CN210818414U

CN210818414U - Saw cutting thick mantle fiber production line of polishing

Info

Publication number: CN210818414U
Application number: CN201921709359.0U
Authority: CN
Inventors: 白林平; 林勇; 周宁; 缪迎春
Original assignee: Jining Middle Road Intelligent Technology Co ltd
Current assignee: Jining Middle Road Intelligent Technology Co ltd
Priority date: 2019-10-14
Filing date: 2019-10-14
Publication date: 2020-06-23
Anticipated expiration: 2029-10-14

Abstract

The utility model relates to a saw cut thick mantle fiber production line of polishing of mound, the sawing machine subassembly is established to cylinder transfer chain front side, the lead screw lift owner axle head is fixed with sawing machine rear side wall, lead screw lift rear end is anterior fixed with cylinder transfer chain, the stirring subassembly is established to the sawing machine subassembly front portion, the stirring frame is established in stirring subassembly left side, dial material frame left side and establish gyro wheel transfer chain A, pier thick machine A is established to gyro wheel transfer chain A rear side, gyro wheel transfer chain B is established in gyro wheel transfer chain A left side, pier thick machine B is established to gyro wheel transfer chain B front side, gyro wheel transfer chain B establishes gyro wheel transfer chain C in the left side, mantle fiber machine A is established to gyro wheel transfer chain C rear side, gyro wheel transfer chain C establishes gyro wheel transfer chain D in the left side, mantle fiber machine B is established to gyro wheel transfer chain D front side, gyro wheel transfer chain E left side establishes gyro wheel transfer chain E rear side, gyro wheel transfer chain E establishes gyro. The utility model has the advantages that: the steel bar required by production has high efficiency.

Description

Saw cutting thick mantle fiber production line of polishing

Technical Field

The utility model relates to a production line especially relates to a saw cut thick mantle fiber production line of polishing of mound.

Background

At present, all adopt the manual work to saw cut the reinforcing bar of flare-outing, to the reinforcing bar that needs the mound, the manpower carries the mound processing before the reinforcing bar that saw cuts carries the mound machine, to the reinforcing bar that needs to polish, the manpower carries the reinforcing bar and carries the processing of polishing before the polisher, current saw cut, mound, mantle fiber, the production mode of polishing the reinforcing bar, the reinforcing bar inefficiency that the production needs required.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve is: the utility model provides a saw cut thick mantle fiber production line of polishing, solved current saw cut, thick, mantle fiber, the production methods of polishing the reinforcing bar of mound, the problem of the required reinforcing bar inefficiency of production.

The utility model discloses a solve the technical scheme that the problem that the aforesaid provided adopted and be:

a sawing and upsetting mantle fiber grinding production line comprises a roller conveying line 1, a screw rod elevator 101, a sawing machine assembly 2, an overturning assembly 3, a material stirring frame 6, a roller conveying line A7, an upsetting machine A8, a roller conveying line B9, an upsetting machine B10, a roller conveying line C11, a mantle fiber machine A12, a roller conveying line D13, a mantle fiber machine B14, a roller conveying line E15, a grinding machine A16, a roller conveying line F17 and a grinding machine B18, wherein the sawing machine assembly 2 is arranged on the front side of the roller conveying line 1, the sawing machine assembly 2 comprises a rectangular frame 201, a sawing machine 202 and a rotating wheel 203, the rectangular frame 201 is arranged on the front side of the roller conveying line 1, the rotating wheel 203 is symmetrically arranged on the left side and the right side of the sawing machine 202 and is positioned on the upper surface of the rectangular frame 201, the spindle end of the screw rod elevator 101 is fixedly connected with the rear side wall of the sawing machine 202, the rear end of the screw rod elevator 101 is fixedly connected with the front, the front part of the sawing machine assembly 2 is provided with an overturning assembly 3, the left side of the overturning assembly 3 is provided with an overturning frame 6, the left side of the overturning frame 6 is provided with a roller conveying line A7, the rear side of the roller conveying line A7 is provided with an upsetting machine A8, the left side of the roller conveying line A7 is provided with a roller conveying line B9, the front side of the roller conveying line B9 is provided with an upsetting machine B10, the left side of the roller conveying line B9 is provided with a roller conveying line C11, the rear side of the roller conveying line C11 is provided with a threading machine A12, the left side of the roller conveying line C11 is provided with a roller conveying line D13, the front side of the roller conveying line D13 is provided with a threading machine B14, the left side of the roller conveying line D13 is provided with a roller conveying line E15, the rear side of the roller conveying line E15 is provided with a grinder A16, the left side of.

The rotating wheel 203 is provided with a boss 204 to prevent the rotating wheel 203 from sliding out of the rectangular frame 201.

The material turning component 3 is arranged in front of the sawing machine component 2, the material turning component 3 comprises a frame body A301, a roller 302, a chain wheel A303, a chain wheel C304, a motor A305, a chain wheel B306, a chain 307, a cylinder A308, a guide rail A309, a right trapezoid push plate A310 and a right trapezoid guide plate A311, the frame body A301 is arranged in front of the sawing machine component 2, the plurality of roller 302 are uniformly distributed on the upper part, the chain wheel A303 is fixedly arranged at the left end of the roller 302, the chain wheel C304 and the motor A305 are sequentially and fixedly arranged at the front part of the frame body A301, the chain wheel B306 is fixedly arranged at the main shaft end of the motor A305, the chain wheel A303, the chain wheel C304 and the chain wheel B306 are in power transmission through the chain 307, a plurality of guide rails A309 are symmetrically arranged on the left and right of the upper part of the inner side of the frame body A301, the right trapezoid push plate A310 is arranged between the guide, the lower end of the air cylinder A308 is fixedly connected with the frame body A301, a right-angled trapezoid guide plate A311 is fixedly arranged on the upper end of the left side wall of the frame body A301, and sheared steel bars are automatically turned onto the material stirring frame 6.

The right side of the roller conveying line 1 is provided with a material placing frame 4, so that uncut reinforcing steel bars can be conveniently stored.

The stirring subassembly 3 right side set up storage frame A5, frame body A301 inboard upper portion left and right symmetrical arrangement multiunit guide rail B313 sets up right trapezoid push pedal B314 between the guide rail B313 of left and right symmetrical arrangement, the main shaft fixed connection of right trapezoid push pedal B314 lower extreme and cylinder B312, cylinder B312 lower extreme with frame body A301 fixed connection, frame body A301 left side wall upper end is fixed to be set up right trapezoid deflector B315, is convenient for overturn the storage frame A5 the reinforcing bar that shears is automatic.

The left side of the material turning assembly 3 is provided with a material stirring frame 6, the material stirring frame 6 comprises a frame body B601, a rotating shaft A602, a rotating shaft B603, a motor B604, a chain wheel D605, a chain wheel E606, a chain B607, a chain wheel F608, a chain wheel G609, a chain C610, a rotating shaft C611, a cylinder C612, a connecting plate 613 and a material stirring plate 614, the left side of the material turning assembly 3 is provided with the frame body B601, the rotating shaft A602 is fixedly sleeved with the chain wheel E606, the rotating shaft A602 is fixedly sleeved with a plurality of chain wheels F608, the rotating shaft A602 is rotatably connected with the upper part of the right side of the frame body B601, the rotating shaft B603 is fixedly sleeved with a plurality of chain wheels G609, the number of the chain wheels G609 is the same as that of the chain wheels F608, the rotating shaft B603 is rotatably connected with the upper part of the left side of the frame body B601, the adjacent chain wheels F608 and the chain wheels G609 are in power transmission through the chain C610, the chain wheel D605 and the chain wheel E606 are in power transmission through a chain B607, a connecting plate 613 is fixedly sleeved on a rotating shaft C611, a plurality of material shifting plates 614 are fixedly sleeved on the rotating shaft C611, the rotating shaft C611 is rotatably connected with the upper portion of the left side of the frame body B601, the lower end of a cylinder C612 is hinged with the frame body B601, the main shaft end of the cylinder C612 is hinged with the other end of the connecting plate 613, and reinforcing steel bars above the material shifting frame 6 are automatically transmitted and turned to a roller conveying line A7.

The left side of the roller conveying line F17 is provided with a storage rack B19, so that processed steel bars can be conveniently stored on the storage rack B19.

The utility model discloses a theory of operation: placing the steel bars to be processed on a material placing frame, clockwise opening a roller conveying line, placing a certain amount of steel bars on the material placing frame on the roller conveying line, after the roller conveying line forwards conveys the steel bars with required size, pausing the roller conveying line, if the size is not proper, opening a screw rod lifter, driving a sawing machine to move forwards and backwards to a proper position by the screw rod lifter, sawing the steel bars on the roller conveying line by the sawing machine, clockwise rotating a motor A, driving a chain wheel B to rotate clockwise by the motor A, driving the chain wheel A and the chain wheel C to rotate by the chain wheel B, driving a rolling shaft to rotate by the chain wheel A, transmitting the steel bars on a material overturning assembly, if the steel bars are required to be intercepted, upwards jacking a cylinder B, driving a right-angled trapezoid push plate B to upwards move along a guide rail B by a main shaft of the cylinder B, rightwards overturning the intercepted steel bars, sliding the intercepted steel, retracting an air cylinder B, resetting a right trapezoid push plate B, if the steel bar needs to be processed, upwards jacking the air cylinder A, driving the right trapezoid push plate A to move upwards along a guide rail A by a main shaft of the air cylinder A, turning the cut steel bar leftwards, sliding the cut steel bar onto a material stirring frame along a right trapezoid guide plate B, retracting the air cylinder A, resetting the right trapezoid push plate A, clockwise starting a motor B, driving a chain wheel D to rotate by the main shaft of the motor B, driving a chain wheel E to rotate by a chain B, driving a rotating shaft A to rotate by the chain wheel E, driving a chain wheel F to rotate by the rotating shaft A, driving a chain wheel G to rotate by a chain C, driving a rotating shaft B to rotate by the chain wheel G, driving the steel bar to move to the left side by the chain C, starting the air cylinder C, jacking a connecting plate of the air cylinder C to move upwards, driving the, turning over the steel bars to the roller conveying line A through a shifting plate, retracting the air cylinder C, opening the roller conveying line A backwards, driving the steel bars to the rear side on the roller conveying line A, upsetting the rear ends of the steel bars on the upsetting machine A, placing the upset steel bars on the roller conveying line B, opening the roller conveying line B forwards, driving the steel bars to the front part on the roller conveying line B, upsetting the front ends of the steel bars on the upsetting machine B, placing the steel bars processed by the upsetting machine B on the roller conveying line C, opening the roller conveying line C backwards, driving the steel bars to the rear part of the roller conveying line C, threading the rear ends of the steel bars on the threading machine A, placing the steel bars processed by the threading machine A on the roller conveying line D, driving the roller conveying line D forwards, driving the steel bars to the front part of the roller conveying line D, threading the front ends of the steel bars on the threading machine B, placing the steel bars processed by the threading machine B on the roller conveying line E, open gyro wheel transfer chain E backward, the reinforcing bar moves to the rear portion on gyro wheel transfer chain E, polishes the reinforcing bar rear end on polisher A, and the reinforcing bar after polishing of polisher A is put on gyro wheel transfer chain F, opens gyro wheel transfer chain F forward, polishes the reinforcing bar front end on polisher B, and the reinforcing bar after the processing of polisher B is accomplished is put on storage frame B.

The beneficial effects of the utility model reside in that: 1. the steel bar required by production has high efficiency. 2. The rotary wheel is provided with a boss to prevent the rotary wheel from sliding out of the rectangular frame. 3. The material turning assembly is arranged in front of the sawing machine assembly and comprises a frame body A, a roller, a chain wheel A, a chain wheel C, a motor A, a chain wheel B, a chain, a cylinder A, a guide rail A, a right trapezoid push pedal A and a right trapezoid guide plate A, the frame body A is arranged in front of the sawing machine assembly, a plurality of roller shafts are uniformly distributed on the upper portion of the frame body A, the chain wheel A is fixedly arranged at the left end of each roller shaft, the chain wheel C and the motor A are sequentially and fixedly arranged on the front portion of the frame body A, the chain wheel B is fixedly arranged at the main shaft end of the motor A, the chain wheel C and the chain wheel B are in power transmission through the chain, a plurality of groups of guide rails A are symmetrically arranged on the left and right of the upper portion of the inner side of the frame body A, the right trapezoid push pedal A is arranged between the guide rails A, the upper end of the left side wall of the frame body A is fixedly provided with a right trapezoid guide plate A, and the sheared steel bars are automatically turned to the material stirring frame. 4. The right side of the roller conveying line is provided with a material placing frame, so that uncut reinforcing steel bars can be conveniently stored. 5. The stirring subassembly right side sets up storage frame A, the left and right symmetrical arrangement multiunit guide rail B in the inboard upper portion of frame body A sets up right trapezoid push pedal B between the guide rail B of left and right symmetrical arrangement, right trapezoid push pedal B lower extreme and cylinder B's main shaft fixed connection, cylinder B lower extreme with frame body A fixed connection, frame body A left side wall upper end is fixed and is set up right trapezoid deflector B, is convenient for overturn the storage frame A automatically to the reinforcing bar of shearing. 6. The left side of the material stirring component is provided with a material stirring frame which comprises a frame body B, a rotating shaft A, a rotating shaft B, a motor B, a chain wheel D, a chain wheel E, a chain B, a chain wheel F, a chain wheel G, a chain C, a rotating shaft C, a cylinder C, a connecting plate and a material stirring plate, the left side of the material stirring component is provided with the frame body B, the rotating shaft A is fixedly sleeved with the chain wheel E, the rotating shaft A is fixedly sleeved with a plurality of chain wheels F, the rotating shaft A is rotatably connected with the upper part of the right side of the frame body B, the rotating shaft B is fixedly sleeved with a plurality of chain wheels G, the number of the chain wheels G is the same as that of the chain wheels F, the rotating shaft B is rotatably connected with the upper part of the left side of the frame body B, the adjacent chain wheels F and the chain wheels G are in power transmission through the, through chain B power transmission between sprocket D, the sprocket E, the connecting plate is established to fixed cover on the rotation axis C, a plurality of switch boards are established to fixed cover on the rotation axis C, rotation axis C with frame body B left side upper portion swivelling joint, cylinder C lower extreme with frame body B is articulated, cylinder C main shaft end with the connecting plate other end is articulated, dials on the reinforcing bar automatic transmission of material frame top, overturns to gyro wheel transfer chain A. 7. The left side of the roller conveying line F is provided with a storage rack B, so that processed reinforcing steel bars can be conveniently stored on the storage rack B.

Drawings

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

fig. 2 is a schematic structural view of the sawing line of the present invention.

Wherein, 1-roller conveying line, 101-screw rod lifter, 2-sawing machine component, 201-rectangular frame, 202-sawing machine, 203-rotating wheel, 204-boss, 3-material turning component, 301-frame body A, 302-roller, 303-chain wheel A, 304-chain wheel C, 305-motor A, 306-chain wheel B, 307-chain, 308-cylinder A, 309-guide rail A, 310-right trapezoid push plate A, 311-right trapezoid guide plate A, 312-cylinder B, 313-guide rail B, 314-right trapezoid push plate B, 315-right trapezoid guide plate B, 4-material placing frame, 5-material storing frame A, 6-material pulling frame, 601-frame body B, 602-rotating shaft A, 603-rotating shaft B, 604-motor B, 605-chain wheel D, 606-chain wheel E, 607-chain B, 608-chain wheel F, 609-chain wheel G, 610-chain C, 611-rotating shaft C, 612-cylinder C, 613-connecting plate, 614-material shifting plate, 7-roller conveying line A, 8-upsetting machine A, 9-roller conveying line B, 10-upsetting machine B, 11-roller conveying line C, 12-threading machine A, 13-roller conveying line D, 14-threading machine B, 15-roller conveying line E, 16-grinding machine A, 17-roller conveying line F, 18-grinding machine B and 19-material storage rack B.

Detailed Description

The embodiments of the present invention will be further explained with reference to the drawings.

Referring to fig. 1-2, the sawing and upsetting mantle fiber polishing production line according to the present embodiment includes a roller conveyor line 1, a lead screw elevator 101, a sawing machine assembly 2, a material turning assembly 3, a material pushing frame 6, a roller conveyor line a7, a upsetting machine A8, a roller conveyor line B9, a upsetting machine B10, a roller conveyor line C11, a mantle fiber machine a12, a roller conveyor line D13, a mantle fiber machine B14, a roller conveyor line E15, a polisher a16, a roller conveyor line F17, and a polisher B18, the sawing machine assembly 2 is disposed at the front side of the roller conveyor line 1, the sawing machine assembly 2 includes a rectangular frame 201, a sawing machine 202, and a rotating wheel 203, the rectangular frame 201 is disposed at the front side of the roller conveyor line 1, the rotating wheel 203 is symmetrically disposed at the left and right sides of the sawing machine 202, the rotating wheel 203 disposed on the sawing machine 202 is disposed on the upper surface of the rectangular frame, the spindle end of the lead screw elevator 101 is fixedly connected to, the rear end of the screw rod lifter 101 is fixedly connected with the front part of the roller conveying line 1, the front part of the sawing machine component 2 is provided with a material turning component 3, the left side of the material stirring component 3 is provided with a material stirring rack 6, the left side of the material stirring rack 6 is provided with a roller conveying line A7, the rear side of the roller conveying line A7 is provided with a upsetting machine A8, the left side of the roller conveying line A7 is provided with a roller conveying line B9, the front side of the roller conveying line B9 is provided with a upsetting machine B10, the left side of the roller conveying line B9 is provided with a roller conveying line C11, a threading machine A12 is arranged at the rear side of the roller conveying line C11, a roller conveying line D13 is arranged at the left side of the roller conveying line C11, a threading machine B14 is arranged at the front side of the roller conveying line D13, a roller conveying line E15 is arranged at the left side of the roller conveying line D13, the rear side of the roller conveying line E15 is provided with a sander A16, the left side of the roller conveying line E15 is provided with a roller conveying line F17, and the front side of the roller conveying line F17 is provided with a sander B18.

The material turning component 3 is arranged in front of the sawing machine component 2, the material turning component 3 comprises a frame body A301, rollers 302, a chain wheel A303, a chain wheel C304, a motor A305, a chain wheel B306, a chain 307, a cylinder A308, a guide rail A309, a right trapezoid push plate A310 and a right trapezoid guide plate A311, the frame body A301 is arranged in front of the sawing machine component 2, twenty-five rollers 302 are uniformly distributed on the upper part, the chain wheel A303 is fixedly arranged at the left end of each roller 302, the chain wheel C304 and the motor A305 are sequentially and fixedly arranged at the front part of the frame body A301, the chain wheel B306 is fixedly arranged at the main shaft end of the motor A305, the chain wheel A303, the chain wheel C304 and the chain wheel B306 are in power transmission through the chain 307, twelve groups of guide rails A309 are symmetrically arranged at the left and right sides of the upper part of the inner side of the frame body A301, the right and the right between the symmetrically arranged guide rails A309, the lower end of the air cylinder A308 is fixedly connected with the frame body A301, a right-angled trapezoid guide plate A311 is fixedly arranged on the upper end of the left side wall of the frame body A301, and sheared steel bars are automatically turned onto the material stirring frame 6.

The stirring subassembly 3 right side set up storage frame A5, twelve groups of guide rail B313 of the inboard upper portion of frame body A301 left and right symmetrical arrangement, set up right trapezoid push pedal B314 between the guide rail B313 of left and right symmetrical arrangement, the main shaft fixed connection of right trapezoid push pedal B314 lower extreme and cylinder B312, cylinder B312 lower extreme with frame body A301 fixed connection, frame body A301 left side wall upper end is fixed to be set up right trapezoid deflector B315, is convenient for overturn the reinforcing bar that cuts on the storage frame A5 automatically.

The left side of the material turning assembly 3 is provided with a material stirring frame 6, the material stirring frame 6 comprises a frame body B601, a rotating shaft A602, a rotating shaft B603, a motor B604, a chain wheel D605, a chain wheel E606, a chain B607, a chain wheel F608, a chain wheel G609, a chain C610, a rotating shaft C611, a cylinder C612, a connecting plate 613 and a material stirring plate 614, the left side of the material turning assembly 3 is provided with the frame body B601, the rotating shaft A602 is fixedly sleeved with the chain wheel E606, the rotating shaft A602 is fixedly sleeved with ten chain wheels F608, the rotating shaft A602 is rotatably connected with the upper part of the right side of the frame body B601, the rotating shaft B603 is fixedly sleeved with ten chain wheels G609, the number of the chain wheels G609 is the same as that of the chain wheels F608, the rotating shaft B603 is rotatably connected with the upper part of the left side of the frame body B601, the adjacent chain wheels F608 and chain wheels G609 are in power transmission through the chain C610, the motor, the chain wheel D605 and the chain wheel E606 are in power transmission through a chain B607, a connecting plate 613 is fixedly sleeved on a rotating shaft C611, ten material shifting plates 614 are fixedly sleeved on the rotating shaft C611, the rotating shaft C611 is rotatably connected with the upper portion of the left side of the frame body B601, the lower end of a cylinder C612 is hinged with the frame body B601, the main shaft end of the cylinder C612 is hinged with the other end of the connecting plate 613, and reinforcing steel bars above the material shifting frame 6 are automatically transmitted and turned to a roller conveying line A7.

The working principle of the specific embodiment is as follows: placing the steel bars to be processed on a material placing frame, clockwise opening a roller conveying line, placing a certain amount of steel bars on the material placing frame on the roller conveying line, after the roller conveying line forwards conveys the steel bars with required size, pausing the roller conveying line, if the size is not proper, opening a screw rod lifter, driving a sawing machine to move forwards and backwards to a proper position by the screw rod lifter, sawing the steel bars on the roller conveying line by the sawing machine, clockwise rotating a motor A, driving a chain wheel B to rotate clockwise by the motor A, driving the chain wheel A and the chain wheel C to rotate by the chain wheel B, driving a rolling shaft to rotate by the chain wheel A, transmitting the steel bars on a material overturning assembly, if the steel bars are required to be intercepted, upwards jacking a cylinder B, driving a right-angled trapezoid push plate B to upwards move along a guide rail B by a main shaft of the cylinder B, rightwards overturning the intercepted steel bars, sliding the intercepted steel, retracting an air cylinder B, resetting a right trapezoid push plate B, if the steel bar needs to be processed, upwards jacking the air cylinder A, driving the right trapezoid push plate A to move upwards along a guide rail A by a main shaft of the air cylinder A, turning the cut steel bar leftwards, sliding the cut steel bar onto a material stirring frame along a right trapezoid guide plate B, retracting the air cylinder A, resetting the right trapezoid push plate A, clockwise starting a motor B, driving a chain wheel D to rotate by the main shaft of the motor B, driving a chain wheel E to rotate by a chain B, driving a rotating shaft A to rotate by the chain wheel E, driving a chain wheel F to rotate by the rotating shaft A, driving a chain wheel G to rotate by a chain C, driving a rotating shaft B to rotate by the chain wheel G, driving the steel bar to move to the left side by the chain C, starting the air cylinder C, jacking a connecting plate of the air cylinder C to move upwards, driving the, turning over the steel bars to the roller conveying line A through a shifting plate, retracting the air cylinder C, opening the roller conveying line A backwards, driving the steel bars to the rear side on the roller conveying line A, upsetting the rear ends of the steel bars on the upsetting machine A, placing the upset steel bars on the roller conveying line B, opening the roller conveying line B forwards, driving the steel bars to the front part on the roller conveying line B, upsetting the front ends of the steel bars on the upsetting machine B, placing the steel bars processed by the upsetting machine B on the roller conveying line C, opening the roller conveying line C backwards, driving the steel bars to the rear part of the roller conveying line C, threading the rear ends of the steel bars on the threading machine A, placing the steel bars processed by the threading machine A on the roller conveying line D, driving the roller conveying line D forwards, driving the steel bars to the front part of the roller conveying line D, threading the front ends of the steel bars on the threading machine B, placing the steel bars processed by the threading machine B on the roller conveying line E, open gyro wheel transfer chain E backward, the reinforcing bar moves to the rear portion on gyro wheel transfer chain E, polishes the reinforcing bar rear end on polisher A, and the reinforcing bar after polishing of polisher A is put on gyro wheel transfer chain F, opens gyro wheel transfer chain F forward, polishes the reinforcing bar front end on polisher B, and the reinforcing bar after the processing of polisher B is accomplished is put on storage frame B.

The beneficial effects of the embodiment are as follows: 1. the steel bar required by production has high efficiency. 2. The rotary wheel is provided with a boss to prevent the rotary wheel from sliding out of the rectangular frame. 3. The material turning component is arranged in front of the sawing machine component and comprises a frame body A, rolling shafts, a chain wheel A, a chain wheel C, a motor A, a chain wheel B, a chain, a cylinder A, a guide rail A, a right trapezoid push pedal A and a right trapezoid guide plate A, the frame body A is arranged in front of the sawing machine component, twenty-five rolling shafts are uniformly distributed on the upper portion of the frame body A, the chain wheel A is fixedly arranged at the left end of each rolling shaft, the chain wheel C and the motor A are sequentially and fixedly arranged at the front portion of the frame body A, the chain wheel B is fixedly arranged at the main shaft end of the motor A, the chain wheel C and the chain wheel B are in power transmission through the chain, twelve groups of guide rails A are symmetrically arranged on the left and right sides of the upper portion of the inner side of the frame body A, the right trapezoid push pedal A is arranged between the guide rails A symmetrically arranged, the upper end of the left side wall of the frame body A is fixedly provided with a right trapezoid guide plate A, and the sheared steel bars are automatically turned to the material stirring frame. 4. The right side of the roller conveying line is provided with a material placing frame, so that uncut reinforcing steel bars can be conveniently stored. 5. The stirring subassembly right side sets up storage frame A, twelve group guide rail B of the inboard upper portion of frame body A left and right symmetrical arrangement set up right trapezoid push pedal B between the guide rail B of left and right symmetrical arrangement, right trapezoid push pedal B lower extreme and cylinder B's main shaft fixed connection, cylinder B lower extreme with frame body A fixed connection, frame body A left side wall upper end is fixed to be set up right trapezoid deflector B, is convenient for overturn the storage frame A automatically to the reinforcing bar of shearing. 6. The left side of the material stirring component is provided with a material stirring frame which comprises a frame body B, a rotating shaft A, a rotating shaft B, a motor B, a chain wheel D, a chain wheel E, a chain B, a chain wheel F, a chain wheel G, a chain C, a rotating shaft C, a cylinder C, a connecting plate and a material stirring plate, the left side of the material stirring component is provided with the frame body B, the rotating shaft A is fixedly sleeved with the chain wheel E, the rotating shaft A is fixedly sleeved with the ten chain wheels F, the rotating shaft A is rotatably connected with the upper part of the right side of the frame body B, the ten chain wheels G are fixedly sleeved on the rotating shaft B, the number of the chain wheels G is the same as that of the chain wheels F, the rotating shaft B is rotatably connected with the upper part of the left side of the frame body B, the adjacent chain wheels F and the chain wheels G are in power transmission through the, through chain B power transmission between sprocket D, the sprocket E, the connecting plate is established to the last fixed cover of rotation axis C, ten switch boards are established to the last fixed cover of rotation axis C, rotation axis C with frame body B left side upper portion swivelling joint, cylinder C lower extreme with frame body B is articulated, cylinder C main shaft end with the connecting plate other end is articulated, dials the reinforcing bar automatic transmission of material frame top, overturns to on the gyro wheel transfer chain A. 7. The left side of the roller conveying line F is provided with a storage rack B, so that processed reinforcing steel bars can be conveniently stored on the storage rack B.

The utility model discloses a concrete embodiment does not constitute the pair the utility model discloses a restriction, all adopt the utility model discloses a similar structure and change are all in the utility model discloses a within the protection scope.

Claims

1. The utility model provides a saw cut thick mantle fiber production line of polishing which characterized in that: the automatic cutting machine comprises a roller conveying line (1), a screw rod lifter (101), a sawing machine assembly (2), a material turning assembly (3), a material stirring frame (6), an idler conveying line A (7), a upsetting machine A (8), an idler conveying line B (9), a upsetting machine B (10), an idler conveying line C (11), a threading machine A (12), an idler conveying line D (13), a threading machine B (14), an idler conveying line E (15), a grinding machine A (16), an idler conveying line F (17) and a grinding machine B (18), wherein the sawing machine assembly (2) is arranged on the front side of the roller conveying line (1), the sawing machine assembly (2) comprises a rectangular frame (201), a sawing machine (202) and a rotating wheel (203), the rectangular frame (201) is arranged on the front side of the roller conveying line (1), the rotating wheel (203) is symmetrically arranged on the left side and the right side of the sawing machine (202), and the rotating wheel (203) arranged on the sawing machine (202) is positioned on, lead screw lift (101) main shaft end with lateral wall fixed connection behind sawing machine (202), lead screw lift (101) rear end with cylinder transfer chain (1) front portion fixed connection, sawing machine subassembly (2) front portion sets up stirring subassembly (3), stirring subassembly (3) left side sets up dials work or material rest (6), it sets up gyro wheel transfer chain A (7) to dial work or material rest (6) left side, gyro wheel transfer chain A (7) rear side sets up mound machine A (8), gyro wheel transfer chain A (7) left side sets up gyro wheel transfer chain B (9), gyro wheel transfer chain B (9) front side sets up mound machine B (10), gyro wheel transfer chain B (9) left side sets up gyro wheel transfer chain C (11), gyro wheel transfer chain C (11) rear side sets up mantle fiber machine A (12), gyro wheel transfer chain C (11) left side sets up gyro wheel transfer chain D (13), the front side of the roller conveying line D (13) is provided with a threading machine B (14), the left side of the roller conveying line D (13) is provided with a roller conveying line E (15), the rear side of the roller conveying line E (15) is provided with a grinding machine A (16), the left side of the roller conveying line E (15) is provided with a roller conveying line F (17), and the front side of the roller conveying line F (17) is provided with a grinding machine B (18).

2. The sawing upsetting mantle fiber grinding production line of claim 1, wherein: the rotary wheel (203) is provided with a boss (204).

3. The sawing upsetting mantle fiber grinding production line of claim 1, wherein: the front of the sawing machine component (2) is provided with a material turning component (3), the material turning component (3) comprises a frame body A (301), rollers (302), a chain wheel A (303), a chain wheel C (304), a motor A (305), a chain wheel B (306), a chain (307), a cylinder A (308), a guide rail A (309), a right trapezoid push plate A (310) and a right trapezoid guide plate A (311), the frame body A (301) is arranged in front of the sawing machine component (2), the upper part is uniformly provided with a plurality of rollers (302), the chain wheel A (303) is fixedly arranged at the left end of each roller (302), the chain wheel C (304) and the motor A (305) are fixedly arranged at the front part of the frame body A (301) in sequence, the chain wheel B (306) is fixedly arranged at the main shaft end of the motor A (305), and the chain wheel A (303), the chain wheel C (304) and the chain wheel B (, frame body A (301) inboard upper portion left and right symmetrical arrangement multiunit guide rail A (309), set up right trapezoid push pedal A (310) between left and right symmetrical arrangement's guide rail A (309), the main shaft fixed connection of right trapezoid push pedal A (310) lower extreme and cylinder A (308), cylinder A (308) lower extreme with frame body A (301) fixed connection, frame body A (301) left side wall upper end is fixed and is set up right trapezoid deflector A (311).

4. The sawing upsetting mantle fiber grinding production line of claim 1, wherein: and a material placing frame (4) is arranged on the right side of the roller conveying line (1).

5. The sawing upsetting mantle fiber grinding production line as recited in claim 3, wherein: the stirring subassembly (3) right side set up storage frame A (5), frame body A (301) inboard upper portion left and right symmetrical arrangement multiunit guide rail B (313), set up right trapezoid push pedal B (314) between left and right symmetrical arrangement's guide rail B (313), the main shaft fixed connection of right trapezoid push pedal B (314) lower extreme and cylinder B (312), cylinder B (312) lower extreme with frame body A (301) fixed connection, frame body A (301) left side wall upper end is fixed and is set up right trapezoid deflector B (315).

6. The sawing upsetting mantle fiber grinding production line of claim 1, wherein: the left side of the material turning component (3) is provided with a material turning frame (6), the material turning frame (6) comprises a frame body B (601), a rotating shaft A (602), a rotating shaft B (603), a motor B (604), a chain wheel D (605), a chain wheel E (606), a chain B (607), a chain wheel F (608), a chain wheel G (609), a chain C (610), a rotating shaft C (611), a cylinder C (612), a connecting plate (613) and a material turning plate (614), the left side of the material turning component (3) is provided with the frame body B (601), the rotating shaft A (602) is fixedly sleeved with the chain wheel E (606), the rotating shaft A (602) is fixedly sleeved with a plurality of chain wheels F (608), the rotating shaft A (602) is rotatably connected with the upper part of the right side of the frame body B (601), the rotating shaft B (603) is fixedly sleeved with a plurality of chain wheels G (609), and the number of the chain wheels G (609) is the, the rotating shaft B (603) is rotatably connected with the upper part of the left side of the frame body B (601), the adjacent chain wheel F (608) and chain wheel G (609) are in power transmission through a chain C (610), the motor B (604) is fixedly connected with the frame body B (601), the main shaft end of the motor B (604) is fixedly provided with a chain wheel D (605), the chain wheel D (605) and the chain wheel E (606) are in power transmission through a chain B (607), the rotating shaft C (611) is fixedly sleeved with a connecting plate (613), the rotating shaft C (611) is fixedly sleeved with a plurality of material shifting plates (614), the rotating shaft C (611) is rotatably connected with the upper part of the left side of the frame body B (601), the lower end of the cylinder C (612) is hinged with the frame body B (601), and the end of the cylinder C (612) is hinged with the other end of the main shaft (613).

7. The sawing upsetting mantle fiber grinding production line of claim 1, wherein: and a storage rack B (19) is arranged on the left side of the roller conveying line F (17).