CN113042561A - Steel automatic processing equipment - Google Patents

Abstract

For solving above-mentioned technical problem, a steel automatic processing equipment, including installation feeding device, steel clamping device, steel position control device, steel extrusion device, through the drive of installation feeding device installation other device and the operation of providing equipment and drive the reciprocal removal of steel clamping device and carry out the dwell of one end time at both ends, steel clamping device will just press from both sides tightly fixedly, steel position control device can adjust the position of steel circumference, steel extrusion device carries out functions such as extrusion quench to steel, its characterized in that: the steel clamping device is rotatably installed on the installation feeding device, the steel position adjusting device is installed and fixed on the installation feeding device, and the steel extruding device is installed and fixed on the installation feeding device.

Description

Steel automatic processing equipment

Technical Field

The invention relates to automatic processing equipment, in particular to automatic steel processing equipment.

Background

The steel is a material which can not be developed in the society at present, and no matter which industry is involved more or less, the quality of the steel applied to each industry is different, so the invention discloses the automatic processing equipment for the steel.

Disclosure of Invention

The invention relates to automatic steel processing equipment, in particular to automatic steel processing equipment, which has the functions of installing other devices through an installation feeding device, providing the driving of equipment operation, driving a steel clamping device to move in a reciprocating manner and stopping at two ends for a period of time, clamping and fixing the steel clamping device, adjusting the circumferential position of the steel through a steel position adjusting device, extruding and quenching the steel through a steel extruding device and the like.

For solving above-mentioned technical problem, a steel automatic processing equipment, including installation feeding device, steel clamping device, steel position control device, steel extrusion device, through the drive of installation feeding device installation other device and the operation of providing equipment and drive the reciprocal removal of steel clamping device and carry out the dwell of one end time at both ends, steel clamping device will just press from both sides tightly fixedly, steel position control device can adjust the position of steel circumference, steel extrusion device carries out functions such as extrusion quench to steel, its characterized in that: the steel clamping device is rotatably installed on the installation feeding device, the steel position adjusting device is installed and fixed on the installation feeding device, and the steel extruding device is installed and fixed on the installation feeding device.

As further optimization of the technical scheme, the automatic steel processing equipment comprises an installation and feeding device, a first installation plate, a first driving shaft, an output belt wheel, a support column, a sliding fixed rod, a sliding seat, a rotating sleeve, a connecting column, a sliding column and an adjusting rack, wherein the first installation plate is fixedly installed on the installation and fixing plate, the first driving shaft is rotatably installed on the first installation plate, the output belt wheel is fixedly installed on the driving shaft, the support column is fixedly installed on the installation and fixing plate, the sliding fixed rod is fixedly installed on the support column, the sliding seat is slidably installed on the sliding fixed rod, the rotating sleeve is fixedly installed on the driving shaft, the connecting column is slidably installed in the rotating sleeve, the sliding column is fixedly installed on the connecting column, the sliding column is slidably installed on the sliding seat, and.

As further optimization of the technical scheme, the steel clamping device comprises a rotary mounting column, a rotary disc, a rotary toothed ring, a clamping mounting seat, a rotary inclined-plane toothed ring, a clamping screw rod, a clamping bevel gear, a movable internal thread block and a clamping block, wherein the rotary mounting column is rotatably mounted on a sliding seat, the rotary disc is rotatably mounted on the sliding seat, the rotary toothed ring is fixedly mounted on the rotary mounting column, the clamping mounting seat is fixedly mounted on the rotary mounting column, the rotary inclined-plane toothed ring is rotatably mounted on the clamping mounting seat, the clamping screw rod is rotatably mounted inside the clamping mounting seat, the clamping bevel gear is fixedly mounted on the clamping screw rod, the movable internal thread block is slidably mounted inside the clamping mounting seat, the movable internal thread block is in threaded fit with the clamping screw rod, and the clamping block is fixedly mounted on the movable internal thread block.

As a further optimization of the technical scheme, the invention relates to an automatic steel processing device, which comprises a mounting and fixing bent rod, a first transmission shaft, a pushing gear, a first bevel gear, a second transmission shaft, a second bevel gear, a bevel matching groove, a one-way touch gear, a mounting shaft, a one-way pushing plate and an arc-shaped spring, wherein the mounting and fixing bent rod is mounted and fixed on a mounting and fixing plate, the first transmission shaft is rotatably mounted on the mounting and fixing bent rod, the pushing gear is mounted and fixed on the first transmission shaft, the first bevel gear is mounted and fixed on the first transmission shaft, the second transmission shaft is rotatably mounted on the mounting and fixing bent rod, the second bevel gear is mounted and fixed on the second transmission shaft, the bevel matching groove is arranged on the second transmission shaft, the second transmission shaft of the one-way touch gear rotating device is rotatably mounted inside the one, the arc spring is installed and fixed in the one-way pushing plate and the one-way touch gear.

As a further optimization of the technical scheme, the invention relates to automatic steel processing equipment, wherein a steel extrusion device comprises a tensioning cylinder, a sliding installation block, a limiting sliding column, a spring II, an installation fixing shaft, a transmission connecting gear, a transmission belt I, an installation fixing plate II, a transmission shaft III, a receiving belt wheel II, an output gear II, a transmission shaft IV, a receiving gear III, an output belt wheel III, a transmission belt II, an installation frame, a transmission shaft IV, a receiving belt wheel III, an output bevel gear, a transmission shaft V, a bevel gear III, a bevel gear IV, a transmission shaft VI, a bevel gear V, a bevel gear VI, a sliding internal thread, a moving block control reciprocating movement screw rod, a subtend semi-conical gear set, an extrusion spring, an extrusion sliding block, an extrusion connection column and an extrusion connector which are installed and fixed on a sliding seat in a matching way, the sliding installation block is installed inside the tensioning cylinder in, the limiting sliding column is fixedly installed inside the matched installation tensioning barrel, the spring sleeve is installed on the limiting sliding column, the installation fixing shaft is fixedly installed on the limiting sliding column, the transmission connecting gear is rotatably installed on the installation fixing shaft, the transmission belt I is installed on the output belt wheel and the receiving belt wheel II, the installation fixing plate II is fixedly installed on the installation fixing plate, the transmission shaft III is rotatably installed on the installation fixing plate II, the receiving belt wheel II is fixedly installed on the transmission shaft III, the output gear II is fixedly installed on the transmission shaft III, the transmission shaft IV is rotatably installed on the installation fixing plate II, the receiving gear III is fixedly installed on the transmission shaft IV, the output belt wheel III is fixedly installed on the transmission shaft IV, the transmission belt II is installed on the output belt wheel III and the receiving belt wheel III, the installation frame is fixedly installed on the installation fixing plate, the transmission shaft IV is rotatably, the output bevel gear is fixedly arranged on a fourth transmission shaft, the output bevel gear is meshed with a third bevel gear, the fifth transmission shaft is rotatably arranged on a mounting frame, the third bevel gear is fixedly arranged on a fifth transmission shaft, the fourth bevel gear is fixedly arranged on the fifth transmission shaft, the fourth bevel gear is meshed with the fifth bevel gear, the sixth transmission shaft is rotatably arranged on the mounting frame, the fifth bevel gear is fixedly arranged on a sixth transmission shaft, the sixth bevel gear is fixedly arranged on a sixth transmission shaft, a sliding internal thread moving block is slidably arranged on the mounting frame, a control reciprocating screw is rotatably arranged on the mounting frame, the control reciprocating screw is in threaded fit with the sliding internal thread moving block, an opposite half bevel gear set is fixedly arranged on the control reciprocating screw, an extrusion spring is arranged inside the opposite half bevel gear set, an extrusion sliding, the extrusion connector is fixedly arranged on the extrusion connecting column.

As a further optimization of the technical scheme, the automatic steel processing equipment is characterized in that a driving shaft for mounting the feeding device is provided with a matched motor.

As further optimization of the technical scheme, the automatic steel processing equipment comprises two transmission shafts five, two bevel gears three, two bevel gears four, two transmission shafts six, two bevel gears five, two bevel gears six, a sliding internal thread moving block, a control reciprocating moving screw rod, two opposite semi-conical gear sets, two extrusion springs, two extrusion sliding blocks, two extrusion connecting columns and two extrusion connecting heads.

The automatic steel processing equipment has the beneficial effects that:

the invention relates to automatic steel processing equipment, in particular to automatic steel processing equipment which realizes the functions of installing other devices through an installation feeding device, providing the driving of equipment operation, driving a steel clamping device to move in a reciprocating manner and stopping at two ends for a period of time, clamping and fixing the steel clamping device, adjusting the circumferential position of steel through a steel position adjusting device, extruding and quenching the steel through a steel extruding device and the like.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view of the overall structure of the present invention.

Fig. 3 is a third schematic view of the overall structure of the present invention.

Fig. 4 is a first structural schematic diagram of the installation feeding device of the invention.

Fig. 5 is a second structural schematic diagram of the installation feeding device of the present invention.

Fig. 6 is a third schematic structural diagram of the installation feeding device of the present invention.

Fig. 7 is a first structural schematic diagram of the steel clamping device of the present invention.

FIG. 8 is a second structural view of the steel clamping device of the present invention.

Fig. 9 is a third structural schematic view of the steel clamping device of the present invention.

FIG. 10 is a first schematic structural view of a steel position adjusting device according to the present invention.

FIG. 11 is a second schematic structural view of a steel position adjusting device according to the present invention.

FIG. 12 is a third schematic structural view of a steel position adjusting device according to the present invention.

Fig. 13 is a fourth schematic structural view of the steel position adjusting device of the present invention.

FIG. 14 is a first structural view of a steel extrusion apparatus according to the present invention.

FIG. 15 is a second schematic structural view of a steel material extruding apparatus according to the present invention.

FIG. 16 is a third schematic structural view of a steel material extruding apparatus according to the present invention.

FIG. 17 is a fourth schematic structural view of a steel material extruding apparatus according to the present invention.

In the figure: installing the feeding device 1; mounting a fixed plate 1-1; mounting plates I1-2; 1-3 of a driving shaft; an output pulley 1-4; 1-5 of a support column; sliding the fixed rod 1-6; 1-7 of a sliding seat; 1-8 of a rotating sleeve; 1-9 of connecting columns; 1-10 of a sliding column; adjusting a rack 1-11 steel clamping device 2; rotating the mounting column 2-1; 2-2 of a rotating disc; rotating the gear ring 2-3; 2-4 of a clamping mounting seat; rotating the bevel gear ring 2-5; clamping the screw rod 2-6; clamping bevel gears 2-7; moving the internal thread blocks 2-8; a steel position adjusting device 3 of the clamping blocks 2-9; installing and fixing a bent rod 3-1; a first transmission shaft 3-2; a propulsion gear 3-3; 3-4 parts of a first bevel gear; 3-5 parts of a second transmission shaft; 3-6 parts of a second bevel gear; the inclined plane is matched with the groove 3-7; 3-8 of a one-way touch gear; installing shafts 3-9; 3-10 parts of a one-way push plate; the arc-shaped spring 3-11 is a steel extrusion device 4; a tensioning cylinder 4-1 is installed in a matching way; a sliding mounting block 4-2; 4-3 of a limiting sliding column; 4-4 parts of a second spring; mounting a fixed shaft 4-5; the transmission is connected with gears 4-6; 4-7 parts of a first transmission belt; mounting a second fixing plate 4-8; a transmission shaft III is 4-9; a second receiving belt wheel 4-10; output gear two 4-11; a transmission shaft IV is 4-12; receiving gear three 4-13; an output belt wheel III 4-14; 4-15 parts of a second transmission belt; mounting frames 4-16; a transmission shaft IV is 4-17; receiving belt wheels three 4-18; output bevel gears 4-19; 4-20 parts of a transmission shaft; bevel gears three 4-21; bevel gears four 4-22; six 4-23 parts of a transmission shaft; bevel gears five 4-24; 4-25 parts of bevel gear; sliding internal thread moving blocks 4-26; controlling the reciprocating lead screws 4-27; opposite half bevel gear sets 4-28; 4-29 of an extrusion spring; 4-30 of an extrusion sliding block; 4-31 parts of an extrusion connecting column; the connectors 4-32 are pressed.

Detailed Description

The first embodiment is as follows:

in order to solve the above technical problems, an automatic steel processing apparatus includes an installation and feeding device 1, a steel clamping device 2, a steel position adjusting device 3, a steel extruding device 4, and other devices installed by the installation and feeding device and providing the driving of the operation of the apparatus and driving the steel clamping device to move back and forth and to stay for a period of time at both ends, the steel clamping device will be clamped and fixed, the steel position adjusting device can adjust the circumferential position of the steel, the steel extruding device performs the functions of extruding and quenching the steel, and the like, and is characterized in that: the steel clamping device 2 is rotatably installed on the installation feeding device 1, the steel position adjusting device 3 is installed and fixed on the installation feeding device 1, and the steel extruding device 4 is installed and fixed on the installation feeding device 1.

The second embodiment is as follows:

the embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, and 17, and the embodiment further describes the embodiment, where the installation and feeding device 1 includes an installation fixing plate 1-1, an installation plate 1-2, a driving shaft 1-3, an output pulley 1-4, a support post 1-5, a sliding fixing rod 1-6, a sliding seat 1-7, a rotating sleeve 1-8, a connection post 1-9, a sliding post 1-10, and an adjusting rack 1-11, the driving shaft 1-3 of the installation and feeding device 1 drives the output pulley 1-4 and the rotating sleeve 1-8 to rotate, the rotating sleeve 1-8 slides on the sliding seat 1-7 through the sliding fit with the connection post 1-9 and the sliding post 1-10 slides on the sliding seat 1-7 to drive the sliding seat 1-7 to slide on the sliding fixing rod 1-6 are moved in a reciprocating way, and stay time for a certain time at the two ends of a sliding fixed rod 1-6 can be adjusted according to the length among a supporting column 1-5, a sliding fixed rod 1-6, a sliding seat 1-7, a rotating sleeve 1-8 and a connecting column 1-9, then the sliding seat 1-7 drives steel to move in a reciprocating way through a steel clamping device 2, a mounting plate 1-2 is fixedly arranged on a mounting fixed plate 1-1, a driving shaft 1-3 is rotatably arranged on the mounting plate 1-2, an output belt wheel 1-4 is fixedly arranged on the driving shaft 1-3, the supporting column 1-5 is fixedly arranged on the mounting fixed plate 1-1, the sliding fixed rod 1-6 is fixedly arranged on the supporting column 1-5, and the sliding seat 1-7 is slidably arranged on the sliding fixed rod 1-6, the rotating sleeve 1-8 is fixedly arranged on the driving shaft 1-3, the connecting column 1-9 is slidably arranged in the rotating sleeve 1-8, the sliding column 1-10 is fixedly arranged on the connecting column 1-9, the sliding column 1-10 is slidably arranged on the sliding seat 1-7, and the adjusting rack 1-11 is fixedly arranged on the sliding seat 1-7.

The third concrete implementation mode:

the embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, and the embodiment further describes the first embodiment, where the steel clamping device 2 includes a rotary mounting post 2-1, a rotary disk 2-2, a rotary toothed ring 2-3, a clamping mounting seat 2-4, a rotary bevel toothed ring 2-5, a clamping lead screw 2-6, a clamping bevel gear 2-7, a movable internal thread block 2-8, and a clamping block 2-9, the rotary bevel toothed ring 2-5 of the steel clamping device 2 drives the clamping bevel gear 2-7 to rotate, the rotary clamping bevel gear 2-7 drives the movable internal thread block 2-8 and the clamping block 2-9 to clamp the steel through the clamping lead screw 2-6, the rotary one-way touch gear 3-8 drives a clamping mounting seat 2-4 for clamping steel on a rotary mounting column 2-1 to rotate through a rotary toothed ring 2-3 so as to drive the steel to rotate by a certain angle, the rotary mounting column 2-1 is rotatably mounted on a sliding seat 1-7, a rotary disc 2-2 is rotatably mounted on the sliding seat 1-7, the rotary toothed ring 2-3 is fixedly mounted on the rotary mounting column 2-1, a clamping mounting seat 2-4 is fixedly mounted on the rotary mounting column 2-1, a rotary bevel toothed ring 2-5 is rotatably mounted on the clamping mounting seat 2-4, a clamping screw 2-6 is rotatably mounted inside the clamping mounting seat 2-4, a clamping bevel gear 2-7 is fixedly mounted on a clamping screw 2-6, and a movable internal thread block 2-8 is slidably mounted inside the clamping mounting seat 2-4, the movable internal thread blocks 2-8 are in threaded fit with the clamping screw rods 2-6, and the clamping blocks 2-9 are fixedly arranged on the movable internal thread blocks 2-8.

The fourth concrete implementation mode:

the embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, and the embodiment further describes the first embodiment, in which the steel position adjusting device 3 includes a fixed installation curved bar 3-1, a first transmission shaft 3-2, a push gear 3-3, a first bevel gear 3-4, a second transmission shaft 3-5, a second bevel gear 3-6, a bevel mating groove 3-7, a one-way trigger gear 3-8, a mounting shaft 3-9, a one-way push plate 3-10, and an arc spring 3-11, when the feeding device 1 is installed to drive the steel to move close to the steel extruding device 4 through the steel clamping device 2, the push gear 3-3 of the steel position adjusting device 3 engages with the adjusting rack 1-11, meanwhile, the rotating gear ring 2-3 is meshed with the one-way touch gear 3-8, then the adjusting rack 1-11 drives the pushing gear 3-3 to rotate, the pushing gear 3-3 drives the bevel gear I3-4 to rotate through the transmission shaft I3-2, the bevel gear I3-4 drives the transmission shaft II 3-5 to rotate through the bevel gear II 3-6, the transmission shaft II 3-5 drives the one-way touch gear 3-8 to rotate through the cooperation of the inclined matching groove 3-7 and the one-way push plate 3-10, when the transmission shaft II 3-5 rotates in the other direction, the one-way push plate 3-10 rotates around the mounting shaft 3-9 and compresses the arc spring 3-11 to prevent the one-way touch gear 3-8 from rotating, and the mounting and fixing bent rod 3-1 is mounted and fixed on the mounting fixing plate 1-1, the transmission shaft I3-2 is rotatably arranged on the installation fixing bent rod 3-1, the propelling gear 3-3 is fixedly arranged on the transmission shaft I3-2, the bevel gear I3-4 is fixedly arranged on the transmission shaft I3-2, the transmission shaft II 3-5 is rotatably arranged on the installation fixing bent rod 3-1, the bevel gear II 3-6 is fixedly arranged on the transmission shaft II 3-5, the inclined surface matching groove 3-7 is arranged on the transmission shaft II 3-5, the one-way touch gear 3-8 is rotatably arranged on the transmission shaft II 3-5, the installation shaft 3-9 is rotatably arranged in the one-way touch gear 3-8, the one-way push plate 3-10 is fixedly arranged on the installation shaft 3-9, and the arc spring 3-11 is fixedly arranged in the one-way push plate 3-10 and the one-way touch gear 3-.

The fifth concrete implementation mode:

the present embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, and 17, and the present embodiment further describes the first embodiment, in which the steel material extruding apparatus 4 includes a cooperatively installed tensioning cylinder 4-1, a sliding installation block 4-2, a limiting sliding column 4-3, a second spring 4-4, an installed fixed shaft 4-5, a transmission connecting gear 4-6, a transmission belt first 4-7, an installed fixed plate second 4-8, a transmission shaft third 4-9, a receiving pulley second 4-10, an output gear second 4-11, a transmission shaft fourth 4-12, a receiving gear third 4-13, an output pulley third 4-14, a transmission belt second 4-15, an installation frame 4-16, a transmission shaft fourth 4-17, and a transmission shaft fourth 4-11, 4-18 parts of a receiving belt wheel III, 4-19 parts of an output bevel gear, 4-20 parts of a transmission shaft V, 4-21 parts of a bevel gear III, 4-22 parts of a bevel gear IV, 4-23 parts of a transmission shaft VI, 4-24 parts of a bevel gear V, 4-25 parts of a bevel gear VI, 4-26 parts of a sliding internal thread moving block, 4-27 parts of a control reciprocating lead screw, 4-28 parts of an opposite semi-bevel gear set, 4-29 parts of an extrusion spring, 4-30 parts of an extrusion sliding block, 4-31 parts of an extrusion connecting column and 4-32 parts of an extrusion connector, meanwhile, a sliding seat 1-7 pushes a tensioning cylinder 4-1 which is installed in a matched mode of a steel extrusion device 4 to move, and the tensioning cylinder 4-1 is installed in a matched mode to drive a sliding installation block 4-2, a limiting sliding column 4-3, 4-4 The output gear II 4-11 is meshed with the receiving gear III 4-13, then the output belt wheel 1-4 on the driving shaft 1-3 drives the receiving belt wheel II 4-10 to rotate through the transmission belt I4-7, the receiving belt wheel II 4-10 drives the output gear II 4-11 to rotate through the transmission shaft III 4-9, the output gear II 4-11 drives the receiving gear III 4-13 to rotate through the transmission connecting gear 4-6, the receiving gear III 4-13 drives the output belt wheel III 4-14 to rotate through the transmission shaft IV 4-12, the output belt wheel III 4-14 drives the receiving belt wheel III 4-18 to rotate through the transmission belt II 4-15, the receiving belt wheel III 4-18 drives the output bevel gear 4-19 to rotate through the transmission shaft IV 4-17, the output bevel gears 4-19 drive the transmission shafts five 4-20 to rotate through the bevel gears three 4-21, the transmission shafts five 4-20 drive the bevel gears five 4-24 to rotate through the bevel gears four 4-22, the bevel gears five 4-24 drive the bevel gears six 4-25 to rotate through the transmission shafts six 4-23, the rotating bevel gears six 4-25 reciprocate and drive the control reciprocating movement screw rods 4-27 to rotate in a reciprocating manner through the opposite half bevel gear sets 4-28, the control reciprocating movement screw rods 4-27 of the reciprocating rotation enable the sliding internal thread moving blocks 4-26 to move in a reciprocating manner on the mounting rack 4-16, then the sliding internal thread moving blocks 4-26 extrude steel in a reciprocating manner through the extrusion springs 4-29, the extrusion sliding blocks 4-30, the extrusion connecting columns 4-31 and the extrusion connectors 4-32, in the process of extrusion, steel continuously changes position, when the sliding seat 1-7 moves to the end of the sliding fixing rod 1-6 closest to the steel extrusion device 4, the sliding seat stays for a certain time, and the steel does not rotate, but the steel extrusion device 4 continuously extrudes the steel, when the sliding seat 1-7 moves back, the steel clamping device 2 cannot drive the steel to rotate, so that the steel extrusion device 4 does not extrude the steel at the same position next time, the tensioning cylinder 4-1 is installed and fixed on the sliding seat 1-7 in a matching way, the sliding installation block 4-2 is installed inside the tensioning cylinder 4-1 in a matching way and on the limiting sliding column 4-3 in a sliding way, the limiting sliding column 4-3 is installed and fixed inside the tensioning cylinder 4-1 in a matching way, and the spring two 4-4 are sleeved on the limiting sliding column 4-3, a mounting fixed shaft 4-5 is fixedly arranged on a limiting sliding column 4-3, a transmission connecting gear 4-6 is rotatably arranged on the mounting fixed shaft 4-5, a transmission belt I4-7 is arranged on an output belt wheel 1-4 and a receiving belt wheel II 4-10, a mounting fixed plate II 4-8 is fixedly arranged on the mounting fixed plate 1-1, a transmission shaft III 4-9 is rotatably arranged on the mounting fixed plate II 4-8, a receiving belt wheel II 4-10 is fixedly arranged on a transmission shaft III 4-9, an output gear II 4-11 is fixedly arranged on the transmission shaft III 4-9, a transmission shaft IV 4-12 is rotatably arranged on the mounting fixed plate II 4-8, a receiving gear III 4-13 is fixedly arranged on a transmission shaft IV 4-12, an output belt wheel III 4-14 is fixedly arranged on the transmission shaft IV 4-12, a second transmission belt 4-15 is arranged on a third output belt wheel 4-14 and a third receiving belt wheel 4-18, a mounting frame 4-16 is fixedly arranged on a mounting fixing plate 1-1, a fourth transmission shaft 4-17 is rotatably arranged on the mounting frame 4-16, a third receiving belt wheel 4-18 is fixedly arranged on a fourth transmission shaft 4-17, an output bevel gear 4-19 is meshed with a third bevel gear 4-21, a fifth transmission shaft 4-20 is rotatably arranged on the mounting frame 4-16, a third bevel gear 4-21 is fixedly arranged on a fifth transmission shaft 4-20, a fourth bevel gear 4-22 is meshed with a fifth bevel gear 4-24, and a sixth transmission shaft 4-23 is rotatably arranged on the, a fifth bevel gear 4-24 is fixedly arranged on a sixth transmission shaft 4-23, a sixth bevel gear 4-25 is fixedly arranged on the sixth transmission shaft 4-23, a sliding internal thread moving block 4-26 is slidably arranged on an installation frame 4-16, a reciprocating lead screw 4-27 is controlled to be rotatably arranged on the installation frame 4-16, the reciprocating lead screw 4-27 is controlled to be in threaded fit with the sliding internal thread moving block 4-26, the opposite semi-cone gear set 4-28 is fixedly arranged on the reciprocating movement control screw rod 4-27, the extrusion spring 4-29 is arranged inside the opposite semi-cone gear set 4-28, the extrusion sliding block 4-30 is slidably arranged inside the opposite semi-cone gear set 4-28, the extrusion connecting column 4-31 is fixedly arranged on the extrusion sliding block 4-30, and the extrusion connector 4-32 is fixedly arranged on the extrusion connecting column 4-31.

The sixth specific implementation mode:

the present embodiment will be described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, and 17, and the second embodiment will be further described, in which the driving shafts 1 to 3 of the installation and feeding device 1 are provided with a matching motor.

The sixth specific implementation mode:

the following describes the present embodiment with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, and the present embodiment further describes the fourth embodiment, where there are two numbers of the transmission shaft five 4-20, the bevel gear three 4-21, the bevel gear four 4-22, the transmission shaft six 4-23, the bevel gear five 4-24, the bevel gear six 4-25, the sliding internal thread moving block 4-26, the control reciprocating lead screw 4-27, the opposite half bevel gear set 4-28, the extrusion spring 4-29, the extrusion sliding block 4-30, the extrusion connection column 4-31, and the extrusion connection head 4-32 of the steel extrusion device 4.

The working principle of the invention is as follows:

a steel product automatic processing device has the working principle that whether the connection condition between the devices meets the requirements is checked before the device is used, firstly, a rotating bevel gear ring 2-5 of a steel product clamping device 2 is rotated to drive a clamping bevel gear 2-7 to rotate, the rotating clamping bevel gear 2-7 drives a moving inner thread block 2-8 and a clamping block 2-9 to clamp the steel product through a clamping lead screw 2-6, then a driving shaft 1-3 of a feeding device 1 is installed to drive an output belt wheel 1-4 and a rotating sleeve 1-8 to rotate, the rotating sleeve 1-8 drives a sliding seat 1-7 to reciprocate on a sliding fixed rod 1-6 through the sliding fit between a connecting column 1-9 and a sliding column 1-10 on the sliding seat 1-7, and the stay time can be kept according to the stay time of a support rod 1-6 at two ends of the sliding fixed rod 1-6 The length among the columns 1-5, the sliding fixed rods 1-6, the sliding seats 1-7, the rotating sleeves 1-8 and the connecting columns 1-9 is adjusted, then the sliding seats 1-7 drive steel to move back and forth through the steel clamping device 2, when the mounting and feeding device 1 drives the steel to move close to the steel extrusion device 4 through the steel clamping device 2, the pushing gears 3-3 of the steel position adjusting device 3 are meshed with the adjusting racks 1-11, meanwhile, the rotating toothed rings 2-3 are meshed with the one-way touch gears 3-8, then the adjusting racks 1-11 drive the pushing gears 3-3 to rotate, the pushing gears 3-3 drive the bevel gears 3-4 to rotate through the transmission shafts one 3-2, the bevel gears one 3-4 drive the transmission shafts two 3-5 to rotate through the bevel gears two 3-6, the second transmission shaft 3-5 drives the one-way touch gear 3-8 to rotate through the cooperation of the inclined matching groove 3-7 and the one-way push plate 3-10, when the second transmission shaft 3-5 rotates towards the other direction, the one-way push plate 3-10 rotates around the mounting shaft 3-9 and compresses the arc spring 3-11 and cannot drive the one-way touch gear 3-8 to rotate, the rotating one-way touch gear 3-8 drives the clamping mounting seat 2-4 for clamping steel on the rotating mounting column 2-1 to rotate through the rotating toothed ring 2-3 so as to drive the steel to rotate for a certain angle, meanwhile, the sliding seat 1-7 drives the matching mounting tension cylinder 4-1 of the steel extrusion device 4 to move, and the matching mounting tension cylinder 4-1 drives the sliding mounting block 4-2, the sliding mounting, The limiting sliding column 4-3, the spring II 4-4, the mounting fixed shaft 4-5 and the transmission connecting gear 4-6 move and enable the transmission connecting gear 4-6 to be respectively meshed with the output gear II 4-11 and the receiving gear III 4-13, then the output belt wheel 1-4 on the driving shaft 1-3 drives the receiving belt wheel II 4-10 to rotate through the transmission belt I4-7, the receiving belt wheel II 4-10 drives the output gear II 4-11 to rotate through the transmission shaft III 4-9, the output gear II 4-11 drives the receiving gear III 4-13 to rotate through the transmission connecting gear 4-6, the receiving gear III 4-13 drives the output belt wheel III 4-14 to rotate through the transmission shaft IV 4-12, and the output belt wheel III 4-14 drives the receiving belt wheel III 4-18 to rotate through the transmission belt II 4-15, the receiving belt wheel III 4-18 drives the output bevel gear 4-19 to rotate through the transmission shaft IV 4-17, the output bevel gear 4-19 drives the transmission shaft V4-20 to rotate through the bevel gear III 4-21, the transmission shaft V4-20 drives the bevel gear V4-24 to rotate through the bevel gear IV 4-22, the bevel gear V4-24 drives the bevel gear VI 4-25 to rotate through the transmission shaft VI 4-23, the rotating bevel gear VI 4-25 reciprocates and drives the control reciprocating movement screw rod 4-27 to rotate in a reciprocating manner through the opposite half bevel gear set 4-28, the reciprocating rotation control reciprocating movement screw rod 4-27 enables the sliding internal thread moving block 4-26 to move in a reciprocating manner on the mounting rack 4-16, and then the sliding internal thread moving block 4-26 passes through the extrusion spring 4-29, The extrusion sliding blocks 4-30, the extrusion connecting columns 4-31 and the extrusion connectors 4-32 perform reciprocating extrusion on steel, the steel continuously changes positions in the extrusion process, when the sliding seats 1-7 move to the ends, closest to the steel extrusion device 4, of the sliding fixing rods 1-6, a certain time is kept, the steel does not rotate, but the steel extrusion device 4 continuously extrudes the steel, and when the sliding seats 1-7 move back, the steel clamping device 2 cannot drive the steel to rotate, so that the steel extrusion device 4 does not extrude the steel at the same position next time.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (7)

1. The utility model provides a steel automatic processing equipment, includes installation feeding device (1), steel clamping device (2), steel position control device (3), steel extrusion device (4), its characterized in that: the steel clamping device (2) is rotatably installed on the installation feeding device (1), the steel position adjusting device (3) is installed and fixed on the installation feeding device (1), and the steel extruding device (4) is installed and fixed on the installation feeding device (1).

2. An automatic processing apparatus for steel according to claim 1, characterized in that: the installation feeding device (1) comprises an installation fixing plate (1-1), a first installation plate (1-2), a driving shaft (1-3), an output belt wheel (1-4), a support column (1-5), a sliding fixing rod (1-6), a sliding seat (1-7), a rotating sleeve (1-8), a connecting column (1-9), a sliding column (1-10) and an adjusting rack (1-11), wherein the first installation plate (1-2) is fixedly installed on the installation fixing plate (1-1), the driving shaft (1-3) is rotatably installed on the first installation plate (1-2), the output belt wheel (1-4) is fixedly installed on the driving shaft (1-3), the support column (1-5) is fixedly installed on the installation fixing plate (1-1), the sliding fixing rod (1-6) is fixedly arranged on the supporting column (1-5), the sliding seat (1-7) is slidably arranged on the sliding fixing rod (1-6), the rotating sleeve (1-8) is fixedly arranged on the driving shaft (1-3), the connecting column (1-9) is slidably arranged in the rotating sleeve (1-8), the sliding column (1-10) is fixedly arranged on the connecting column (1-9), the sliding column (1-10) is slidably arranged on the sliding seat (1-7), and the adjusting rack (1-11) is fixedly arranged on the sliding seat (1-7).

3. An automatic processing apparatus for steel according to claim 1, characterized in that: the steel clamping device (2) comprises a rotary mounting column (2-1), a rotary disc (2-2), a rotary toothed ring (2-3), a clamping mounting seat (2-4), a rotary inclined-plane toothed ring (2-5), a clamping lead screw (2-6), a clamping bevel gear (2-7), a movable internal thread block (2-8) and a clamping block (2-9), wherein the rotary mounting column (2-1) is rotatably mounted on a sliding seat (1-7), the rotary disc (2-2) is rotatably mounted on the sliding seat (1-7), the rotary toothed ring (2-3) is fixedly mounted on the rotary mounting column (2-1), the clamping mounting seat (2-4) is fixedly mounted on the rotary mounting column (2-1), and the rotary inclined-plane toothed ring (2-5) is rotatably mounted on the clamping mounting seat (2-4), the clamping screw rod (2-6) is rotatably arranged inside the clamping mounting seat (2-4), the clamping bevel gear (2-7) is fixedly arranged on the clamping screw rod (2-6), the movable inner thread block (2-8) is slidably arranged inside the clamping mounting seat (2-4), the movable inner thread block (2-8) is in threaded fit with the clamping screw rod (2-6), and the clamping block (2-9) is fixedly arranged on the movable inner thread block (2-8).

4. An automatic processing apparatus for steel according to claim 1, characterized in that: the steel position adjusting device (3) comprises a mounting and fixing bent rod (3-1), a transmission shaft I (3-2), a propelling gear (3-3), a bevel gear I (3-4), a transmission shaft II (3-5), a bevel gear II (3-6), an inclined plane matching groove (3-7), a one-way touch gear (3-8), a mounting shaft (3-9), a one-way push plate (3-10) and an arc spring (3-11), the mounting and fixing bent rod (3-1) is mounted and fixed on a mounting and fixing plate (1-1), the transmission shaft I (3-2) is rotatably mounted on the mounting and fixing bent rod (3-1), the propelling gear (3-3) is mounted and fixed on the transmission shaft I (3-2), and the bevel gear I (3-4) is mounted and fixed on the transmission shaft I (3-2), a second transmission shaft (3-5) is rotatably arranged on the fixed mounting bent rod (3-1), a second bevel gear (3-6) is fixedly arranged on the second transmission shaft (3-5), an inclined surface matching groove (3-7) is formed in the second transmission shaft (3-5), a second one-way touch gear (3-8) is arranged on the second transmission shaft (3-5) of the rotating device, a mounting shaft (3-9) is rotatably arranged in the second one-way touch gear (3-8), a one-way push plate (3-10) is fixedly arranged on the mounting shaft (3-9), and an arc-shaped spring (3-11) is fixedly arranged in the first one-way push plate (3-10) and the one-way touch gear (3-8).

5. An automatic processing apparatus for steel according to claim 1, characterized in that: the steel extrusion device (4) comprises a tension cylinder (4-1), a sliding installation block (4-2), a limiting sliding column (4-3), a spring II (4-4), an installation fixing shaft (4-5), a transmission connecting gear (4-6), a transmission belt I (4-7), an installation fixing plate II (4-8), a transmission shaft III (4-9), a receiving belt wheel II (4-10), an output gear II (4-11), a transmission shaft IV (4-12), a receiving gear III (4-13), an output belt wheel III (4-14), a transmission belt II (4-15), an installation frame (4-16), a transmission shaft IV (4-17), a receiving belt wheel III (4-18), an output bevel gear (4-19), A fifth transmission shaft (4-20), a third bevel gear (4-21), a fourth bevel gear (4-22), a sixth transmission shaft (4-23), a fifth bevel gear (4-24), a sixth bevel gear (4-25), a sliding internal thread moving block (4-26), a control reciprocating lead screw (4-27), an opposite semi-bevel gear set (4-28), an extrusion spring (4-29), an extrusion sliding block (4-30), an extrusion connecting post (4-31) and an extrusion connecting head (4-32), a matching installation tensioning cylinder (4-1) is installed and fixed on a sliding seat (1-7), a sliding installation block (4-2) is installed in the matching installation tensioning cylinder (4-1) and on a limiting sliding column (4-3), and the limiting sliding column (4-3) is installed and fixed in the matching installation tensioning cylinder (4-1), a second spring (4-4) is sleeved on the limiting sliding column (4-3), a mounting fixed shaft (4-5) is fixedly mounted on the limiting sliding column (4-3), a transmission connecting gear (4-6) is rotatably mounted on the mounting fixed shaft (4-5), a first transmission belt (4-7) is mounted on an output belt wheel (1-4) and a second receiving belt wheel (4-10), a second mounting fixed plate (4-8) is fixedly mounted on the mounting fixed plate (1-1), a third transmission shaft (4-9) is rotatably mounted on the second mounting fixed plate (4-8), the second receiving belt wheel (4-10) is fixedly mounted on a third transmission shaft (4-9), a second output gear (4-11) is fixedly mounted on the third transmission shaft (4-9), a fourth transmission shaft (4-12) is rotatably mounted on the second mounting fixed plate (4-8), a third receiving gear (4-13) is fixedly arranged on a fourth transmission shaft (4-12), a third output belt wheel (4-14) is fixedly arranged on the fourth transmission shaft (4-12), a second transmission belt (4-15) is arranged on the third output belt wheel (4-14) and the third receiving belt wheel (4-18), a mounting frame (4-16) is fixedly arranged on a mounting and fixing plate (1-1), the fourth transmission shaft (4-17) is rotatably arranged on the mounting frame (4-16), the third receiving belt wheel (4-18) is fixedly arranged on the fourth transmission shaft (4-17), an output bevel gear (4-19) is fixedly arranged on the fourth transmission shaft (4-17), the output bevel gear (4-19) is meshed with the third bevel gear (4-21), and a fifth transmission shaft (4-20) is rotatably arranged on the mounting frame (4-16), a bevel gear III (4-21) is fixedly arranged on a transmission shaft V (4-20), a bevel gear IV (4-22) is fixedly arranged on the transmission shaft V (4-20), the bevel gear IV (4-22) is meshed with the bevel gear V (4-24), a transmission shaft VI (4-23) is rotatably arranged on an installation frame (4-16), the bevel gear V (4-24) is fixedly arranged on the transmission shaft VI (4-23), a bevel gear VI (4-25) is fixedly arranged on the transmission shaft VI (4-23), a sliding internal thread moving block (4-26) is slidably arranged on the installation frame (4-16), a reciprocating movement screw rod (4-27) is controlled to be rotatably arranged on the installation frame (4-16), and the reciprocating movement screw rod (4-27) is controlled to be in threaded fit with the sliding internal thread moving block (4-26), the opposite half bevel gear set (4-28) is fixedly arranged on the reciprocating movement control screw rod (4-27), the extrusion spring (4-29) is arranged inside the opposite half bevel gear set (4-28), the extrusion sliding block (4-30) is slidably arranged inside the opposite half bevel gear set (4-28), the extrusion connecting column (4-31) is fixedly arranged on the extrusion sliding block (4-30), and the extrusion connector (4-32) is fixedly arranged on the extrusion connecting column (4-31).

6. An automatic processing apparatus for steel according to claim 2, characterized in that: and a driving shaft (1-3) of the mounting and feeding device (1) is provided with a matched motor.

7. An automatic processing apparatus for steel according to claim 5, characterized in that: the steel extrusion device is characterized in that the number of a transmission shaft five (4-20), a bevel gear three (4-21), a bevel gear four (4-22), a transmission shaft six (4-23), a bevel gear five (4-24), a bevel gear six (4-25), a sliding internal thread moving block (4-26), a control reciprocating movement screw rod (4-27), an opposite semi-bevel gear set (4-28), an extrusion spring (4-29), an extrusion sliding block (4-30), an extrusion connecting column (4-31) and an extrusion connecting head (4-32) is two.

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