CN213621742U - Workpiece logistics line - Google Patents

Abstract

The application discloses a workpiece logistics line, which comprises a workpiece conveying assembly, a support plate and an adjusting assembly, wherein the workpiece conveying assembly comprises a conveying belt, and the conveying belt is used for conveying workpieces; the carrier plate is arranged below the conveyor belt and is used for mounting the magnetic piece and provided with a first adjusting inclined plane; the adjusting component comprises an adjusting block, the adjusting block is provided with a second adjusting inclined plane used for bearing the first adjusting inclined plane, the adjusting block adjusts the distance between the carrier plate and the conveyor belt through the position change of the second adjusting inclined plane relative to the first adjusting inclined plane, and then the magnetic adsorption force of the magnetic part to the workpiece is changed. The workpiece logistics line can change the magnetic adsorption force on the surface of the conveyor belt according to different application scenes.

Description

Workpiece logistics line

Technical Field

The application relates to the field of logistics conveying, in particular to a workpiece logistics line.

Background

The existing part of logistics lines are provided with strong magnets at the bottoms of the belt lines for improving the friction force between a workpiece and the belt lines, and the strong magnets can provide certain magnetic adsorption force, so that the friction force between the workpiece and the belt lines is improved. However, strong magnets are strong and very difficult to install. When different magnetic forces need to be changed, the strong magnets need to be completely disassembled and replaced with new ones, which not only wastes time and labor, but also causes damage to part of the magnets.

SUMMERY OF THE UTILITY MODEL

The application provides a work piece commodity circulation line to when solving current commodity circulation line and changing different magnetic force, need dismantle whole strong magnet, change new strong magnet, not only waste time and energy, lead to the problem that partial magnet damaged moreover.

In order to solve the above technical problem, the present application provides a workpiece logistics line, including: the workpiece conveying assembly comprises a conveying belt, and the conveying belt is used for conveying workpieces; the carrier plate is arranged below the conveyor belt and is used for mounting the magnetic piece and provided with a first adjusting inclined plane; the adjusting assembly comprises an adjusting block, the adjusting block is provided with a second adjusting inclined plane used for bearing the first adjusting inclined plane, the adjusting block adjusts the distance between the carrier plate and the conveyor belt through the position change of the second adjusting inclined plane relative to the first adjusting inclined plane, and then the magnetic adsorption force of the magnetic part to the workpiece is changed.

Wherein, the adjusting part includes: an adjusting seat; the adjusting piece is installed in the adjusting seat and is connected with the adjusting block, and the adjusting piece is used for adjusting the position of the adjusting block.

The adjusting component comprises a bottom plate, and the bottom plate is used for supporting the adjusting block to move in the horizontal direction and convert the adjusting block into the movement of the carrier plate in the vertical direction through the matching of the first adjusting inclined plane and the second adjusting inclined plane.

Wherein, the support plate is equipped with the wedge groove in order to provide first regulation inclined plane, and the regulating block is right angle triangle-shaped block in order to provide the second through the face at right angle triangle-shaped block hypotenuse place and adjust the inclined plane.

The longitudinal section of the adjusting block is a right-angled triangle, the long right-angled side of the right-angled triangle is arranged on the bottom plate, the short right-angled side of the right-angled triangle is vertically arranged on the bottom plate, and the two non-right-angled angles of the right-angled triangle are respectively 30 degrees and 60 degrees.

The workpiece logistics line comprises a support, and the workpiece conveying assembly, the adjusting assembly and the carrier plate are assembled through the support; the adjusting seat is detachably arranged on the bracket.

The workpiece material line comprises connecting plates and guide plates which are symmetrically arranged, the connecting plates are symmetrically arranged on the support, the guide plates are symmetrically arranged on one side face, close to the conveyor belt, of the connecting plates, the extending directions of the connecting plates and the guide plates are the same as the extending direction of the conveyor belt, and workpieces are transmitted between the guide plates.

The workpiece conveying assembly comprises a conveying belt supporting plate, and the conveying belt supporting plate is used for supporting a conveying belt; the adjusting component comprises a guide post, the guide post penetrates through the support plate, one end of the guide post is connected with the conveyor belt support plate, and the other end of the guide post is connected with the bottom plate to guide the movement of the support plate.

The carrier plate is provided with a magnetic groove, the extending direction of the magnetic groove is the same as the extending direction of the conveyor belt, and the magnetic part is arranged in the magnetic groove.

The magnetic parts are sequentially arranged to form at least two rows of magnetic assemblies, and the magnetic parts between the adjacent magnetic assemblies are arranged in a staggered mode.

The beneficial effect of this application is: different from the situation of the prior art, the workpiece logistics line comprises a workpiece conveying assembly, a support plate and an adjusting assembly, wherein the workpiece conveying assembly comprises a conveyor belt, and the conveyor belt is used for conveying workpieces; the carrier plate is arranged below the conveyor belt and is used for mounting the magnetic piece and provided with a first adjusting inclined plane; the adjusting component comprises an adjusting block, the adjusting block is provided with a second adjusting inclined plane for bearing the first adjusting inclined plane, the adjusting block adjusts the distance between the carrier plate and the conveyor belt through the position change of the second adjusting inclined plane relative to the first adjusting inclined plane, and then the magnetic adsorption force of the magnetic part on the workpiece is changed, so that the workpiece logistics line can change the magnetic adsorption force of the surface of the conveyor belt according to different application scenes.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, it is obvious that the drawings in the following description are only some embodiments of the present application, and other drawings can be obtained by those skilled in the art without inventive efforts, wherein:

FIG. 1 is a front view of a workpiece logistics line of the present application;

FIG. 2 is a schematic cross-sectional view A-A of FIG. 1;

FIG. 3 is a schematic view of the structure of C shown in FIG. 2;

FIG. 4 is a schematic structural view of the adjustment assembly of FIG. 1;

FIG. 5 is a schematic view of the structure of B shown in FIG. 1;

FIG. 6 is a bottom view of the shim plate shown in FIG. 1;

FIG. 7 is a schematic cross-sectional view of D-D shown in FIG. 6;

FIG. 8 is a top view of the pallet shown in FIG. 1;

fig. 9 is a structural view showing the distribution of the magnetic members shown in fig. 1.

Reference numerals: 1. a workpiece transfer assembly; 11. a conveyor belt; 12. a first roller; 13. a second roller; 14. a rotating wheel; 15. a drive motor; 16. a conveyor belt support plate; 2. an adjustment assembly; 21. an adjusting block; 211. a second adjustment ramp; 22. an adjusting seat; 221. connecting holes; 23. an adjustment member; 24. a base plate; 3. a carrier plate; 31. a wedge-shaped groove; 311. a first adjustment ramp; 32. a magnetic groove; 4. a magnetic member; 5. a support; 6. a connecting plate; 7. a guide plate; 8. and a magnet cover plate.

Detailed Description

In order to make those skilled in the art better understand the technical solution of the present application, the following provides a workpiece logistics line with further details with reference to the accompanying drawings and the detailed description.

Referring to fig. 1, 2, 3 and 4, fig. 1 is a front view of a workpiece logistics line of the present application; FIG. 2 is a schematic cross-sectional view A-A of FIG. 1; FIG. 3 is a schematic view of the structure of C shown in FIG. 2; fig. 4 is a schematic view of the adjustment assembly 2 shown in fig. 1.

The workpiece logistics line in this embodiment comprises a workpiece transfer assembly 1, the workpiece transfer assembly 1 comprising a conveyor belt 11, the conveyor belt 11 being used for transporting workpieces. The workpiece has the characteristic of being adsorbed by the magnetic part 4, and for example, the workpiece can be a steel shell battery and the like. In order to ensure sufficient friction between the workpiece and the conveyor belt 11, the workpiece logistics line comprises a carrier plate 3, and a magnetic member 4 is arranged on one side of the carrier plate 3 close to the conveyor belt 11, wherein the magnetic member 4 is used for providing attraction force to the workpiece, so that the friction between the workpiece and the conveyor belt 11 is improved.

With reference to fig. 7 mentioned later, in order to change the attraction of the magnetic member 4 with respect to the workpiece, in the embodiment, the carrier plate 3 is provided with a first adjusting inclined surface 311, the workpiece logistics line includes the adjusting assembly 2, the adjusting assembly 2 includes the adjusting block 21, the adjusting block 21 is provided with a second adjusting inclined surface 211, the second adjusting inclined surface 211 is used for supporting the first adjusting inclined surface 311, the adjusting block 21 adjusts the distance between the carrier plate 3 and the conveyor belt 11 through the position change of the second adjusting inclined surface 211 with respect to the first adjusting inclined surface 311, so as to change the magnitude of the magnetic attraction of the magnetic member 4 with respect to the workpiece, thereby changing the magnitude of the magnetic attraction at the surface of the conveyor belt 11 according to different application scenarios.

The adjusting assembly 2 may be provided in one, two or more. For example, when only one adjusting element 2 is provided, the first adjusting inclined surface 311 on the adjusting block 21 cooperates with the second adjusting inclined surface 211 on one side of the carrier plate 3, and in order to prevent the carrier plate 3 from slipping off, a stop is provided on the other side of the carrier plate 3, so that the distance between the carrier plate 3 and the conveyor belt 11 can be adjusted by adjusting only one adjusting block 21.

When the adjusting assemblies 2 are two, as shown in fig. 3 and 4, two adjusting blocks 21 may be symmetrically arranged, wherein the carrier plate 3 is located on the two adjusting blocks 21, and the height of the carrier plate 3 in the vertical direction is adjusted by simultaneously adjusting the two adjusting blocks 21 to be close to or far from each other, so as to adjust the distance between the carrier plate 3 and the conveyor belt 11. The number of the adjusting components 2 may be other numbers, which are not described in detail herein, as long as the distance between the carrier plate 3 and the conveyor belt 11 can be adjusted by the adjusting block 21.

Referring to fig. 5, fig. 5 is a schematic structural diagram of B shown in fig. 1.

Specifically, with reference to fig. 2 and 4, the adjusting assembly 2 includes an adjusting seat 22 and an adjusting member 23, and the adjusting member 23 is inserted into the adjusting seat 22 and connected to the adjusting block 21. The adjusting member 23 is used for adjusting the position of the adjusting block 21 so as to push the adjusting block 21 to move, thereby adjusting the distance between the carrier plate 3 and the conveyor belt 11, and further changing the magnitude of the attraction force of the magnetic member 4 to the workpiece. Through the cooperation of the adjusting block 21 and the adjusting piece 23, the operation is simple, and the adsorption force of the magnetic piece 4 relative to the workpiece can be conveniently and quickly adjusted.

Further, the adjusting assembly 2 further comprises a bottom plate 24, and the bottom plate 24 is used for supporting the adjusting block 21, so as to support the adjusting block 21 to move in the horizontal direction and convert the movement into the movement of the carrier plate 3 in the vertical direction through the cooperation of the first adjusting inclined surface 311 and the second adjusting inclined surface 211.

Referring to fig. 6 and 7, fig. 6 is a bottom view of the pad shown in fig. 1; fig. 7 is a schematic cross-sectional view of D-D shown in fig. 6.

In particular, the carrier plate 3 is provided with a wedge-shaped groove 31, the wedge-shaped groove 31 being configured to provide a first adjustment slope 311, wherein the first adjustment slope 311 is a groove bottom of the wedge-shaped groove 31. The adjustment block 21 is a right triangle for providing a second adjustment slope 211, wherein the hypotenuse of the right triangle is the second adjustment slope 211. Through the mutual cooperation of the first adjusting inclined plane 311 on the wedge-shaped groove 31 and the second adjusting inclined plane 211 of the right-angled triangular block, not only guiding and limiting effects are provided for the movement of the carrier plate 3, but also the smoothness of the vertical direction lifting movement of the carrier plate 3 is improved, and the friction force between the two is reduced.

Since the extension length of the carrier plate 3 is the same as the extension direction of the conveyor belt 11, in order to realize stable lifting of the whole carrier plate 3, the carrier plate 3 is provided with a plurality of wedge-shaped grooves 31, and the bottom plate 24 is also provided with a plurality of adjusting blocks 21 matched with the wedge-shaped grooves 31. Wherein the number and the position of the wedge-shaped grooves 31 correspond to the number and the position of the adjusting blocks 21.

Further, referring back to fig. 3 and 4, the longitudinal section of the adjusting block 21 is a right triangle, the long right-angle side of the right triangle is disposed on the bottom plate 24, the short right-angle side of the right triangle is perpendicularly disposed on the bottom plate 24, and the two non-right angles of the right triangle are respectively 30 ° and 60 °, as shown in fig. 4, the direction indicated by the arrow a is the long right-angle side, and the direction indicated by the arrow b is the short right-angle side. Due to the fact that the graduated scale is arranged on the bottom plate 24 or the long right-angle edge, the moving distance of the adjusting block 21 and the length of the long right-angle edge of the adjusting block 21 can be obtained, and then the lifting height of the support plate 3 in the vertical direction is calculated through the pythagorean theorem and other mathematical formulas. The above specific evaluation manner is not limited herein, and the lifting height of the carrier plate 3 may be obtained by other manners, such as directly measuring with a graduated scale. The two non-right angles of the right triangle may be other angles, such as 45 °, or 60 ° and 30 °, and are not limited herein.

In one embodiment, referring back to fig. 1 and 5, the workpiece logistics line includes a support 5, the support 5 being used to mount and support the workpiece transfer assembly 1, the conditioning assembly 2 and the carrier plate 3. The adjustment assembly 2 comprises an adjustment seat 22, the adjustment seat 22 being adapted to receive an adjustment member 23. Wherein, adjust seat 22 and can dismantle in support 5, adjust the bottom of seat 22 and set up connecting hole 221, this connecting hole 221 is used for being connected with support 5. The fixing member passes through the connection hole 221 to fix the adjustment seat 22 to the bracket 5. In the actual process, the adjusting seat 22 and the bracket 5 are in the unfixed state, and after the adjusting member 23 is adjusted, the adjusting seat 22 is fixed on the bracket 5.

Referring back to fig. 3, in order to improve the conveying stability of the conveyor belt 11, the workpiece conveying assembly 1 includes a conveyor belt support plate 16, and the conveyor belt support plate 16 is used for supporting the conveyor belt 11 so as to make the conveying of the conveyor belt 11 more flat and stable.

In order to limit the carrier plate 3 to perform only vertical lifting movement, the workpiece logistics line in this embodiment includes a guide post (not shown in the figure) penetrating through the carrier plate 3, wherein one end of the guide post is connected to the carrier plate 16, and the other end of the guide post is connected to the bottom plate 24 to guide the movement of the carrier plate 3, so that the carrier plate 3 can perform only lifting movement under the guidance of the mounting post.

The number of the mounting columns is at least two or more. Because the guide post needs to penetrate through the carrier plate 3, an avoiding hole for avoiding the guide post is formed in the carrier plate 3 in advance. The number of the avoiding holes on the carrier plate 3 corresponds to the number and positions of the guide posts.

Referring back to fig. 1, in an embodiment, the workpiece material flow line includes two connecting plates 6 and two guide plates 7, wherein the two connecting plates 6 are symmetrically disposed on two sides of the bracket 5, the two guide plates 7 are respectively disposed on one side of the corresponding two connecting plates 6 close to the conveyor belt 11, and the two connecting plates 6 and the two guide plates 7 extend in the same direction as the conveyor belt 11. Between the two symmetrically arranged guide plates 7 a passage is formed for the forward transport of the work pieces in the transport direction of the conveyor belt 11, so that the work pieces are transported along a set path.

Referring to fig. 8 and 9, fig. 8 is a top view of the backing plate shown in fig. 1; fig. 9 is a structural view showing the distribution of the magnetic members shown in fig. 1.

With reference to fig. 1, in order to stably mount the magnetic member 4 in the carrier plate 3, a magnetic groove 32 is provided on a side of the carrier plate 3 facing the conveyor belt 11, wherein the magnetic groove 32 extends in the same direction as the conveyor belt 11, and the magnetic member 4 is disposed in the magnetic groove 32 for mounting the magnetic member 4. The magnetic groove 32 is arranged in a concave manner. In practice, in order to prevent the magnetic member 4 from being separated from the carrier plate 3, a magnet cover plate 8 is arranged on the carrier plate 3, so that the risk of the magnetic member 4 being separated is reduced.

Present a plurality of magnetic part 4 closely arranges in proper order along 11 directions of conveyer belt and forms one row of magnetic component, because the magnetic force of junction easily causes magnetic force inequality between the magnetic part 4 that sets up adjacently along 11 directions of conveyer belt, consequently a plurality of magnetic part 4 arranges in proper order along 11 directions of conveyer belt in this embodiment and is formed with two rows of magnetic component or more rows of magnetic component, and two adjacent rows of magnetic component crisscross settings, make two rows of magnetic component or more rows of magnetic component can reduce the magnetic force that the junction caused between the magnetic part 4 in one row of magnetic component and compensate by the magnetic part 4 in another row of magnetic component, magnetic force is more even. The magnetic material 4 may be a strong rubidium magnet or the like.

Referring back to fig. 1, the workpiece conveying assembly includes two first rollers 12, a second roller 13 and two rotating wheels 14, wherein the two first rollers 12 are respectively disposed at two ends of the bracket 5, the two rotating wheels 14 are respectively disposed between the two first rollers 12, the second roller 13 is disposed between the two rotating wheels 14, and the conveyor belt 11 is conveyed on the two first rollers 12, the second roller 13 and the two rotating wheels 14. Meanwhile, the second roller 13 is connected with the driving motor 15, and the driving motor 15 drives the second roller 13, the two rotating wheels 14 and the two first rollers 12 to rotate, so that the conveying of the conveying belt 11 is realized, and further, the conveying of the workpiece is realized.

The workpiece logistics line comprises a workpiece conveying assembly, a support plate and an adjusting assembly, wherein the workpiece conveying assembly comprises a conveyor belt, and the conveyor belt is used for conveying workpieces; the carrier plate is arranged below the conveyor belt and is used for mounting the magnetic piece and provided with a first adjusting inclined plane; the adjusting component comprises an adjusting block, the adjusting block is provided with a second adjusting inclined plane for bearing the first adjusting inclined plane, the adjusting block adjusts the distance between the carrier plate and the conveyor belt through the position change of the second adjusting inclined plane relative to the first adjusting inclined plane, and then the magnetic adsorption force of the magnetic part on the workpiece is changed, so that the workpiece logistics line can change the magnetic adsorption force of the surface of the conveyor belt according to different application scenes.

The above description is only for the purpose of illustrating embodiments of the present application and is not intended to limit the scope of the present application, and all modifications of equivalent structures and equivalent processes, which are made by the contents of the specification and the drawings of the present application or are directly or indirectly applied to other related technical fields, are also included in the scope of the present application.

Claims (10)

1. A workpiece logistics line, comprising:

the workpiece conveying assembly comprises a conveyor belt, and the conveyor belt is used for conveying workpieces;

the carrier plate is arranged below the conveyor belt and is used for mounting a magnetic part and provided with a first adjusting inclined plane;

the adjusting assembly comprises an adjusting block, the adjusting block is provided with a second adjusting inclined plane used for bearing the first adjusting inclined plane, the adjusting block adjusts the distance between the carrier plate and the conveyor belt through the position change of the first adjusting inclined plane relative to the second adjusting inclined plane, and then the magnetic adsorption force of the workpiece is changed by the magnetic part.

2. The workpiece logistics line of claim 1 wherein said adjustment assembly comprises:

an adjusting seat;

the adjusting piece is installed in the adjusting seat and connected with the adjusting block, and the adjusting piece is used for adjusting the position of the adjusting block.

3. The workpiece logistics line of claim 2 wherein said adjustment assembly comprises a base plate for holding said adjustment block to support movement of said adjustment block in a horizontal direction and translating into movement of said carrier plate in a vertical direction by engagement of said first adjustment ramp with said second adjustment ramp.

4. The workpiece flow line of claim 3, wherein the carrier plate is provided with a wedge-shaped groove to provide the first adjustment ramp, and the adjustment block is a right-angled triangular block to provide the second adjustment ramp through a face at which an oblique side of the right-angled triangular block is located.

5. The workpiece logistics line of claim 4 wherein the adjustment block has a longitudinal cross-section in the form of a right triangle having a long right-angle side disposed on the base plate and a short right-angle side disposed perpendicular to the base plate, the two non-right angles of the right triangle being 30 ° and 60 °, respectively.

6. The workpiece flow line of any of claims 2-5, wherein the workpiece flow line comprises a support through which the workpiece transport assembly, the conditioning assembly, and the carrier plate are assembled;

the adjusting seat is detachably arranged on the support.

7. The workpiece flow line of claim 6, wherein the workpiece flow line comprises symmetrically arranged connecting plates and guide plates, the connecting plates are symmetrically arranged on the bracket, the guide plates are symmetrically arranged on one side surface of the connecting plates close to the conveyor belt, the extending direction of the connecting plates and the guide plates is the same as the extending direction of the conveyor belt, and the guide plates are used for conveying workpieces.

8. The workpiece logistics line of any one of claims 3 to 5 wherein the workpiece transport assembly comprises a conveyor belt support plate for supporting the conveyor belt;

the adjusting component comprises a guide post, the guide post penetrates through the carrier plate, one end of the guide post is connected with the conveyor belt supporting plate, and the other end of the guide post is connected with the bottom plate to guide the movement of the carrier plate.

9. The workpiece logistics line of any one of claims 1 to 5 wherein the carrier plate is provided with magnetic grooves, the magnetic grooves extend in the same direction as the conveyor belt, and the magnetic members are disposed within the magnetic grooves.

10. The workpiece flow line of claim 9, wherein the magnetic elements are arranged in a sequence to form at least two rows of magnetic elements, the magnetic elements between adjacent magnetic elements being staggered.

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