reduced.

The utility model discloses the above-mentioned problem of shang to solve is realized by following technical scheme:

the utility model discloses a vertical multiunit wheel stores up line device contains the bottom plate, and its characteristics are: the bottom plate is provided with a vertical frame. The cross section of the vertical frame is a rectangular frame, and the upper end of the vertical frame is provided with a wheel seat and an upper chain wheel. The lower end of the vertical frame is provided with a motor, an output shaft of the motor is provided with a lower chain wheel, and a transmission chain is arranged between the lower chain wheel and the upper chain wheel. Two vertical guide rails are arranged on one surface of the vertical frame which is vertical to the wheel surfaces of the upper and lower chain wheels. The vertical guide rail is provided with an upper slide block and a lower slide block which are in sliding fit with the vertical guide rail. The front of the upper and lower sliding blocks is respectively connected with an upper connecting plate and a lower connecting plate. The outer sides of the upper and lower connecting plates are provided with wheel shafts vertical to the plate surfaces of the upper and lower connecting plates, and the wheel shafts are provided with wire storage wheels rotatably matched with the wheel shafts. The vertical frames on the two vertical edges of the lower connecting plate are respectively connected with a wire inlet frame and a wire outlet frame, and the wire inlet frame and the wire outlet frame are respectively provided with a wire inlet steering wheel and a wire outlet steering wheel. The wires sent by the lower bundling device firstly bypass from the upper side and the right side of the wire inlet steering wheel, then sequentially bypass the lower wire storage wheel and the upper wire storage wheel, and finally are led out from the left side and the upper side of the wire outlet steering wheel.

The upper connecting plate and the lower connecting plate are rectangular and transversely arranged, and at least two wheel shafts on the upper connecting plate and the lower connecting plate are positioned on the same level.

The upper wire storage wheel and the lower wire storage wheel are cylindrical, and annular wire grooves are uniformly distributed in the longitudinal direction of the outer circle of the upper wire storage wheel and the lower wire storage wheel.

The motor is a servo motor.

The outer ends of the wheel shafts are provided with brackets. The bracket is an isosceles triangle, the vertex angle of the bracket is connected with the outer end of the wheel shaft, and the bottom edge of the bracket is connected with the corresponding upper connecting plate or lower connecting plate through the connecting plate.

According to the scheme, the vertical frame is arranged on the bottom plate. An upper wheel seat and an upper chain wheel are arranged at the upper end of the vertical frame, a motor is arranged at the lower end of the vertical frame, a lower chain wheel is arranged on an output shaft of the motor, and a transmission chain is arranged between the lower chain wheel and the upper chain wheel. Two vertical guide rails are arranged on one surface of the vertical frame vertical to the wheel surfaces of the upper and lower chain wheels, and an upper sliding block and a lower sliding block are arranged on the vertical guide rails. The front of the vertical guide rail is provided with an upper connecting plate and a lower connecting plate, and the back of the upper connecting plate and the back of the lower connecting plate are respectively connected with an upper sliding block and a lower sliding block on the two vertical guide rails. The outer sides of the upper and lower connecting plates are provided with wheel shafts vertical to the plate surfaces of the upper and lower connecting plates, and the wheel shafts are provided with wire storage wheels rotatably matched with the wheel shafts. The vertical frames on the two vertical edges of the lower connecting plate are respectively connected with a wire inlet frame and a wire outlet frame, and the wire inlet frame and the wire outlet frame are respectively provided with a wire inlet steering wheel and a wire outlet steering wheel. When the wire winding device works, the front ends of the wires sent by the wire winding device bypass from the upper side and the right side of the wire inlet steering wheel, then sequentially bypass the lower wire storage wheel and the upper wire storage wheel, and finally are led out from the left side and the upper side of the wire outlet steering wheel.

Therefore, the utility model discloses a vertical multiunit wheel storage line device only has the grudging post lower extreme wherein and bottom plate contact for its area is mainly the area of grudging post, and consequently, area is very little. Because the floor area is small, the area of a factory building can be reduced, and the capital construction investment of the factory building is reduced. And because the upper and lower wire storage wheels are respectively positioned on the upper and lower connecting plates, the corresponding upper and lower wire storage wheels are positioned in the same vertical direction. And the electric wire and the cable wound between the upper wire storage wheel and the lower wire storage wheel are also positioned in the vertical direction, compared with the background art, the sag of the electric wire and the cable is eliminated, the tension loss is avoided, the energy consumption is reduced, and the production cost is reduced.

Drawings

FIG. 1 is a schematic view of the vertical multi-wheel wire storage device of the present invention;

fig. 2 is a left side view of fig. 1.

Detailed Description

As shown in fig. 1 and 2, the vertical multi-wheel wire storage device of the present invention comprises a bottom plate 1, and a vertical frame 16 is disposed on the bottom plate 1. The cross section of the vertical frame 16 is a rectangular frame, the upper end of the vertical frame is provided with a wheel seat 9, and the wheel seat 9 is provided with an upper chain wheel 8. A motor 17, which is a servo motor, is provided at the lower end of the stand 16. The output shaft 171 of the motor 17 is provided with a lower chain wheel 18, and a transmission chain 12 is connected between the lower chain wheel 18 and the upper chain wheel 8. Two vertical guide rails 10 are fixed on one surface of the vertical frame 16 which is vertical to the wheel surfaces of the upper chain wheel and the lower chain wheel. The two vertical guide rails 10 are parallel, and the upper slide block 19 and the lower slide block 21 which are matched with the vertical guide rails 10 in a sliding way are arranged on the vertical guide rails 10. The front faces of the two upper and lower sliders 19 are connected with an upper connecting plate 11, and the front faces of the two lower sliders 21 are connected with a lower connecting plate 15. The wheel shafts 7 vertical to the plate surfaces of the upper connecting plate 11 and the lower connecting plate 15 are arranged outside the upper connecting plate and the lower connecting plate, and the wheel shafts 7 are provided with the wire storage wheels 6 which are rotatably matched with the wheel shafts 7. The upper wire storage wheel 6 and the lower wire storage wheel 6 are cylindrical, and annular wire grooves are uniformly distributed in the longitudinal direction of the outer circle of the upper wire storage wheel and the lower wire storage wheel. The upper connecting plate 11 and the lower connecting plate 15 are rectangular and arranged transversely, and the number of the wheel shafts 7 on the upper connecting plate and the lower connecting plate is three and is on the same level. The wheel shaft 7 and the wire storage wheels 6 on the wheel shaft can be determined according to needs, and the number of the wheel shaft 7 and the wire storage wheels 6 on the wheel shaft are three in the embodiment.

In order to ensure the levelness of the wheel shaft, the outer ends of the wheel shafts 7 are provided with brackets 5. The bracket 5 is an isosceles triangle, the vertex angle of the bracket is connected with the outer end of the wheel shaft 7, and the bottom edge of the bracket is connected with the corresponding upper connecting plate 11 or lower connecting plate 15 through a connecting plate 20.

The vertical frames 16 on the two vertical edges of the lower connecting plate 15 are respectively connected with a wire inlet frame 2 and a wire outlet frame 14, and the wire inlet frame and the wire outlet frame are respectively provided with a wire inlet steering wheel 3 and a wire outlet steering wheel 13. When the wire winding device works, the wires 4 sent by the wire winding device firstly bypass the upper side and the right side of the wire inlet steering wheel 3, then sequentially bypass the lower wire storage wheel and finally are led out from the left side and the upper side of the wire outlet steering wheel 13.

Claims (5)

1. Vertical multiunit wheel stores up traditional thread binding putting, including the bottom plate, its characterized in that: the bottom plate is provided with a vertical frame; the cross section of the vertical frame is a rectangular frame, and the upper end of the vertical frame is provided with a wheel seat and an upper chain wheel; the lower end of the vertical frame is provided with a motor, an output shaft of the motor is provided with a lower chain wheel, and a transmission chain is arranged between the lower chain wheel and the upper chain wheel; one surface of the vertical frame which is vertical to the wheel surfaces of the upper and lower chain wheels is provided with two vertical guide rails; the vertical guide rail is provided with an upper sliding block and a lower sliding block which are in sliding fit with the vertical guide rail; the front of the upper and lower sliding blocks is respectively connected with an upper connecting plate and a lower connecting plate; wheel shafts perpendicular to the plate surfaces of the upper and lower connecting plates are arranged outside the upper and lower connecting plates, and wire storage wheels rotatably matched with the wheel shafts are arranged on the wheel shafts; the vertical frames on the two vertical edges of the lower connecting plate are respectively connected with a wire inlet frame and a wire outlet frame, and the wire inlet frame and the wire outlet frame are respectively provided with a wire inlet steering wheel and a wire outlet steering wheel; the wires sent by the lower bundling device firstly bypass from the upper side and the right side of the wire inlet steering wheel, then sequentially bypass the lower wire storage wheel and the upper wire storage wheel, and finally are led out from the left side and the upper side of the wire outlet steering wheel.

2. The vertical multiple-wheel wire storage device according to claim 1, wherein: the upper connecting plate and the lower connecting plate are rectangular and transversely arranged, and at least two wheel shafts on the upper connecting plate and the lower connecting plate are positioned on the same level.

3. The vertical multiple-wheel wire storage device according to claim 1, wherein: the upper wire storage wheel and the lower wire storage wheel are cylindrical, and annular wire grooves are uniformly distributed in the longitudinal direction of the outer circle of the upper wire storage wheel and the lower wire storage wheel.

4. The vertical multiple-wheel wire storage device according to claim 1, wherein: the motor is a servo motor.

5. The vertical multi-wheel wire storage device according to any one of claims 1-4, wherein: the outer ends of the wheel shafts are provided with brackets; the bracket is an isosceles triangle, the vertex angle of the bracket is connected with the outer end of the wheel shaft, and the bottom edge of the bracket is connected with the corresponding upper connecting plate or lower connecting plate through the connecting plate.

Images