CN108607928B - Automatic production line for long section bar - Google Patents

Abstract

The invention relates to an automatic production line of long profiles, which comprises punching and cutting equipment, a conveying table and a lifting type feeding device, wherein the punching and cutting equipment comprises a shell, a bottom plate and a bottom plate lifting table are also arranged in the shell, an upper punching device is arranged in the shell, a mold core and a two-dimensional displacement device are arranged on the left side of the upper punching device, and a cutting device is arranged on the right side of the upper punching device; the lifting type feeding device comprises a discharging device, a profile lateral shifting device and a profile pushing device, wherein the discharging device comprises a bottom shell, a profile baffle, a profile supporting plate and a supporting plate driving device, the profile lateral shifting device comprises a supporting column and a cross beam, a cross beam sliding plate is arranged on the cross beam, one end of the cross beam sliding plate is provided with a profile lateral shifting push plate, the profile pushing device comprises a vertical beam and a vertical beam sliding plate which is slidably arranged on the vertical beam, and a jacking plate lifting device are arranged below the vertical beam sliding plate. The long section bar automatic production line is suitable for long section bars or pipe materials, can automatically feed materials, and has high punching and cutting efficiency.

Description

Automatic production line for long section bar

Technical Field

The invention relates to a section bar production device, in particular to an automatic production line of a long section bar.

Background

At present, when punching or cutting long section bar or long section bar, two working procedures of punching and cutting are generally performed through two different devices respectively, an operator needs to input the punched section bar or long section bar into a cutting device for cutting, the working efficiency is low, and an automatic feeding device of the existing punching device is generally designed for a section bar or a section bar with a shorter length, is not suitable for a section bar or a section bar with a longer length, so that an automatic production line for automatically feeding, punching and cutting the section bar or the section bar is required to be designed.

In view of the above-mentioned drawbacks, the present inventors have actively studied and innovated to create an automatic production line for long sections with a novel structure, which has a more industrial utility value.

Disclosure of Invention

In order to solve the technical problems, the invention aims to provide an automatic long section bar production line which is applicable to long section bars or pipe materials, can automatically feed materials, and has high punching and cutting efficiency.

The invention relates to an automatic long profile production line, which comprises punching and cutting equipment, a conveying table and a lifting type feeding device, wherein the punching and cutting equipment is positioned at the left side of the conveying table and comprises a shell, a profile input port is arranged on the right side wall of the shell, a profile output port is correspondingly arranged on the left side wall of the shell, a bottom plate is further arranged in the shell, a bottom plate lifting table for driving the bottom plate to lift is arranged at the bottom of the shell, an upper punching device is arranged on the top wall of the shell and comprises an upper die and an upper die driving oil cylinder for driving the upper die to lift, the upper die driving oil cylinder is fixedly arranged on the top wall of the shell, a die core matched with the upper die and a two-dimensional displacement device for driving the die to lift and move left and right, a cutting device is arranged on the right side of the upper punching device and comprises a cutter for cutting a core material, a cutter lifting device for driving the cutter lifting device and a cutter lifting device mounting seat for mounting the cutter lifting device, and the lifting device mounting seat is slidably arranged on the top wall of the shell;

the lifting type feeding device comprises a discharging device positioned at the front side and the rear side of a conveying table, profile lateral shifting devices positioned at the two ends of the discharging device and profile pushing devices positioned between the two profile lateral shifting devices, wherein the discharging device comprises a bottom shell, two profile baffle plates positioned above the bottom shell and arranged in parallel, a profile supporting plate positioned above the surface of the bottom shell, and a supporting plate driving device positioned in the bottom shell, the bottom shell and the two profile baffle plates surround to form a profile storage tank for storing profiles, the width of the profile storage tank is matched with the width of the profiles, the length of a core material storage tank is smaller than the length of the profiles, the profile lateral shifting devices comprise supporting columns positioned at the front side and the rear side of the conveying table and cross beams positioned at the top ends of the supporting columns, the two ends of each cross beam are respectively arranged at the top ends of the supporting columns, be provided with the crossbeam slide on the crossbeam, crossbeam slide slidable ground sets up on the crossbeam, be provided with the drive on the crossbeam slide is along the crossbeam slide drive arrangement of crossbeam upper rail removal on the crossbeam, and the one end of crossbeam slide is provided with the profile side and moves the push pedal, the top of profile side moves the push pedal set firmly in on the crossbeam slide, the bottom that the profile side moved the push pedal is located the below of crossbeam, profile thrust unit include both ends with the vertical beam that the crossbeam is connected, slidable set up vertical beam slide, the drive on the vertical beam slide along the vertical beam upper rail removal vertical beam slide drive arrangement, the below of vertical beam slide is provided with liftout plate, the liftout plate elevating gear of drive liftout plate, the liftout plate is located the middle part of carrying the platform.

Furthermore, the two-dimensional displacement device comprises a mold core mounting plate, a mold core mounting plate lifting device for driving the mold core mounting plate to lift and a mold core driving device which is arranged on the mold core mounting plate and is used for driving the mold core to move left and right.

Furthermore, in the automatic production line for long sections, the die core mounting plate lifting device, the die core driving device and the cutter lifting device are all oil cylinders.

Further, in the automatic production line for long sections, the conveying rollers are arranged on the surface of the bottom plate.

Further, in the automatic long section production line, the left side surface of the ejector plate is provided with the material pressing device, the material pressing device comprises a linear displacement device, a middle rod arranged at the output end of the linear displacement device, connecting rods arranged at the upper side and the lower side of the middle rod, and material pressing rods arranged at the outer sides of the connecting rods, the right ends of the connecting rods are hinged to the middle parts of the middle rods, the left ends of the material pressing rods are hinged to the left ends of the connecting rods, and the right ends of the material pressing rods are hinged to the left side surface of the ejector plate.

Furthermore, the automatic production line for the long section bar comprises a driving motor positioned on the beam sliding plate or the vertical beam sliding plate, a gear connected with an output shaft of the driving motor and a toothed belt arranged on the beam or the vertical beam and matched with the gear.

By means of the scheme, the invention has at least the following advantages: the long section bar automatic production line, the discharging device, the section bar side-shifting device and the section bar pushing device are arranged, so that high-efficiency feeding of long section bars or long pipe materials is realized. The mold core, the upper punching device, the cutter and other parts are arranged, so that efficient punching and cutting of the section bar are realized. When the device is used for feeding materials, a beam sliding plate positioned on a beam slides to the foremost end or the rearmost end of the beam under the drive of a beam sliding plate driving device, a supporting plate driving device positioned in a bottom shell drives a profile supporting plate to move upwards until the uppermost profile or pipe is completely exposed out of the profile storage tank, then the beam sliding plate positioned at the end of the beam drives a profile side-shifting push plate positioned on the beam sliding plate to move towards the direction close to the profile or the pipe under the drive of the beam sliding plate driving device until the profile side-shifting push plate is contacted with the profile or the pipe, and the profile side-shifting push plate can push the profile or the pipe to pass through the top surface of the profile baffle to the middle part of the conveying platform and then restore to the original position because the top surface of the profile baffle is flush with the conveying platform. Thereafter, the vertical beam sliding plate on the vertical beam drives the ejection plate to move along the vertical beam under the drive of the vertical beam sliding plate driving device until the ejection plate ejects the section bar or the pipe into the shell of the punching and cutting device through the section bar input port, so that punching and cutting operation is performed. When the section bar or the pipe in the discharging device at one side is used, the discharging device at the other side can be used for discharging, and meanwhile, operators can fill the section bar in the original discharging device, so that the section bar or the pipe can continuously operate. The section bar that is sent into by lift type pan feeding device is through section bar input port input to inside the casing, until the one end of section bar enters into the preset position above the bottom plate, the bottom plate rises to the height that is close to the section bar under the effect of bottom plate elevating platform, then the mold core descends to the height of section bar at first under the drive of two-dimensional displacement device, then two-dimensional displacement device drive mold core moves to the section bar direction, until the mold core enters into the preset position inside the section bar, after the mold core is in place, the upper die moves down under the effect of upper die drive hydro-cylinder, until the upper die gets into the die orifice of mold core and accomplish the punching a hole to the section bar, after the punching a hole, the mold core resumes the normal position under the effect of two-dimensional displacement device. And simultaneously, the cutter on the top wall of the shell descends under the action of the cutter lifting device until the cutter cuts off the profile. And finally outputting the cut section bar from the section bar output hole under the action of the rear section bar. According to the different sizes of the section bars or the pipe materials, operators can adjust the cut length of the section bars by sliding the cutter driving device mounting seat.

In conclusion, the long section bar automatic production line is suitable for long section bars or pipe materials, can automatically feed materials, and has high punching and cutting efficiency.

The foregoing description is only an overview of the present invention, and is intended to provide a better understanding of the present invention, as it is embodied in the following description, with reference to the preferred embodiments of the present invention and the accompanying drawings.

Drawings

FIG. 1 is a schematic view of an automatic production line for long profiles;

FIG. 2 is a schematic structural view of a punch cutoff apparatus;

FIG. 3 is a schematic structural view of a mold core;

FIG. 4 is a front view of the outfeed device;

FIG. 5 is a left side view of the outfeed device;

FIG. 6 is a top view of the profile side shifting device;

fig. 7 is a partial enlarged view of a portion a in fig. 6;

FIG. 8 is a left side view of the profile side shifting device;

fig. 9 is a schematic structural view of a profile pushing device;

FIG. 10 is a schematic view of the structure of the pressing device;

fig. 11 is a state of use of the pressing device.

In the figure, 1: punching and cutting equipment; 2: a conveying table; 3: lifting type feeding device; 4: a housing; 5: a profile input port; 6: a profile outlet; 7: a bottom plate; 8: a lifting table; 9: an upper die; 10: an upper die driving oil cylinder; 11: a mold core; 12: a two-dimensional displacement device; 13: a cutter; 14: a cutter lifting device; 15: a cutter lifting device mounting seat; 16: a mold core mounting plate; 17: a die core mounting plate lifting device; 18: a mold core driving device; 19: a mold core body; 20: a connection cover; 21: a waste push plate; 22: a waste push plate driving device; 23: a die hole; 24: a conveying roller; 25: a lower ram mounting box; 26: a lower die; 27: a lower die driving oil cylinder; 28: a lower die hole; 29: a slide bar; 30: a compression cylinder; 31: a discharging device; 32: a profile lateral shifting device; 33: section bar pushing device; 34: a bottom case; 35: a section bar baffle; 36: a section bar supporting plate; 37: a pallet driving device; 38: a profile storage slot; 39: a support column; 40: a cross beam; 41: a cross beam slide plate; 42: a profile lateral movement push plate; 43: a vertical beam; 44: a vertical beam sliding plate; 45: a liftout plate; 46: a lifter for the liftout plate; 47: a liftout plate mounting rack; 48: a linear displacement loading device; 49: an intermediate lever; 50: a connecting rod; 51: a pressing rod; 52: pressing the material balls; 53: an initial liftout cylinder; 54: a driving motor; 55: a gear; 56: toothed belt.

Detailed Description

The following describes in further detail the embodiments of the present invention with reference to the drawings and examples. The following examples are illustrative of the invention and are not intended to limit the scope of the invention.

Referring to fig. 1 to 11, an automatic production line for long profiles comprises a punching and cutting device 1, a conveying table 2 and a lifting type feeding device 3, wherein the punching and cutting device is positioned at the left side of the conveying table;

the punching and cutting equipment comprises a shell 4, a profile input port 5 is arranged on the right side wall of the shell, a profile output port 6 is correspondingly arranged on the left side wall of the shell, a bottom plate 7 is further arranged in the shell, a bottom plate lifting table 8 for driving the bottom plate to lift is arranged at the bottom of the shell, an upper punching device is arranged on the top wall of the shell and comprises an upper die 9 and an upper die driving oil cylinder 10 for driving the upper die to lift, the upper die driving oil cylinder is fixedly arranged on the top wall of the shell, a die core 11 matched with the upper die and a two-dimensional displacement device 12 for driving the die core to lift and move left and right are arranged on the left side of the upper punching device, a cutting device is arranged on the right side of the upper punching device and comprises a cutter 13 for cutting the profile, a cutter lifting device 14 for driving the cutter lifting device, and a cutter lifting device mounting seat 15 for mounting the cutter lifting device, and the cutter lifting device mounting seat is slidably arranged on the top wall of the shell.

The mold core, the upper punching device, the cutter and other parts are arranged, so that efficient punching and cutting of the section bar are realized. Specifically, the section bar that is sent into by lift type pan feeding device is through section bar input port input to casing inside, until the one end of section bar enters into the preset position of bottom plate top, the bottom plate rises to the height that is close to the section bar under the effect of bottom plate elevating platform, then the mold core descends to the height of section bar at first under the drive of two-dimensional displacement device, then two-dimensional displacement device drive mold core moves to the section bar direction, until the mold core enters into the preset position of section bar inside, after the mold core is put in place, the upper die moves down under the effect of upper die drive hydro-cylinder, until the upper die gets into the die orifice of mold core and accomplish the punching a hole to the section bar, after the punching a hole, the mold core resumes the normal position under the effect of two-dimensional displacement device. And simultaneously, the cutter on the top wall of the shell descends under the action of the cutter lifting device until the cutter cuts off the profile. And finally outputting the cut section bar from the section bar output hole under the action of the rear section bar. According to the different sizes of the section bars or the pipe materials, operators can adjust the cut length of the section bars by sliding the cutter driving device mounting seat.

Preferably, the two-dimensional displacement device comprises a mold core mounting plate 16, a mold core mounting plate lifting device 17 for driving the mold core mounting plate to lift, and a mold core driving device 18 which is arranged on the mold core mounting plate and is used for driving the mold core to move left and right.

When the mold core mounting plate lifting device works specifically, the mold core mounting plate is driven to move up and down to the height of the section bar, and the mold core driving device drives the mold core to the inside of the section bar left and right or moves the mold core out of the inside of the section bar.

Preferably, the die core mounting plate lifting device, the die core driving device and the cutter lifting device are all oil cylinders.

Preferably, the mold core comprises a mold core body 19, the mold core body is of a tubular structure with two open ends and a hollow interior, the left end of the mold core body is provided with a connecting cover 20, the left end of the connecting cover is connected with an output shaft of a mold core driving device, the right end of the connecting cover is connected with the mold core body, a waste push plate 21 and a waste push plate driving device 22 for driving the waste push plate to move left and right are arranged in the mold core body, and a mold hole 23 matched with the upper mold is formed in the side wall of the mold core body.

Preferably, the waste push plate driving device comprises a linear motor, and an output shaft of the linear motor is connected with the waste push plate.

The waste material push pedal and the waste material push pedal driving device are arranged, so that the output of waste materials is realized. When the die core is restored to the original position, the waste material and the section bar are output together from the section bar output hole.

Preferably, the surface of the base plate is provided with a conveying roller 24.

The conveying rollers are arranged, so that the cut section bar can be conveniently output from the section bar output port. The conveying roller can be driven to rotate by the driving motor, so that the output of the profile is further accelerated.

Preferably, the bottom plate lifting platform is a hydraulic lifting platform, a lower stamping device mounting box 25 is arranged above the bottom plate lifting platform, a lower die 26 matched with the die core and a lower die driving oil cylinder 27 for driving the lower die to lift are arranged in the lower stamping device mounting box, a lower die hole 28 penetrating through the bottom plate is formed in the surface of the bottom plate, and the lower die can penetrate through the lower die hole and protrude out of the surface of the bottom plate.

The lower die and the lower die drive cylinder are arranged to realize punching operation on the bottom wall of the section bar or the pipe. In addition, punching devices can be correspondingly arranged on the front side wall and the rear side wall of the shell, so that comprehensive punching of the section bar or the pipe is realized. Specifically, the lower die passes through the lower die hole under the action of the lower die driving device and punches the pipe or the section above the lower die hole.

Preferably, a sliding rod 29 is arranged below the bottom plate, the bottom end of the sliding rod is fixedly connected with the shell, and the sliding rod is in sliding fit with the bottom plate.

Preferably, a pressing oil cylinder 30 is arranged on the right side wall of the shell, the cylinder body of the pressing oil cylinder is fixedly arranged on the inner side surface of the shell, and the pressing oil cylinder is positioned above the section bar input port.

The arrangement of the compaction oil cylinder realizes compaction of the section bar or the pipe, so that punching and cutting are more stable.

The lifting type feeding device comprises a discharging device 31 positioned at the front side and the rear side of the conveying table, profile side shifting devices 32 positioned at the two ends of the discharging device and a profile pushing device 33 positioned between the two profile side shifting devices,

the discharging device comprises a bottom shell 34, two profile baffles 35 which are arranged in parallel and are positioned above the bottom shell, a profile supporting plate 36 which is positioned above the surface of the bottom shell, a supporting plate driving device 37 which is positioned in the bottom shell, wherein the bottom shell and the two profile baffles surround a profile storage groove 38 for storing profiles, the width of the profile storage groove is matched with the width of the profiles, the length of the profile storage groove is smaller than the length of the profiles,

the profile side shifting device comprises a support column 39 positioned at the front side and the rear side of the conveying table and a beam 40 positioned at the top end of the support column, two ends of the beam are respectively arranged at the top ends of the support column, a beam sliding plate 41 is arranged on the beam, the beam sliding plate is slidably arranged on the beam, a beam sliding plate driving device for driving the beam sliding plate to move along a guide rail on the beam is arranged on the beam sliding plate, a profile side shifting push plate 42 is arranged at one end of the beam sliding plate, the top end of the profile side shifting push plate is fixedly arranged on the beam sliding plate, the bottom end of the profile side shifting push plate is positioned below the beam,

the section bar pushing device comprises a vertical beam 43 with two ends connected with the cross beam and slidably arranged on the vertical beam

The vertical beam sliding plate 44 on the beam and the vertical beam sliding plate driving device for driving the vertical beam sliding plate to move along the upper guide rail of the vertical beam are provided with a material ejection plate 45 and a material ejection plate lifting device 46 for driving the material ejection plate to lift below the vertical beam sliding plate, and the material ejection plate is positioned in the middle of the conveying table.

The arrangement of the discharging device, the profile lateral shifting device and the profile pushing device realizes the efficient feeding of long profiles or long pipes. When the device is used for feeding materials, a beam sliding plate positioned on a beam slides to the foremost end or the rearmost end of the beam under the drive of a beam sliding plate driving device, a supporting plate driving device positioned in a bottom shell drives a profile supporting plate to move upwards until the uppermost profile or pipe is completely exposed out of the profile storage tank, then the beam sliding plate positioned at the end of the beam drives a profile side-shifting push plate positioned on the beam sliding plate to move towards the direction close to the profile or the pipe under the drive of the beam sliding plate driving device until the profile side-shifting push plate is contacted with the profile or the pipe, and the profile side-shifting push plate can push the profile or the pipe to pass through the top surface of the profile baffle to the middle part of the conveying platform and then restore to the original position because the top surface of the profile baffle is flush with the conveying platform. Thereafter, the vertical beam sliding plate on the vertical beam drives the ejection plate to move along the vertical beam under the drive of the vertical beam sliding plate driving device until the ejection plate ejects the section bar or the pipe into the shell of the punching and cutting device through the section bar input port, so that punching and cutting operation is performed. When the section bar or the pipe in the discharging device at one side is used, the discharging device at the other side can be used for discharging, and meanwhile, operators can fill the section bar in the original discharging device, so that the section bar or the pipe can continuously operate.

Preferably, the pallet driving device and the lifter of the ejector plate are cylinders or oil cylinders or linear displacement motors.

Preferably, the vertical beam sliding plate is provided with a material ejection plate mounting frame 47, and the material ejection plate lifting device is arranged on the material ejection plate mounting frame.

Preferably, the left side of the ejector plate is provided with a pressing device, the pressing device comprises a linear displacement device 48, a middle rod 49 arranged at the output end of the linear displacement device, connecting rods 50 arranged on the upper side and the lower side of the middle rod, and a pressing rod 51 arranged on the outer side of the connecting rods, the right end of each connecting rod is hinged to the middle part of the middle rod, the left end of each pressing rod is hinged to the left end of each connecting rod, and the right end of each pressing rod is hinged to the left side of the ejector plate.

Preferably, the left end of the material pressing rod is provided with a material pressing ball 52, the material pressing ball is made of rubber materials, and the linear displacement device is an air cylinder, an oil cylinder or a linear driving motor.

The setting of swager for the swager pole can compress tightly tubular product, thereby makes liftout board and tubular product connection, and the liftout board operates more stably when the liftout like this. Specifically, the liftout plate moves to the tubular product direction under the drive of vertical beam slide, until the left end of swage pole enters into the inside of tubular product, then the straight line displacement device drives the intermediate lever and moves to the left side, along with the removal of intermediate lever, also begins to move with intermediate lever articulated connecting rod, because the right-hand member of swage pole articulates on the liftout plate, along with the removal of connecting rod, with the articulated swage pole of connecting rod outwards open, until the tip and the inner wall in tubular product of swage pole in close contact to make tubular product and liftout plate close connection. Then the pipe moves towards the direction of the section bar input port under the action of the material ejecting plate.

Preferably, the right end of the conveying table surface is provided with an initial ejection cylinder 53.

Because the length of the long section bar is longer, the initial position of the liftout plate is positioned at the left end of the section bar, so that the core material can be pushed to the left by a certain distance by the initial liftout cylinder for facilitating liftout, the right end of the core material is positioned at the left side of the liftout plate, and then the liftout plate is driven by the liftout plate lifting device to descend to the height of the section bar, and the section bar is driven by the vertical beam sliding plate driving device to move to the left.

Preferably, the beam slide plate driving device and the vertical beam slide plate driving device all comprise a driving device positioned on the beam

The beam slide plate or the vertical beam slide plate is provided with a driving motor 54, a gear 55 connected with the output shaft of the driving motor and a toothed belt 56 which is arranged on the cross beam or the vertical beam and is matched with the gear.

When the device specifically works, the electric gear of the driving motor positioned on the vertical beam sliding plate or the transverse beam sliding plate rotates, and the toothed belt meshed with the gear pushes the gear and the vertical beam sliding plate or the transverse beam sliding plate to move along the guide rail, so that the vertical beam sliding plate or the transverse beam sliding plate is driven.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description.

Furthermore, the foregoing description of the preferred embodiments of the present invention is not intended to be limiting, and it should be noted that modifications and variations could be made by persons skilled in the art without departing from the technical principles of the present invention, and these modifications and variations should also be regarded as the scope of the invention. Meanwhile, it should be understood that although the present disclosure describes embodiments, not every embodiment contains only one independent technical solution, and the description is merely for clarity, and those skilled in the art should consider the disclosure as a whole, and the technical solutions in the examples may be combined appropriately to form other embodiments that can be understood by those skilled in the art.

Claims (6)

1. An automatic production line of long section bar, its characterized in that: the punching and cutting device comprises a shell, a profile input port is arranged on the right side wall of the shell, a profile output port is correspondingly arranged on the left side wall of the shell, a bottom plate is further arranged in the shell, a bottom plate lifting table for driving the bottom plate to lift is arranged at the bottom of the shell, an upper punching device is arranged on the top wall of the shell and comprises an upper die and an upper die driving oil cylinder for driving the upper die to lift, the upper die driving oil cylinder is fixedly arranged on the top wall of the shell, a die core matched with the upper die and a two-dimensional displacement device for driving the die core to lift and move left and right are arranged on the left side of the upper punching device, a cutting device is arranged on the right side of the upper punching device and comprises a cutter for cutting the profile, a cutter lifting device for driving the cutter lifting device and a cutter lifting device mounting seat for mounting the cutter lifting device, and the cutter lifting device mounting seat is slidably arranged on the top wall of the shell;

the lifting type feeding device comprises a discharging device positioned at the front side and the rear side of a conveying table, profile lateral shifting devices positioned at the two ends of the discharging device and profile pushing devices positioned between the two profile lateral shifting devices, wherein the discharging device comprises a bottom shell, two profile baffle plates positioned above the bottom shell and arranged in parallel, a profile supporting plate positioned above the surface of the bottom shell, and a supporting plate driving device positioned in the bottom shell, the bottom shell and the two profile baffle plates surround to form a profile storage tank for storing profiles, the width of the profile storage tank is matched with the width of the profiles, the length of the profile storage tank is smaller than that of the profiles, the profile lateral shifting devices comprise supporting columns positioned at the front side and the rear side of the conveying table and cross beams positioned at the top ends of the supporting columns, the two ends of each cross beam are respectively arranged at the top ends of the supporting columns, be provided with the crossbeam slide on the crossbeam, crossbeam slide slidable ground sets up on the crossbeam, be provided with the drive on the crossbeam slide is along the crossbeam slide drive arrangement of crossbeam upper rail removal on the crossbeam, and the one end of crossbeam slide is provided with the profile side and moves the push pedal, the top of profile side moves the push pedal set firmly in on the crossbeam slide, the bottom that the profile side moved the push pedal is located the below of crossbeam, profile thrust unit include both ends with the vertical beam that the crossbeam is connected, slidable set up vertical beam slide, the drive on the vertical beam slide along the vertical beam upper rail removal vertical beam slide drive arrangement, the below of vertical beam slide is provided with liftout plate, the liftout plate elevating gear of drive liftout plate, the liftout plate is located the middle part of carrying the platform.

2. The automatic production line for long profiles according to claim 1, characterized in that: the two-dimensional displacement device comprises a mold core mounting plate, a mold core mounting plate lifting device for driving the mold core mounting plate to lift, and a mold core driving device which is arranged on the mold core mounting plate and used for driving the mold core to move left and right.

3. The automatic production line for long profiles according to claim 2, characterized in that: the die core mounting plate lifting device, the die core driving device and the cutter lifting device are all oil cylinders.

4. The automatic production line for long profiles according to claim 1, characterized in that: the surface of the bottom plate is provided with a conveying roller.

5. The automatic production line for long profiles according to claim 1, characterized in that: the left side face of liftout plate is provided with the swager, and the swager includes the straight line displacement device, locates the intermediate lever of straight line displacement device output, is located the connecting rod of both sides about the intermediate lever, is located the swager in the connecting rod outside, and the right-hand member of connecting rod articulates in the middle part of intermediate lever, and the left end of swager articulates in the left end of connecting rod, and the right-hand member of swager articulates on the left surface of liftout plate.

6. The automatic production line for long profiles according to claim 1, characterized in that: the beam slide plate driving device and the vertical beam slide plate driving device comprise driving motors positioned on the beam slide plate or the vertical beam slide plate, gears connected with output shafts of the driving motors, and toothed belts arranged on the beam or the vertical beam and matched with the gears.

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