CN211871034U - Stable form silver connects storage bucket conversion equipment - Google Patents

Abstract

The utility model discloses a stable form silver connects storage bucket conversion equipment belongs to the technical field of cotton thread processing equipment. Its technical scheme main points are including equipment, the staving has been placed to the equipment below, the equipment below is provided with connects the material slope, the staving is placed on connecing the material slope, it is the lower extreme to connect the one end that the material slope is close to equipment, it is the peak to connect the one end that the equipment was kept away from to the material slope, connect the material slope lower extreme to hold for connecing the material end, the other end is for advancing the bucket end, the side that connects the material end is provided with power component, power component includes power driving piece, power driving piece erects subaerial, power driving piece fixedly connected with swinging arms, swinging arms one end and power driving piece fixed connection, the. The effect of reducing the labor intensity of workers is achieved.

Description

Stable form silver connects storage bucket conversion equipment

Technical Field

The utility model relates to a technical field of cotton thread processing equipment, in particular to stable form silver connects storage bucket conversion equipment.

Background

The pure cotton fabric is a fabric woven by adopting a plurality of cotton threads, and the pure cotton fabric has better skin-friendly feeling, so that the pure cotton fabric plays an extremely important role in the clothing industry, and the vigorous development of the cotton thread production industry is driven.

The cotton thread is a slender and arbitrarily bendable thread formed by twisting cotton fibers, when the cotton thread is produced, workers usually firstly break up the purchased cotton, break up the cotton to cotton wool, then make the cotton wool into loose cotton slivers and then convey the cotton slivers to a drawing frame for drawing, the loose cotton slivers after drawing form an initial cotton thread with a more compact structure, and then the cotton thread capable of being woven is formed through the working procedures of doubling and twisting and the like.

In the production process of cotton thread, the material process that connects of cotton thread adopts the staving to transport mostly, as shown in fig. 1, including cylindric staving 11, the storage chamber that 11 inside set up of staving, uncovered has been seted up on the top of staving 11, and the silver is at the production completion back, at first spirals through uncovered successive layer and places in the storage chamber, and then spirals layer by layer in the storage chamber, and after the silver in the storage chamber was filled with, the workman cuts the silver, then, places new staving 11 and continues to connect material work in equipment 1 below.

Above-mentioned prior art has following defect, and the staving connects after full silver, and the conversion process between the staving filled with the silver and the empty staving adopts the mode of artifical transport to go on mostly, has increased workman's intensity of labour.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art, the utility model provides a stable form silver connects storage bucket conversion equipment to reach the effect that reduces workman's intensity of labour.

The above technical purpose of the present invention can be achieved by the following technical solutions:

the utility model provides a stable form silver connects storage bucket conversion equipment, includes equipment, and the staving has been placed to the equipment below, the equipment below is provided with connects the material slope, and the staving is placed on connecing the material slope, and the one end that connects the material slope to be close to equipment is the lower extreme, and the one end that connects the material slope to keep away from equipment is the peak, connects the material slope lower extreme to connect the material end, and the other end is for advancing the bucket end, and the side that connects the material end is provided with power component, and power component includes power driving piece, and power driving piece erects subaerial, power driving piece fixedly connected with swinging arms, swinging arms one end and power driving piece.

By adopting the scheme, when the barrel body is used for receiving materials, a worker can place the barrel body at the barrel inlet end through the material receiving slope, the barrel body moves to the material receiving end along the material receiving slope under the action of gravity, cotton slivers produced by equipment above the material receiving end can directly fall into the barrel body, the step that the worker completely carries the barrel body to the lower part of the equipment is omitted, the labor intensity of the worker is preliminarily reduced, after the material receiving of the barrel body is completed, the power driving part drives the oscillating rod to rotate, the oscillating rod rotates to pass through the upper part of the material receiving slope and is in contact with the barrel body, the oscillating rod continues to rotate to take the barrel body away from the material receiving end, the worker places a new barrel body at the barrel inlet end, the new barrel body slides to the lower part of the equipment along the material receiving slope to continue receiving, the process that the worker carries the heavy barrel body filled with the cotton slivers, the effect of reducing the labor intensity of workers is achieved.

The utility model discloses further set up to connect material slope top surface both sides to be provided with the rail guard, rail guard fixed connection is on connecing material slope top surface, and the rail guard is the same with the slope that connects the material slope.

By adopting the scheme, the arranged protective guard can block the barrel body in the sliding process of the barrel body, so that the condition that the barrel body slides on the material receiving slope is prevented from being turned over is prevented, and the stability of the material receiving slope in use is improved.

The utility model discloses further set up to be provided with the separation subassembly between the end of material receiving end and rail guard.

Through adopting above-mentioned scheme, owing to have inertia along connecing the gliding staving of material slope mostly, the separation subassembly of setting can block to having inertial staving, makes the staving steady fall and connects material department, further improvement connect the stability in use on material slope.

The utility model discloses further set up to the separation subassembly includes the separation board, and the separation board articulates on connecing the material slope, and the separation board perpendicular to connects the material slope setting, and the end fixedly connected with separation elastic component of department of connecing the material end that the rail guard was kept away from, the one end and the group's baffle fixed connection that the rail guard was kept away from to the separation elastic component.

Through adopting above-mentioned scheme, the baffler passes through the elasticity of separation elastic component and the hardness of self, offsets to the inertia that the staving slided back has, reaches the result of use of separation subassembly, secondly, because the simple structure of group baffle and separation elastic component, the operation of being convenient for has improved the use convenience of separation subassembly.

The utility model discloses further set up as separation elastic component is the spring.

Through adopting above-mentioned scheme, the spring material has comparatively extensive scope of drawing materials, can reduce the cost that promotes the elastic component, improves the price/performance ratio to the jack-up elastic component, simultaneously, because the simple structure of spring, life is longer, can reduce the change number of times of separation elastic component, further improvement the price/performance ratio of separation elastic component.

The utility model discloses further set up to three universal wheels of fixedly connected with in staving below, three universal wheels of group are the inscribed triangle array in the staving bottom.

Through adopting above-mentioned scheme, the resistance that receives when reducing the staving and removing through the roll of self at staving slip removal's in-process of three universal wheels of group that set up to improved the speed of staving motion, simultaneously, improved the smooth degree of staving motion.

The utility model discloses further set up as inlay the increase ball that rubs that has a plurality of rubber materials on the swinging arms orientation pivoted side.

Through adopting above-mentioned scheme, the roughness that a plurality of increase friction balls that set up can improve the swinging arms side to improved the frictional force between swinging arms and the staving outer wall, made the butt state of swinging arms and staving more stable, the condition of skidding appears between preventing that swinging arms and the staving, improved the stability that the swinging arms used.

To sum up, the utility model discloses following beneficial effect has:

1. the material receiving slope is matched with the power assembly to achieve the effect of reducing the labor intensity of workers;

2. the guard rail and the blocking assembly improve the use stability of the material receiving slope.

Drawings

FIG. 1 is a background drawing;

fig. 2 is a schematic structural diagram of the present invention;

reference numerals: 1. equipment; 11. a barrel body; 2. a material receiving slope; 21. a barrel inlet end; 22. a discharge end; 3. a power assembly; 31. a powered drive member; 32. a swing lever; 321. friction increasing balls; 4. a barrier assembly; 41. a barrier plate; 42. a barrier elastic member; 5. a universal wheel; 6. a guard rail.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

A stable cotton sliver receiving barrel conversion device is shown in figure 2 and comprises equipment 1 with a blanking position for cotton sliver production, wherein a long strip-shaped receiving slope 2 which is obliquely arranged is arranged below the equipment 1, one end, close to the equipment 1, of the receiving slope 2 is the lowest end, one end, far away from the equipment 1, of the receiving slope 2 is the highest point, the lowest end of the receiving slope 2 is a receiving end, the top surface of the receiving end is level with the ground, and the other end of the receiving end is a barrel inlet end 21; long-strip-shaped protective guards 6 are arranged on two sides of the top surface of the material receiving slope 2, the protective guards 6 are fixedly connected to the top surface of the material receiving slope 2, the slopes of the protective guards 6 and the material receiving slope 2 are the same, and a blocking assembly 4 is arranged between the end, close to the material receiving end, of the protective guard 6 and the material receiving end. Cylindrical barrel bodies 11 are placed on the material receiving slopes 2, three groups of universal wheels 5 are fixedly connected below the barrel bodies 11, and the three groups of universal wheels 5 are in an inscribed triangle array at the bottom ends of the barrel bodies 11. Empty staving 11 enters into on connecing material slope 2 from advancing the staving end 21, then under the guide that connects material slope 2, slides to connecing material department, and universal wheel 5 reduces the resistance that 11 motion in-process received, and when 11 moved to connecing material department, separation subassembly 4 provided the barrier force to staving 11, made staving 11 stagnation connect the material to equipment 1 in connecing material department. The side surface of the material receiving end is provided with a power assembly 3, the power assembly 3 comprises a power driving part 31, and the power driving part 31 is a motor with a rotating shaft; the power driving part 31 is erected on the ground, the power driving part 31 is fixedly connected with a long-strip-shaped swing rod 32, one end of the swing rod 32 is fixedly connected with the power driving part 31, the other end of the swing rod is driven by the power driving part 31 to rotate above the guard rail 6 at the material receiving end, and a plurality of rubber friction increasing balls 321 are inlaid on the side face, facing the rotation, of the swing rod 32. After the barrel 11 at the material receiving end completes the material receiving task, the power driving part 31 drives the swing rod 32 to rotate, the swing rod 32 pushes the barrel 11 out from the material receiving end, the labor process of carrying the barrel 11 filled with cotton wool by workers is omitted, the new barrel 11 slides from the barrel inlet end 21 to the material receiving end to perform the material receiving process, and the effect of reducing the labor intensity of the workers is achieved.

As shown in fig. 2, the blocking assembly 4 includes a long-strip wooden blocking plate 41, the blocking plate 41 is hinged on the material receiving slope 2, the blocking plate 41 is perpendicular to the material receiving slope 2, two blocking elastic members 42 are fixedly connected to the end of the material receiving end away from the guard rail 6, the blocking elastic members 42 are springs, and one end of each blocking elastic member 42 away from the guard rail 6 is fixedly connected to a partition. The blocking elastic member 42 keeps the blocking plate 41 in a state of being perpendicular to the receiving end by the pulling force provided by the blocking plate 41, and the pulling force provided by the blocking elastic member 42 to the blocking plate 41 is greater than the impact force of the barrel 11 moving to the receiving end, so that the blocking plate 41 can stop the barrel 11 at the receiving end for receiving work.

The utility model discloses a use as follows: when the material receiving work is carried out, a worker places the empty barrel body 11 at the barrel inlet end 21, the barrel body 11 moves to the material receiving end under the action of the universal wheels 5, and the blocking plate 41 blocks the barrel body 11 through the blocking elastic piece 42, so that the barrel body 11 can be stably stopped at the material receiving end to carry out the material receiving work.

When the barrel body 11 is filled with cotton sliver, the power driving part 31 drives the barrel body 11 to move towards the direction of the blocking plate 41 through the swinging rod 32, the friction increasing ball 321 improves the friction force between the swinging rod 32 and the barrel body 11, the power provided by the swinging rod 32 to the barrel body 11 is larger than the resistance provided by the blocking plate 41, the barrel body 11 gradually presses the blocking plate 41 to move away from the material receiving end, and a new barrel body 11 repeats the previous action and stops at the material receiving end to receive the material. In conclusion, through the steps, the effect of reducing the labor intensity of workers is achieved.

The above-mentioned embodiments are merely illustrative of the present invention, and are not intended to limit the present invention, and those skilled in the art can make modifications to the embodiments without inventive contribution as required after reading the present specification, but all the embodiments are protected by patent laws and protection within the scope of the present invention.

Claims (7)

1. The utility model provides a stable form silver connects storage bucket conversion equipment, includes equipment (1), and staving (11), its characterized in that have been placed to equipment (1) below: equipment (1) below is provided with and connects material slope (2), staving (11) are placed on connecing material slope (2), it is the lower extreme to connect the one end that material slope (2) is close to equipment (1), it is the peak to connect the one end that material slope (2) kept away from equipment (1), connect material slope (2) lower extreme to connect the material end, the other end is into bucket end (21), the side that connects the material end is provided with power component (3), power component (3) include power driving piece (31), power driving piece (31) erect subaerial, power driving piece (31) fixedly connected with swinging arms (32), swinging arms (32) one end and power driving piece (31) fixed connection, the other end extends to and connects material slope (2) top.

2. The stable form silver connects storage bucket conversion equipment of claim 1, characterized by: guard rails (6) are arranged on two sides of the top surface of the material receiving slope (2), the guard rails (6) are fixedly connected to the top surface of the material receiving slope (2), and the slope of the guard rails (6) is the same as that of the material receiving slope (2).

3. The stable form silver connects storage bucket conversion equipment of claim 1, characterized by: and a blocking assembly (4) is arranged between the material receiving end and the end head of the protective guard (6).

4. The stable form silver connects storage bucket conversion equipment of claim 3, characterized by: the separation assembly (4) comprises a separation plate (41), the separation plate (41) is hinged to the material receiving slope (2), the separation plate (41) is perpendicular to the material receiving slope (2) and is arranged, the end, far away from the protective guard (6), of the material receiving end is fixedly connected with a separation elastic piece (42), and the separation elastic piece (42) is fixedly connected with the partition plate and far away from one end of the protective guard (6).

5. The stable form silver connects storage bucket conversion equipment of claim 4, characterized by: the blocking elastic piece (42) is a spring.

6. The stable form silver connects storage bucket conversion equipment of claim 1, characterized by: three groups of universal wheels (5) are fixedly connected below the barrel body (11), and the three groups of universal wheels (5) are arranged at the bottom end of the barrel body (11) in an inscribed triangle array.

7. The stable form silver connects storage bucket conversion equipment of claim 1, characterized by: and a plurality of rubber friction increasing balls (321) are embedded on the side surface of the swinging rod (32) facing to the rotation.

Images