CN211762659U - A moving worktable for silicon rod evolution - Google Patents

Abstract

The utility model relates to a moving table for silicon rod evolution, including a supporting bench, a supporting bench is equipped with material loading district and cutting district along silicon rod direction of delivery on. The silicon rod fixing part comprises a flaw-piece supporting table and a silicon rod positioning table arranged in the middle of the flaw-piece supporting table. The utility model discloses a rationally exchange material loading district and cutting district when silicon rod evolution, save the evolution time, improve evolution efficiency.

Description

A moving worktable for silicon rod evolution

Technical Field

The utility model belongs to the technical field of silicon rod processing, specifically speaking relates to a moving workbench for silicon rod evolution.

Background

Crystalline silicon is the main raw material of solar cell panel, and crystalline silicon need cut off and the crystalline silicon thin slice of could making use through processes such as section, and to current equipment, when the silicon rod evolution, the material loading all is the manual work and carries out the material loading at every turn, can only go up 1 silicon rod once, and efficiency is very low, influences evolution efficiency.

SUMMERY OF THE UTILITY MODEL

Aiming at various defects of the prior art, the inventor researches and designs a moving workbench for silicon rod squaring in long-term practice.

In order to achieve the above object, the utility model provides a following technical scheme:

the utility model provides a moving table for silicon rod evolution, includes the brace table, is equipped with material loading district and cutting area on the brace table along silicon rod direction of delivery. The silicon rod fixing part comprises a lifting flaw-piece supporting table and a silicon rod positioning table arranged in the middle of the flaw-piece supporting table.

Further, the driving assembly comprises a ball screw connected with the output end of the driving motor and guide rails arranged on two sides of the ball screw.

Further, a screw nut on the ball screw is connected with the bottom of the support table.

Further, the feeding area and the cutting area are both provided with two groups of silicon rod fixing parts.

Further, the silicon rod positioning table comprises a positioning block for supporting the silicon rod, a locking block arranged below the positioning block and a locking cylinder arranged below the locking block.

Furthermore, a floating spherical surface is arranged at the center of the piston of the locking cylinder, and the locking block is arranged on the floating spherical surface and the periphery of the piston end of the locking cylinder.

Furthermore, the lower surface of the locking block is provided with a groove for accommodating the floating spherical surface, and the floating spherical surface is abutted to the concave surface of the groove.

Furthermore, the positioning block is in clearance fit with the locking block through a connecting screw; the top of the floating spherical surface is connected with the positioning block through a connecting block.

Furthermore, an end cover is arranged on the periphery of the lower end of the locking cylinder.

Furthermore, the bottom of the locking cylinder is also provided with a supporting block.

The utility model has the advantages that:

through the setting of brace table material loading district and cutting area, rationally exchange material loading district and cutting area when the silicon rod evolution, when cutting district silicon rod when the evolution, material loading district department also can carry out unloading and material loading simultaneously, supply new silicon rod of waiting to cut, it can in time remove the silicon rod of evolution to wait that the cutting district has operated, supply and wait to evolve the silicon rod, once can material loading many silicon rods, and can in time supply new round rod and put in the material loading district when the silicon rod evolution, save material loading unloading and evolution time, improve evolution efficiency.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

fig. 2 is a sectional view of the silicon rod positioning table of the present invention.

In the drawings: 10-supporting table, 20-silicon rod positioning table, 30-flaw-piece supporting table, 40-driving motor, 50-ball screw, 60-guide rail, 21-positioning block, 22-locking block, 23-locking cylinder, 24-supporting block, 25-floating spherical surface, 26-connecting block and 27-end cover.

Detailed Description

In order to make the technical solution of the present invention better understood by those skilled in the art, the following description is given with reference to the accompanying drawings of the present invention for clear and complete description of the technical solution of the present invention. Based on the embodiments in the present application, other similar embodiments obtained by persons of ordinary skill in the art without any creative effort shall fall within the protection scope of the present application. In addition, directional terms such as "upper", "lower", "left", "right", etc. in the following embodiments are directions with reference to the drawings only, and thus, the directional terms are used for the purpose of illustrating the present invention and not for the purpose of limiting the same.

The present invention will be further described with reference to the accompanying drawings and preferred embodiments.

Referring to fig. 1, the utility model discloses a moving table for silicon rod evolution, including brace table 10, brace table 10 is equipped with material loading district and cutting area along silicon rod direction of delivery on. A driving assembly is arranged below the support table 10, and the driving assembly comprises a ball screw 50 connected with the output end of the driving motor 40 and guide rails 60 arranged at two sides of the ball screw 50. The lead screw nut on the ball screw 50 is connected with the bottom of the supporting table 10, when the driving motor 40 is started, the ball screw 50 rotates, the lead screw nut drives the supporting table 10 to move on the guide rail 60, and the silicon rod to be cut is conveyed to the cutting area of the cutting machine to be cut.

The feeding area and the cutting area on the supporting table 10 are both provided with at least one group of silicon rod fixing pieces, and each silicon rod fixing piece comprises a lifting flaw-piece supporting table 30 and a silicon rod positioning table 20 arranged in the middle of the flaw-piece supporting table 30. In this embodiment, feeding area and cutting area all set up two sets of silicon rod mountings, and feeding area and cutting area can interconvert, specifically, silicon rod evolution on the cutting area finishes, supporting bench 10 moves on guide rail 60, the cutting area moves to the cutting area of evolution machine and waits for the square rod to be removed and place new round bar of waiting for evolution outside the area, the feeding area moves to the cutting area department of evolution machine and carries out the evolution, at this moment, the feeding area just converts the cutting area into, the cutting area converts the feeding area into, the reciprocating motion of supporting bench 10 on guide rail 60 realizes the interchange of feeding area and cutting area.

Referring to fig. 2, the silicon rod positioning table 20 includes a positioning block 21 for supporting a silicon rod, a locking block 22 disposed below the positioning block 21, and a locking cylinder 23 disposed below the locking block 22. The positioning block 21 is in clearance fit with the locking block 22 through a connecting screw. The center of the piston of the locking cylinder 23 is provided with a floating spherical surface 25, the peripheries of the floating spherical surface 25 and the piston end of the locking cylinder 23 are provided with a locking block 22, the lower surface of the locking block 22 is provided with a groove for accommodating the floating spherical surface 25, and the floating spherical surface 25 is abutted against the concave surface of the groove. The inclination of the silicon rod positioning table 20 to the horizontal plane is adjusted by the difference of the contact points of the floating spherical surface 25 and the locking block 22, so as to match the inclination of the end surface of the silicon rod, and the silicon rod is kept in a vertical state.

The top of the floating spherical surface 25 is connected with the positioning block 21 through a connecting block 26, and particularly, the positioning block 21 and the floating spherical surface 25 are fixed on the connecting block 26 through screws. An end cover 27 is arranged on the periphery of the lower end of the locking cylinder 23 and used for fixing the lower end of the locking cylinder 23 and the bottom of the locking block 22. The bottom of the locking cylinder 23 is further provided with a support block 24 for supporting all components thereon, and the support block 24 is a support flange in this embodiment. An air passage is arranged in the middle of the supporting block 24 and communicated with the air passage of the locking cylinder 23, the piston end of the locking cylinder 23 tightly props up the floating spherical surface 25 by inflating the locking cylinder, and the floating spherical surface 25 tightly props up the silicon rod positioning table 20, so that the silicon rod positioning table 20 locks the silicon rod.

When the utility model is used, the silicon rod to be cut is placed on the feeding area of the supporting table 10 by the manipulator or the feeding device, that is, the silicon rod is placed on the silicon rod positioning table 20 of the feeding area, at this time, according to the inclination of the end surface of the bottom of the silicon rod, the contact point of the floating spherical surface 25 with the locking block 22 is automatically adjusted, and then the inclination angle of the positioning block 21 is adjusted to be matched with the end surface of the silicon rod, the locking cylinder 23 is inflated after adjustment to lock the floating spherical surface 25 and the locking block 22, so that the positioning block 21 is fixed at the inclination angle, and the silicon rod at the top of the positioning block 21 is; after the silicon rod is locked, the driving motor 40 is started, the ball screw 50 rotates, the supporting table 10 moves on the guide rail 60, the silicon rod in the feeding area moves to the cutting area of the squaring machine, after the top of the silicon rod is tightly pushed by special equipment, the flaw-piece supporting table 30 is lifted to support the outer wall of the silicon rod, the silicon rod is waited for squaring, the feeding area becomes the cutting area, and the silicon rod can be fed at the cutting area and is converted into the feeding area; when the silicon rod is cut, the driving motor 40 is started again, the ball screw 50 rotates to drive the supporting table 10 to move again, the cut silicon rod is moved out of the cutting area, the silicon rod is discharged and a new silicon rod to be cut is supplemented, the silicon rod is circularly reciprocated, the feeding area and the cutting area on the supporting table 10 are mutually switched, and the cutting efficiency of the silicon rod can be improved.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the scope of the invention, i.e. the present invention is intended to cover all equivalent variations and modifications within the scope of the present invention.

Claims (10)

1. A movable workbench for silicon rod squaring is characterized by comprising a supporting table (10), wherein a feeding area and a cutting area are arranged on the supporting table (10) along the silicon rod conveying direction; a driving component is arranged below the supporting platform (10); the feeding area with the cutting area all sets up at least a set of silicon rod mounting, and the silicon rod mounting includes the flaw-piece supporting bench (30) of liftable and sets up silicon rod location platform (20) in the middle of flaw-piece supporting bench (30).

2. The moving table for silicon rod squaring according to claim 1, characterized in that the driving assembly comprises a ball screw (50) connected with the output end of the driving motor (40) and guide rails (60) arranged at both sides of the ball screw (50).

3. The moving table for silicon rod squaring according to claim 2, characterized in that a screw nut on the ball screw (50) is connected with the bottom of the support table (10).

4. The moving table for silicon rod squaring according to claim 1, wherein the feeding zone and the cutting zone are provided with two sets of silicon rod fixing members.

5. The moving table for silicon rod squaring according to claim 1, characterized in that the silicon rod positioning table (20) comprises a positioning block (21) for supporting a silicon rod, a locking block (22) disposed below the positioning block (21), and a locking cylinder (23) disposed below the locking block (22).

6. The moving table for silicon rod squaring according to claim 5, characterized in that a floating spherical surface (25) is arranged at the center of the piston of the locking cylinder (23), and the floating spherical surface (25) and the periphery of the piston end of the locking cylinder (23) are provided with the locking block (22).

7. The moving table for silicon rod squaring according to claim 6, characterized in that the lower surface of the locking block (22) is provided with a groove for accommodating the floating spherical surface (25), and the floating spherical surface (25) is abutted against the concave surface of the groove.

8. The moving table for silicon rod squaring according to claim 7, characterized in that the positioning block (21) is clearance fitted with the locking block (22) by a connecting screw; the top of the floating spherical surface (25) is connected with the positioning block (21) through a connecting block (26).

9. The moving table for silicon rod squaring according to claim 5, characterized in that the locking cylinder (23) is provided with an end cap (27) at the periphery of the lower end.

10. The moving table for silicon rod squaring according to claim 9, characterized in that the bottom of the locking cylinder (23) is further provided with a supporting block (24).

Images