CN215790928U - Wire arranging roller of polycrystalline squaring machine - Google Patents

Abstract

The utility model discloses a wire arrangement roller of a polycrystalline squaring machine, which is characterized in that: the roller bearing comprises a cutting chamber inner wall, a cutting chamber control box body is arranged on the left side bottom of the cutting chamber inner wall in an opposite position, a cutting motor is connected and arranged at the top position of the cutting chamber control box body, a top supporting beam which is transversely arranged is connected and arranged at the right side opposite position of the cutting chamber inner wall, a side supporting beam which is vertically and downwardly arranged is connected and arranged at the bottom and the right side of the top supporting beam, the side supporting beam is fixedly connected with the top supporting beam, a bearing seat connecting block is arranged at the bottom of the side supporting beam, the bearing seat connecting block is fixedly connected with the side supporting beam, a roller bearing seat is connected and arranged at the top position of the bearing seat connecting block, a rolling bearing is arranged on the side of the roller bearing seat, and penetrates through the left side surface and the right side surface of the roller bearing seat, the roller bearing has the beneficial effects that: the short line rate is reduced, the service life is prolonged, and the square production cost is reduced.

Description

Wire arranging roller of polycrystalline squaring machine

Technical Field

The utility model belongs to the technical field of polycrystalline squaring machines, and particularly relates to a wire arrangement roller of a polycrystalline squaring machine.

Background

With the gradual decrease of nonrenewable traditional energy, new photovoltaic energy is increasingly paid attention, wherein the silicon solar cell occupies most of market share due to higher cost performance, the diamond wire squarer is unstable in cutting, the mortar squarer is subject to the problems of reduction of service life of various wearing parts after speed increase, the cutting cost is increased, the silicon solar cell is difficult to compete with the diamond wire squarer, the wire arranging roller is fixed in a one-way connection mode in the working process of equipment, the wire arranging roller is subjected to increased force after the speed increase of the sand wire squarer, the wire arranging roller is broken, the replaced roller is easy to break, the broken roller can also cause short wires, the production progress is seriously influenced, the practicability is not strong, and the wire arranging roller of the polycrystalline squarer is researched and developed in combination with the problems existing in the actual production process, so that the wire breaking rate is reduced, and the production efficiency is improved, the service life of the wire arranging roller is prolonged, and therefore the production cost of the squaring machine is reduced.

SUMMERY OF THE UTILITY MODEL

The utility model provides a wire arranging roller of a polycrystalline squaring machine, which prolongs the service life of the wire arranging roller and reduces the wire breakage rate in actual production so as to further reduce the cutting cost.

In order to solve the technical problems, the utility model adopts the following technical scheme:

a wire arranging roller of a polycrystalline squarer comprises an inner wall of a cutting chamber, a cutting chamber control box body is arranged at the opposite position of the left side bottom of the inner wall of the cutting chamber, a cutting motor is connected and arranged at the top position of the cutting chamber control box body, a transversely arranged top supporting beam is connected and arranged at the opposite position of the right side of the inner wall of the cutting chamber, a vertical and downward arranged side supporting beam is connected and arranged at the right side of the bottom of the top supporting beam, the side supporting beam and the top supporting beam are fixedly connected, a bearing seat connecting block is arranged at the bottom of the side supporting beam, the bearing seat connecting block and the side supporting beam are fixedly connected, a roller bearing seat is connected and arranged at the top position of the bearing seat connecting block, a rolling bearing is arranged at the side of the roller bearing seat, the rolling bearing penetrates through the left side and the right side of the roller bearing seat, a first connecting column is connected and arranged inside the rolling bearing, a roller body which is transversely arranged is connected and arranged at the left side of the first connecting column, roller organism and first spliced pole fixed connection, roller organism left surface relative position is equipped with a plurality of roller positioning connection grooves of evenly arranging, roller positioning connection groove middle part position is equipped with transverse arrangement's second spliced pole, second spliced pole fixed connection roller organism left surface, the connection of second spliced pole left surface is equipped with rotation axis connection claw dish, rotation axis connection claw dish right flank is equipped with a plurality of roller positioning connection blocks of evenly arranging, roller positioning connection block and roller positioning connection groove cooperation are connected, rotation axis connection claw dish left surface and cutting chamber inner wall bottom right flank cooperation are connected.

Furthermore, the cutting motor drives the rotating shaft to be connected with the claw disc to rotate, the roller machine body is connected with the claw disc to rotate through the rotating shaft, the roller positioning connecting block is matched with the roller positioning connecting groove, the roller machine body drives the first connecting column to rotate, and the first connecting column drives the rolling bearing to rotate.

Furthermore, the first connecting column transversely runs through the middle position of the rolling bearing and is connected with the rolling bearing in a matching mode.

Furthermore, the top supporting beam is positioned at the top of the roller machine body, and the left side surface of the top supporting beam is matched and fixedly connected with the right side surface of the inner wall of the cutting chamber.

Further, the roller body is a cylindrical structure arranged transversely.

Compared with the prior art, the utility model has the beneficial effects that:

(1) the design can lead the winding displacement roller to be suitable for the polycrystalline squarer to cut after accelerating, simultaneously reduces the broken wire caused by the breakage caused by the winding displacement roller, saves the cost of the winding displacement roller, and has better stability of the squarer.

(2) The fixing mode of traditional squarer winding displacement roller is unilateral fixed, and when in actual use, because the power that motor winding displacement roller received rises inhomogeneously, leads to the winding displacement roller to split, this design is through increasing a supporting beam above the winding displacement roller, and the winding displacement roller changes both ends atress simultaneously into by the atress of one end, under the prerequisite of guaranteeing squarer stability, increases the life of winding displacement roller, reduces the broken string rate simultaneously.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view showing the connection of two ends of a wire-arranging roller;

FIG. 3 is a schematic view of the overall structure of the ball assembly;

FIG. 4 is a schematic view of a bearing housing assembly;

FIG. 5 is a view showing a rotary shaft coupling pawl.

Description of the drawings: 1. the cutting chamber comprises a cutting chamber inner wall, 2. a top supporting beam, 3. a side supporting beam, 4. a roller bearing seat, 5. a bearing seat connecting block, 6. a roller machine body, 7. a rotating shaft connecting claw disc, 8. a cutting chamber control box body, 9. a cutting motor, 10. a roller positioning connecting groove, 11. a first connecting column, 12. a second connecting column, 13. a rolling bearing and 14. a roller positioning connecting block.

Detailed Description

As shown in figures 1 to 5, the wire arranging roller of the polycrystalline squaring machine comprises a cutting chamber inner wall 1, a cutting chamber control box body 8 is arranged at the bottom of the left side of the cutting chamber inner wall 1 in a relative position, a cutting motor 9 is connected and arranged at the top position of the cutting chamber control box body 8, a top supporting beam 2 which is transversely arranged is connected and arranged at the relative position of the right side of the cutting chamber inner wall 1, a side supporting beam 3 which is vertically and downwardly arranged is connected and arranged at the bottom and right side of the top supporting beam 2, the side supporting beam 3 is fixedly connected with the top supporting beam 2, a bearing seat connecting block 5 is arranged at the bottom of the side supporting beam 3, the bearing seat connecting block 5 is fixedly connected with the side supporting beam 3, a roller bearing seat 4 is connected and arranged at the top position of the bearing seat connecting block 5, a rolling bearing 13 is arranged at the side of the roller bearing seat 4, and the rolling bearing 13 penetrates through the left side and the left side of the roller bearing seat 4, The right flank, antifriction bearing 13 internal connection is equipped with first spliced pole 11, the roller organism 6 that is equipped with transverse arrangement is connected in 11 left sides of first spliced pole, roller organism 6 and 11 fixed connection of first spliced pole, 6 left sides relative position of roller organism is equipped with a plurality of roller location spread groove 10 of evenly arranging, roller location spread groove 10 middle part position is equipped with transverse arrangement's second spliced pole 12, the 6 left surface of 12 fixed connection roller organisms of second spliced pole, 12 left sides of second spliced pole are connected and are equipped with rotation axis connection claw dish 7, 7 right flank of rotation axis connection claw dish is equipped with a plurality of roller location connecting blocks 14 of evenly arranging, roller location connecting blocks 14 and roller location spread groove 10 cooperation are connected, the cooperation of 1 bottom right flank in rotation axis connection claw dish 7 left surface and the cutting chamber inner wall is connected.

Cutting motor 9 drives the rotation axis and connects claw dish 7 and rotate, and roller organism 6 passes through the rotation axis and connects claw dish 7 and rotate, and roller location connecting block 14 and roller location spread groove 10 looks adaptation, roller organism 6 drive first spliced pole 11 and rotate, and first spliced pole 11 drives antifriction bearing 13 and rotates.

The first connecting column 11 transversely penetrates through the middle position of the rolling bearing 13 and is connected with the rolling bearing 13 in a matching mode.

The top supporting beam 2 is positioned at the top of the roller machine body 6, and the left side surface of the top supporting beam 2 is matched and fixedly connected with the right side surface of the inner wall 1 of the cutting chamber.

The roller body 6 is a transversely arranged cylindrical structure.

The working process is as follows: the roller machine body 6 is arranged at the bottom position of the top supporting beam 2, the second connecting column 12 at the left side of the top supporting beam 2 is connected at the central position of the rotary shaft connecting claw disc 7, the roller positioning connecting block 14 at the right side of the rotary shaft connecting claw disc 7 and the roller positioning connecting groove 10 at the left side of the roller machine body 6 are mutually matched and connected, the connection stability is ensured, the first connecting column 11 at the right side of the roller machine body 6 is transversely connected at the position of a movable bearing 13 in the middle of a roller bearing seat 4 and is matched and connected with the first connecting column 11 through a rolling bearing 13, at the moment, the cutting motor 9 is started to operate, a bevel gear mechanism connected in the box body 8 through a cutting chamber drives the rotary shaft connecting claw disc 7 to rotate, the roller machine body 6 is driven to synchronously rotate after the rotary shaft connecting claw disc 7 rotates, and the first connecting column 11 at the right side of the roller machine body 6 drives the rolling bearing 13 to synchronously operate, the torque force of the instantaneous start of the cutting motor 9 is ensured to be dispersed, the two sides are stressed simultaneously, and the fracture probability of the roller machine body 6 is reduced.

Claims (5)

1. A winding displacement roller of polycrystal squaring machine which characterized in that: comprises a cutting chamber inner wall (1), a cutting chamber control box body (8) is oppositely arranged at the left side bottom of the cutting chamber inner wall (1), a cutting motor (9) is connected and arranged at the top position of the cutting chamber control box body (8), a top supporting beam (2) which is transversely arranged is connected and arranged at the right side opposite position of the cutting chamber inner wall (1), a side supporting beam (3) which is vertically and downwardly arranged is connected and arranged at the right side of the bottom of the top supporting beam (2), the side supporting beam (3) is fixedly connected with the top supporting beam (2), a bearing seat connecting block (5) is arranged at the bottom of the side supporting beam (3), the bearing seat connecting block (5) is fixedly connected with the side supporting beam (3), a roller bearing seat (4) is connected and arranged at the top position of the bearing seat connecting block (5), a rolling bearing (13) is arranged at the side surface of the roller bearing seat (4), the rolling bearing (13) penetrates through the left side surface and the right side surface of the roller bearing seat (4), a first connecting column (11) is connected inside the rolling bearing (13), a roller machine body (6) which is transversely arranged is connected on the left side of the first connecting column (11), the roller machine body (6) is fixedly connected with the first connecting column (11), a plurality of roller positioning connecting grooves (10) which are uniformly arranged are arranged at the opposite positions of the left side surface of the roller machine body (6), a second connecting column (12) which is transversely arranged is arranged at the middle position of the roller positioning connecting grooves (10), the left side surface of the roller machine body (6) is fixedly connected with the second connecting column (12), a rotating shaft connecting claw disc (7) is connected with the left side surface of the second connecting column (12), a plurality of roller positioning connecting blocks (14) which are uniformly arranged are arranged on the right side surface of the rotating shaft connecting claw disc (7), and the roller positioning connecting blocks (14) are matched and connected with the roller positioning connecting grooves (10), the left side surface of the rotary shaft connecting claw disc (7) is connected with the right side surface of the bottom of the inner wall (1) of the cutting chamber in a matching way.

2. The traverse roller of a polycrystalline squarer according to claim 1, wherein: cutting motor (9) drive rotation axis connection claw dish (7) and rotate, and roller organism (6) are connected claw dish (7) through the rotation axis and are rotated, roller location connecting block (14) and roller location spread groove (10) looks adaptation, and roller organism (6) drive first spliced pole (11) and rotate, and first spliced pole (11) drive antifriction bearing (13) and rotate.

3. The traverse roller of a polycrystalline squarer according to claim 1, wherein: the first connecting column (11) transversely penetrates through the middle position of the rolling bearing (13) and is connected with the rolling bearing (13) in a matched mode.

4. The traverse roller of a polycrystalline squarer according to claim 1, wherein: the top supporting beam (2) is positioned at the top of the roller machine body (6), and the left side surface of the top supporting beam (2) is matched and fixedly connected with the right side surface of the inner wall (1) of the cutting chamber.

5. The traverse roller of a polycrystalline squarer according to claim 1, wherein: the roller machine body (6) is a cylinder structure which is transversely arranged.

Images