CN113023287A - Material transferring method for bolt production line - Google Patents

Abstract

The invention discloses a material transferring method for a bolt production line, which comprises the following steps of 1) driving a transfer trolley into a space formed at the bottom of a frame body, lifting the frame body, and conveying the frame body to a first conveying belt outlet in the previous working procedure, so that the first conveying belt outlet is positioned above a material frame which is vertically and slidably arranged in the frame body, and collecting materials into the material frame through a first conveying belt; 2) after the aggregate is finished, the frame body loaded with the materials is supported by a transfer trolley and is transported to the inlet position of a second conveyor belt in a feeding mechanism in the next procedure; 3) the opening arranged on one side of the material frame is aligned with the second conveyor belt through the transfer trolley, the material frame is jacked up through the jacking cylinder preset on the ground, so that the opening is gradually opened from top to bottom, and the material slides onto the second conveyor belt from the bearing plate arranged in an inclined mode to finish the transfer operation.

Description

Material transferring method for bolt production line

Technical Field

The invention relates to a material transferring method for a bolt production line.

Background

The processing of work piece usually involves a plurality of processes, and the business turn over material beat of every process is also inequality, if adopt the conveyer belt directly to link, on the one hand the distance overlength between each process can influence the conveying effect, on the other hand because the business turn over material beat of every process is also inequality, also can't directly link through the conveyer belt.

Therefore, how to overcome the above problems and improve the material transportation effect is a problem to be solved at present.

Disclosure of Invention

The invention aims to provide a bolt production line material transferring method, which transfers a frame body and a material frame in a transferring frame as a whole, transfers the material to a feeding mechanism of the next process flow without using a conveyor belt for direct connection, has no problem of poor direct connection and transmission effect of the conveyor belt, can adjust the transferring speed according to the feeding and discharging rhythm of each process, has good controllability, is very convenient for loading and unloading the material frame, and can also adjust the unloading speed.

In order to achieve the purpose, the invention provides a material transferring method for a bolt production line, which comprises the following steps: 1) driving the transfer trolley into a space formed at the bottom of the frame body, lifting the frame body, and conveying the frame body to a first conveyor belt outlet in the previous process, so that the first conveyor belt outlet is positioned above a material frame which is vertically and slidably arranged in the frame body, and collecting materials into the material frame through the first conveyor belt; 2) after the aggregate is finished, the frame body loaded with the materials is supported by a transfer trolley and is transported to the inlet position of a second conveyor belt in a feeding mechanism in the next procedure; 3) the opening arranged on one side of the material frame is aligned with the second conveyor belt through the transfer trolley, and the material frame is jacked up through the jacking cylinder preset on the ground, so that the opening is gradually opened from top to bottom, and the material slides onto the second conveyor belt from the obliquely arranged bearing plate to finish the transfer operation.

Preferably, in step 2), the frame body loaded with the materials is lifted up and transported to a turnover area for storage by a transfer trolley after the completion of the aggregation, and then the frame body loaded with the materials is lifted up and transported to an inlet position of a second conveyor belt in a loading mechanism in the next process by the transfer trolley.

Preferably, a side baffle attached to the opening is arranged on the same side of the opening on the frame body, and a discharging window is arranged above the side baffle on the frame body; in the step 3), the jacking cylinder jacks up the material frame upwards, so that the opening is close to the position of the discharging window, and the material slides down from the discharging window.

Preferably, a sliding plate is fixedly connected to the outer side of the upper end of the side baffle plate, and the sliding plate extends obliquely downwards from one end close to the side baffle plate to one end far away from the side baffle plate; in step 3), the material slides down onto the second conveyor belt via the slide.

Preferably, the inclination of the sliding plate is not less than the inclination of the bearing plate; in step 3), the acceleration of the material when the sliding plate falls is adjusted by adjusting the inclination of the sliding plate.

Preferably, a plurality of reinforcing ribs are fixedly connected between the sliding plate and the side baffle.

Preferably, the frame body includes: the upper ends of two adjacent upright columns are connected through a first cross beam, and the middle lower parts of the two adjacent upright columns are connected through a second cross beam; the first cross beams are located on the same plane, the second cross beams are located on the same plane, slide ways are arranged on the side faces, facing each other, of the two upright columns in the two side faces, adjacent to the side baffle, of the frame body, and a plurality of idler wheels matched with the slide ways are arranged on the side faces of the material frame; in the step 1), the material frame is positioned in a slide way between the first cross beam and the second cross beam and slides to the lowest end under the action of gravity, and in the step 3), the material frame slides to the topmost end in the slide way between the first cross beam and the second cross beam through the jacking cylinder.

Preferably, the bottom surface of the material frame is provided with at least two parallel carrier beams, and in step 1), when the material frame slides downwards to the lowest end, two ends of the carrier beams are located on two second cross beams which are oppositely arranged; in the step 3), a top plate arranged at the top of the jacking cylinder is supported between any two bearing beams.

Preferably, a plurality of wheel shafts are fixedly connected to the side surface of the material frame, and the roller is mounted on the wheel shafts through bearings; in the step 1) and the step 3), when the material frame slides up and down, the roller rotates by taking the corresponding wheel shaft as a shaft.

Preferably, the bottom of each upright post is fixedly connected with a flat base plate.

According to the technical scheme, the material transferring method for the bolt production line has the following beneficial effects: according to the bolt production line material transferring method, the frame body and the material frame in the transferring frame are transferred as a whole, the material is conveyed to the feeding mechanism of the next process flow without directly connecting the conveying belt, the problem that the conveying belt is directly connected and the conveying effect is poor is solved, in addition, the transferring speed can be adjusted according to the feeding and discharging beats of each process through the transferring method, the controllability is good, the loading and unloading of the material frame are very convenient, and the unloading speed can be adjusted.

Additional features and advantages of the invention will be set forth in the detailed description which follows.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic structural diagram of a transferring effect of a material transferring method in a bolt production line;

FIG. 2 is a schematic view of a preferred embodiment in the unloading state of step 3);

FIG. 3 is a schematic view of a preferred embodiment of step 1) in the aggregate state;

FIG. 4 is a diagram of a preferred embodiment of the jacking cylinder after jacking the material frame;

FIG. 5 is a schematic structural view of a preferred embodiment of the transfer box;

FIG. 6 is a state view of a preferred embodiment when the opening in the material frame is outside the side dam.

Description of the reference numerals

1 frame 2 first beam

3 second beam 4 carrier beam

5 material frame 6 side baffle

7 bearing plate 8 slide

9 gyro wheel 10 jacking cylinders

11 reinforcing rib 12 top plate

13 window 14 transfer car (buggy) of unloading

Detailed Description

The following detailed description of embodiments of the invention refers to the accompanying drawings. It should be understood that the detailed description and specific examples, while indicating the present invention, are given by way of illustration and explanation only, not limitation.

In the present invention, unless otherwise specified, directional words included in terms such as "upper, lower, left, right, front, rear, inner, and outer" and the like merely represent the directions of the terms in a normal use state or are colloquially known by those skilled in the art, and should not be construed as limiting the terms.

Referring to fig. 1-6, the material transferring method for the bolt production line comprises the following steps: 1, driving a transfer trolley 14 into a space formed at the bottom of a frame body 1, lifting the frame body 1, and transporting the frame body 1 to a first conveyor belt outlet position in the previous working procedure, so that the first conveyor belt outlet is positioned above a material frame 5 which is vertically and slidably arranged in the frame body 1, and collecting materials into the material frame 5 through a first conveyor belt; 2 after the aggregate is finished, the frame body 1 carrying the materials is lifted up by a transfer trolley 14 and is transported to the inlet position of a second conveyor belt in a feeding mechanism in the next procedure; 3 aligning an opening arranged on one side of the material frame 5 with the second conveyor belt through a transfer trolley 14, jacking the material frame 5 through a jacking cylinder 10 preset on the ground, so that the opening is gradually opened from top to bottom, and the material slides onto the second conveyor belt from the obliquely arranged bearing plate 7 to finish the transfer operation.

Through the implementation of the technical scheme, the bolt production line material transferring method transfers the frame body 1 and the material frame 5 in the transferring frame as a whole, the material is conveyed to the feeding mechanism of the next process flow without directly connecting a conveyor belt, the problem of poor conveying effect caused by directly connecting the conveyor belt is avoided, in addition, the transferring speed can be adjusted according to the feeding and discharging beats of each process through the transferring method, the controllability is good, the loading and unloading of the material frame 5 are very convenient, and the unloading speed can be adjusted. In this embodiment, the transport vehicle 14 may use an AGV.

In this embodiment, in order to further adjust the influence due to the timing of feeding and discharging between the processes, it is preferable that in step 2, the frame 1 loaded with the material is lifted up and transported to the turnaround area for storage by the transfer vehicle 14 after completion of the collection, and the frame 1 loaded with the material is lifted up and transported to the entrance position of the second conveyor belt in the feeding mechanism in the next process by the transfer vehicle 14. When the last process is too fast in discharging, the materials can be firstly transported to a turnover area for storage.

In this embodiment, in order to further provide a structure that is matched with the opening and closing of the opening, it is preferable that a side baffle 6 attached to the opening is provided on the same side of the opening on the frame body 1, and a discharge window 13 is provided on the frame body 1 above the side baffle 6; in step 3, the jacking cylinder 10 jacks up the material frame 5, so that the opening is close to the position of the discharging window 13, and the material slides down from the discharging window 13. When the material frame 5 is positioned at the bottom, the side baffle 6 blocks the opening to close the opening, and when the material frame 5 is positioned at the top, the opening is opened to start discharging.

In this embodiment, for facilitating the discharging, preferably, a sliding plate 8 is fixedly connected to the outer side of the upper end of the side barrier 6, and the sliding plate 8 extends obliquely downward from the end close to the side barrier 6 to the end far away from the side barrier 6; in step 3, the material slides down the slide 8 onto a second conveyor belt.

In this embodiment, preferably, the inclination of the slide plate 8 is not less than the inclination of the carrier plate 7; the acceleration of the material as the slide 8 falls is adjusted in step 3 by adjusting the inclination of the slide 8. Of course, the blanking speed can also be adjusted by adjusting the speed of the upper material pushing frame 5, and when the ascending speed of the material pushing frame 5 increases, the lateral pushing acceleration of the bearing plate 7 increases, thereby increasing the blanking speed.

In this embodiment, in order to increase the supporting strength of the slide plate 8, it is preferable that a plurality of ribs 11 are fixedly connected between the slide plate 8 and the side guard 6.

In this embodiment, in order to further provide a frame 1 structure, it is preferable that the frame 1 includes: the upper ends of two adjacent upright columns are connected through a first cross beam 2, and the middle lower parts of the two adjacent upright columns are connected through a second cross beam 3; the first cross beams 2 are located on the same plane, the second cross beams 3 are located on the same plane, slide ways are arranged on the side faces, facing each other, of two upright columns in two side faces, adjacent to the side baffle 6, of the frame body 1, and a plurality of rollers 9 matched with the slide ways are arranged on the side faces of the material frame 5; in the step 1, the material frame 5 is positioned in a slide way between the first cross beam 2 and the second cross beam 3 and slides to the lowest end under the action of gravity, and in the step 3, the material frame 5 slides to the topmost end in the slide way between the first cross beam 2 and the second cross beam 3 through the jacking cylinder 10. First crossbeam 2 and second crossbeam 3 play firm effect, and first crossbeam 2 and second crossbeam 3 have still played spacing effect simultaneously for gyro wheel 9 can only be located and slide between first crossbeam 2 and the second crossbeam 3, avoids droing, and the slide can adopt groove structure, and gyro wheel 9 can be located the recess and rolls.

In this embodiment, in order to avoid the bottom surface of the material frame 5 from directly contacting and colliding with the second cross beam 3 to damage the material frame 5, preferably, the bottom surface of the material frame 5 is provided with at least two mutually parallel bearing beams 4, and in step 1, when the material frame 5 slides downwards to the lowest end, two ends of the bearing beams 4 are located on the two oppositely arranged second cross beams 3; in step 3, the top plate 12 provided on the top of the jacking cylinder 10 is supported between any two load-bearing beams 4. Of course, the bottom surface of the load beam 4 may also be provided with a cushioning means, such as a rubber pad, to reduce impact damage.

In this embodiment, in order to further provide a mounting manner of the roller 9, preferably, a plurality of wheel shafts are fixedly connected to the side surface of the material frame 5, and the roller 9 is mounted on the wheel shafts through bearings; in step 1 and step 3, when the material frame 5 slides up and down, the roller 9 rotates with the corresponding wheel axle as an axis. In this embodiment, four rollers 9 are respectively arranged on two side surfaces of the material frame 5 adjacent to the side baffle 6, and each two rollers 9 are positioned in the same slide way to slide.

In this embodiment, in order to reduce the damage of the columns to the ground, preferably, a flat pad is fixed to the bottom of each column. Of course, the bottom surface of the flat backing plate can also be provided with a buffer mechanism, such as a rubber pad.

The preferred embodiments of the present invention have been described in detail with reference to the accompanying drawings, however, the present invention is not limited to the specific details of the above embodiments, and various simple modifications can be made to the technical solution of the present invention within the technical idea of the present invention, and these simple modifications are within the protective scope of the present invention.

It should be noted that the various technical features described in the above embodiments can be combined in any suitable manner without contradiction, and the invention is not described in any way for the possible combinations in order to avoid unnecessary repetition.

In addition, any combination of the various embodiments of the present invention is also possible, and the same should be considered as the disclosure of the present invention as long as it does not depart from the spirit of the present invention.

Claims (10)

1. The bolt production line material transferring method is characterized by comprising the following steps:

1) driving a transfer trolley (14) into a space formed at the bottom of a frame body (1), lifting the frame body (1), and transporting the frame body (1) to a first conveyor belt outlet position in the previous working procedure, so that the first conveyor belt outlet is positioned above a material frame (5) which is vertically and slidably arranged in the frame body (1), and collecting materials into the material frame (5) through a first conveyor belt;

2) after the aggregate is finished, the frame body (1) loaded with the materials is lifted by a transfer trolley (14) and is transported to the inlet position of a second conveyor belt in a loading mechanism in the next procedure;

3) an opening arranged on one side of the material frame (5) is aligned with the second conveyor belt through a transfer trolley (14), the material frame (5) is jacked up through a jacking cylinder (10) preset on the ground, so that the opening is gradually opened from top to bottom, and materials slide onto the second conveyor belt from the obliquely arranged bearing plate (7) to finish the transferring operation.

2. The material transfer method for the bolt production line according to claim 1, characterized in that in step 2), the frame body (1) loaded with the material is lifted up and transported to the turnover area for storage by the transfer trolley (14) after the completion of the aggregate, and the frame body (1) loaded with the material is lifted up and transported to the inlet position of the second conveyor belt in the loading mechanism in the next process by the transfer trolley (14).

3. The material transferring method of the bolt production line according to claim 1, characterized in that a side baffle (6) attached to the opening is arranged on the same side of the opening on the frame body (1), and a discharging window (13) is arranged above the side baffle (6) on the frame body (1);

in the step 3), the jacking cylinder (10) jacks up the material frame (5) upwards, so that the opening is close to the position of the discharging window (13), and the material slides down from the discharging window (13).

4. The material transferring method for the bolt production line according to claim 3, characterized in that a sliding plate (8) is fixedly connected to the outer side of the upper end of the side baffle (6), and the sliding plate (8) extends obliquely downwards from one end close to the side baffle (6) to one end far away from the side baffle (6);

in step 3), the material slides down onto the second conveyor belt via the slide (8).

5. The method for transporting materials in a bolt production line according to claim 4, characterized in that the inclination of the sliding plate (8) is not less than the inclination of the carrying plate (7);

in the step 3), the acceleration of the material when the sliding plate (8) falls is adjusted by adjusting the inclination of the sliding plate (8).

6. The method for transferring materials in the bolt production line according to claim 5, wherein a plurality of reinforcing ribs (11) are fixedly connected between the sliding plate (8) and the side baffle plate (6).

7. The bolt production line material transfer method according to any one of claims 1-6, wherein the frame body (1) comprises: the upper ends of two adjacent upright columns are connected through a first cross beam (2), and the middle lower parts of the two adjacent upright columns are connected through a second cross beam (3);

the first cross beams (2) are located on the same plane, the second cross beams (3) are located on the same plane, slide ways are arranged on the side faces, facing each other, of two upright columns in two side faces, adjacent to the side baffle (6), of the frame body (1), and a plurality of rollers (9) matched with the slide ways are arranged on the side faces of the material frame (5);

in the step 1), the material frame (5) is positioned in a slide way between the first cross beam (2) and the second cross beam (3) and slides to the lowest end under the action of gravity, and in the step 3), the material frame (5) slides to the topmost end in the slide way between the first cross beam (2) and the second cross beam (3) through the jacking cylinder (10).

8. The material transferring method for the bolt production line according to claim 7, characterized in that the bottom surface of the material frame (5) is provided with at least two mutually parallel bearing beams (4), and in step 1), when the material frame (5) slides downwards to the lowest end, the two ends of the bearing beams (4) are located on the two second cross beams (3) which are oppositely arranged;

in the step 3), a top plate (12) arranged at the top of the jacking cylinder (10) is supported between any two load-bearing beams (4).

9. The material transferring method for the bolt production line according to claim 7, wherein a plurality of wheel shafts are fixedly connected to the side surface of the material frame (5), and the rollers (9) are mounted on the wheel shafts through bearings;

in the steps 1) and 3), when the material frame (5) slides up and down, the roller (9) rotates by taking the corresponding wheel axle as an axis.

10. The method for transferring materials in a bolt production line according to claim 7, wherein a flat backing plate is fixedly connected to the bottom of each upright.

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