CN218753172U - Bearing and transferring mechanism for bearing cut linear materials - Google Patents

Abstract

The utility model discloses a accept bearing transportation mechanism of linear material after tailorring, mounting bracket and mounting panel on locating the support, the mounting bracket below is provided with the conveyer belt, the mounting bracket both sides are fixed with the slide rail respectively, two slidable mounting has the removal seat between the slide rail, it is fixed with the stock guide to remove seat one side. The utility model discloses in, the device can catch the linear granule after cutting through a plurality of pipes, driving the pipe through automatically controlled guide rail and removing, can arrange the interior granule material of pipe into in the guide hole of stock guide, the rethread stock guide hole can leak to the trapezoidal hole of array board, need not artifical manual range material, high transfer efficiency, arrange full automation, and when through the suction valve operation, it can make the steady card of its trapezoidal downthehole material granule catch to produce suction in the gas pocket, the effectual not hard up condition that appears taking place at the in-process of carrying of preventing.

Description

Bearing transfer mechanism for bearing cut linear materials

Technical Field

The utility model relates to a linear material transfer device technical field especially relates to a accept bearing transport mechanism of linear material after tailorring.

Background

The linear materials are divided into two types of conducting materials and non-conducting materials, the linear conducting materials can be divided into metal conducting materials and metal coating conducting materials, common metal conducting materials can be divided into four types of metal elements, alloys (copper alloys, aluminum alloys and the like), composite metals and conducting materials which are not conducting and have other special purposes, the linear conducting materials are required to be cut into different sizes through cutting equipment in the processing process, the linear conducting materials are cut into material particles, then the material particles are stabilized through conveying equipment, the end faces of the material particles face upwards to be conveyed, and the material particles are conveyed to other linear material production process equipment to be processed.

Current linear electrically conductive material transfer apparatus is the linear material after will cutting off usually, arranges on the plate body of seting up the hole, makes its joint arrange the transportation in the hole to make the terminal surface of material up simultaneously, but need the staff manual to cut off the material and arrange the operation, work load is very big, does not possess the function of high-efficient range material, and the material appears becoming flexible easily in the transportation simultaneously.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving current linear electrically conductive material transfer apparatus, need the staff manual to cut off the material and arrange the operation, work load is very big, does not possess the high-efficient function of arranging the material, and the material appears not hard up shortcoming in the transportation easily simultaneously.

In order to realize the purpose, the utility model adopts the following technical scheme:

a bearing and transferring mechanism for bearing cut linear materials comprises a mounting frame and a mounting plate, wherein the mounting frame and the mounting plate are arranged on a support, a conveying belt is arranged below the mounting frame, slide rails are fixed to two sides of the mounting frame respectively, a moving seat is slidably mounted between the two slide rails, a material guide plate is fixed to one side of the moving seat, material guide holes are formed in the material guide plate, air cylinders are fixed to two sides of the mounting frame respectively, lifting plates are fixed to telescopic ends of the air cylinders, and ejector pins are fixed to lower end faces of the lifting plates;

an electric control guide rail is arranged on the surface of the mounting plate, a connecting frame is fixed at the moving end of the electric control guide rail, and a guide pipe is fixed at one end of the connecting frame;

the air suction valve is installed to the conveyer belt inner chamber, the conveyer belt removes the end and is fixed with the array subassembly, the array subassembly includes the array board, the array board both sides are fixed with the frame, a plurality of trapezoidal holes have been seted up to the array board up end, the communicating gas pocket with trapezoidal hole has been seted up to the terminal surface under the array board.

As a further description of the above technical solution:

the thimble is located the guide hole top, the thimble passes through lifter plate and cylinder constitution liftable structure.

As a further description of the above technical solution:

the output end of the guide pipe is arranged above the material guide plate and used for feeding the linear materials into the material guide holes.

As a further description of the above technical solution:

the trapezoidal hole is arranged below the material guide hole and used for arranging and clamping linear materials.

As a further description of the above technical solution:

the air hole is connected with the air suction end of the air suction valve.

As a further description of the above technical solution:

the frame is arranged at the moving end of the conveying belt and used for driving the conveying belt to move.

To sum up, owing to adopted above-mentioned technical scheme, the beneficial effects of the utility model are that:

the utility model discloses in, the device can catch the linear granule after cutting through a plurality of pipes, the pipe is being driven through automatically controlled guide rail and is removing, can be with in the pipe granule material arrange into the guide hole of stock guide, rethread stock guide hole can leak to the trapezoidal downthehole of array board, need not artifical manual range material, the transfer efficiency is high, arrange full automation, and when through the suction valve operation, produce suction in the gas pocket and can make its trapezoidal downthehole material granule steady block catch, the effectual not hard up condition that appears taking place at the in-process of carrying of preventing.

Drawings

Fig. 1 is a schematic view of a supporting and transferring mechanism for receiving cut linear materials according to the present invention;

FIG. 2 is a schematic structural view of the conveyor belt of the present invention viewed from above;

FIG. 3 is a schematic structural diagram of the array module according to the present invention;

fig. 4 is a schematic structural view of a cross section of the array plate according to the present invention.

Illustration of the drawings:

1. a mounting frame; 2. mounting a plate; 3. a slide rail; 4. a movable seat; 5. a material guide plate; 6. a material guide hole; 7. an electrically controlled guide rail; 8. a connecting frame; 9. a conduit; 10. a cylinder; 11. a lifting plate; 12. a thimble; 13. a conveyor belt; 14. an air intake valve; 15. an array component; 1501. an array plate; 1502. a frame; 1503. a trapezoidal hole; 1504. and (4) air holes.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art without making creative efforts belong to the protection scope of the present invention.

Referring to fig. 1-4, a bearing and transferring mechanism for bearing a cut linear material comprises a mounting frame 1 and a mounting plate 2 which are arranged on a support, a conveying belt 13 is arranged below the mounting frame 1, slide rails 3 are respectively fixed on two sides of the mounting frame 1, a moving seat 4 is slidably mounted between the two slide rails 3, a material guide plate 5 is fixed on one side of the moving seat 4, a material guide hole 6 is formed in the material guide plate 5, cylinders 10 are respectively fixed on two sides of the mounting frame 1, a lifting plate 11 is fixed on a telescopic end of each cylinder 10, and thimbles 12 are fixed on the lower end face of each lifting plate 11;

an electric control guide rail 7 is arranged on the surface of the mounting plate 2, a connecting frame 8 is fixed at the moving end of the electric control guide rail 7, and a guide pipe 9 is fixed at one end of the connecting frame 8;

an air suction valve 14 is installed in an inner cavity of the conveying belt 13, an array assembly 15 is fixed at the moving end of the conveying belt 13, the array assembly 15 comprises an array plate 1501, frames 1502 are fixed at two sides of the array plate 1501, a plurality of trapezoidal holes 1503 are formed in the upper end face of the array plate 1501, and air holes 1504 communicated with the trapezoidal holes 1503 are formed in the lower end face of the array plate 1501;

ten guide pipes 9 are arranged, the distance between every two guide pipes 9 is three times that of the corresponding guide hole 6, and the number of the guide holes 6 is the same as that of the row of trapezoidal holes 1503, so that after the guide pipes 9 are fed for one time, the guide pipes 9 are shifted to one side by the distance between every two guide holes 6, so that secondary feeding can be performed, and then the guide pipes 9 are shifted by the distance between every two guide holes 6, so that tertiary feeding can be performed, and the purpose of feeding the materials in the array of the trapezoidal holes 1503 in the first row can be achieved by the tertiary feeding of the guide pipes 9;

the electric control guide rail 7 can drive the connecting frame 8 and the guide pipe 9 to move, the guide pipe 9 is moved to the position above the material guide holes 6, particle materials fall into the material guide holes 6 from the lower opening end of the guide pipe 9, the lower end face of the interior of the material guide holes 6 is attached to the surface of the array plate 1501, holes of the material guide holes 6 are opposite to the trapezoidal holes 1503, so that the particle materials in the material guide holes 6 fall into the trapezoidal holes 1503, at the moment, the suction valves 14 work, the air holes 1504 of the suction valves 14 are oppositely arranged, suction force is generated in the air holes 1504, the particle materials in the trapezoidal holes 1503 communicated with the air holes 1504 are sucked and clamped on the inner walls of the trapezoidal holes 1503, the lifting plate 11 is pulled by the telescopic ends of the air cylinders 10 to move downwards, the ejector pins 12 are driven to be inserted into the holes of the material guide holes 6, whether the detected particle materials are completely separated from the holes of the material guide holes 6, and the particle materials can be leveled in the trapezoidal holes 1503 of the array plate 1501; the array plate 1501 is driven by the conveyer belt 13 to move, so that the second row of trapezoidal holes 1503 of the array plate 1501 are arranged below the holes of the material guide holes 6, and secondary array can be performed.

Furthermore, the thimble 12 is arranged above the material guiding hole 6, the thimble 12 forms a lifting structure with the cylinder 10 through the lifting plate 11, the lifting plate 11 is pulled to move downwards through the telescopic end of the cylinder 10, the thimble 12 is driven to be inserted into the hole of the material guiding hole 6, so that the detection result is that whether the particle materials are completely separated from the hole of the material guiding hole 6, and the particle materials can be leveled in the trapezoid hole 1503 of the array plate 1501.

Further, the output end of the conduit 9 is arranged above the material guide plate 5, and is used for feeding linear materials into the material guide holes 6, and the materials in the conduit 9 can be fed into the material guide holes 6.

Further, trapezoidal hole 1503 is arranged below material guide hole 6 and used for arranging and clamping linear materials, and the materials in material guide hole 6 can be sent to trapezoidal hole 1503.

Further, the air hole 1504 is connected to the air intake end of the air intake valve 14, and the air intake valve 14 operates to face the air hole 1504 of the air intake valve 14, thereby generating suction in the air hole 1504.

Further, the frame 1502 is disposed at the moving end of the conveyer 13, and is used for driving the conveyer 13 to move, and the array plate 1501 with the material is sent to the next process through the conveyer 13.

The working principle is as follows: when the device is used, firstly, the guide tube 9 is arranged below the linear material cutting knife, so that the cut granular linear materials fall into the guide tube 9 arranged below, the electric control guide rail 7 can drive the connecting frame 8 and the guide tube 9 to move, the guide tube 9 is moved to the position above the material guide hole 6, the granular materials fall into the material guide hole 6 from the opening end below the guide tube 9, the lower end face in the material guide hole 6 is attached to the surface of the array plate 1501, the hole of the material guide hole 6 is opposite to the trapezoidal hole 1503, so that the granular materials in the material guide hole 6 fall into the trapezoidal hole 1504, at the moment, the suction valve 14 is operated, the air hole 1504 of the suction valve 14 is oppositely arranged, so that suction force is generated in the air hole, the granular materials in the trapezoidal hole 1503 communicated with the air hole 1504 are sucked and clamped on the inner wall of the trapezoidal hole 1503, the lifting plate 11 is pulled by the telescopic end of the air cylinder 10 to move downwards, the ejector pin 12 is driven to be in the hole of the material guide hole 6, so that whether the granular materials are completely separated from the material guide hole 6 is detected, and the granular materials can be leveled in the trapezoidal hole 1501; driving array plate 1501 through conveyer belt 13 and removing, making the second row trapezoidal hole 1503 of its array plate 1501 arrange the hole below of stock guide 6 in, repeat above-mentioned operation again, it is full until the material arrangement in trapezoidal hole 1503, will be equipped with the array plate 1501 of material through conveyer belt 13 and send to next process, just so accomplished the utility model discloses a theory of operation.

Above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the design of the present invention, equivalent replacement or change should be covered within the protection scope of the present invention.

Claims (6)

1. A bearing and transferring mechanism for bearing cut linear materials comprises a mounting frame (1) and a mounting plate (2) which are arranged on a support, and is characterized in that a conveying belt (13) is arranged below the mounting frame (1), slide rails (3) are respectively fixed on two sides of the mounting frame (1), a moving seat (4) is slidably mounted between the two slide rails (3), a material guide plate (5) is fixed on one side of the moving seat (4), material guide holes (6) are formed in the material guide plate (5), air cylinders (10) are respectively fixed on two sides of the mounting frame (1), a lifting plate (11) is fixed on the telescopic end of each air cylinder (10), and thimbles (12) are fixed on the lower end face of each lifting plate (11);

an electric control guide rail (7) is mounted on the surface of the mounting plate (2), a connecting frame (8) is fixed at the moving end of the electric control guide rail (7), and a guide pipe (9) is fixed at one end of the connecting frame (8);

air suction valve (14) are installed to conveyer belt (13) inner chamber, conveyer belt (13) removal end is fixed with array subassembly (15), array subassembly (15) are including array board (1501), array board (1501) both sides are fixed with frame (1502), a plurality of trapezoidal holes (1503) have been seted up to array board (1501) up end, communicating gas pocket (1504) with trapezoidal hole (1503) have been seted up to array board (1501) lower terminal surface.

2. The supporting and transferring mechanism for receiving the cut linear materials according to claim 1, wherein the thimble (12) is disposed above the material guiding hole (6), and the thimble (12) and the cylinder (10) form a lifting structure through the lifting plate (11).

3. The mechanism for supporting and transferring trimmed linear materials as claimed in claim 1, wherein the output end of the conduit (9) is arranged above the material guiding plate (5) for feeding the linear materials into the material guiding hole (6).

4. The mechanism for supporting and transferring trimmed linear materials as claimed in claim 1, wherein the trapezoidal hole (1503) is arranged below the material guiding hole (6) for arranging and clamping the linear materials.

5. The mechanism of claim 1, wherein the air hole (1504) is connected to the suction end of the suction valve (14).

6. The support transfer mechanism for linear cut materials in accordance with claim 1, wherein the frame (1502) is disposed at the moving end of the conveyor belt (13) for moving the conveyor belt (13).

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