CN107695120B - Extruder for aluminum profile convenient to move - Google Patents

Abstract

The utility model relates to an extruding machine for an aluminum profile convenient to move, which comprises a bottom plate, a mounting frame arranged on the bottom plate, an extruding cylinder and an extruding plate which are arranged on the mounting frame and used for extruding and forming downwards, and an extruding base, a compacting plate, a magnetic force unit, a limiting unit and a moving unit which are arranged on the bottom plate. The utility model has the advantages of simple and effective structure, convenient and quick aluminum profile clamping operation, high clamping stability, accurate extrusion molding, high moving controllability and good moving use effect.

Description

Extruder for aluminum profile convenient to move

Technical Field

The utility model belongs to the technical field of extruder equipment structures, and particularly relates to an extruder for an aluminum profile, which is convenient to move.

Background

The extruder refers to mechanical equipment for carrying out stamping forming on sectional materials, and mainly comprises a stamping mechanism and a forming die head mechanism, wherein the front end of the stamping mechanism is matched with the shape of the forming die head mechanism and is used for finally determining the forming shape. The existing extruder for aluminum profiles generally adopts a simple arrangement mode of an air cylinder and a groove plate to ensure extrusion molding effect, but because aluminum profiles on two sides of extrusion are easy to tilt, deviation is caused finally, aluminum profile products highly attached to the groove plate cannot be obtained, and therefore an extruder for aluminum profiles which can be stably extruded and precisely molded is urgently needed in the market.

On the other hand, the existing extrusion press for aluminum profiles mostly has the characteristic of fixed installation, so that the aluminum profiles can be effectively used after being carried, the operation complexity is greatly increased, and therefore, the extrusion press which can be conveniently moved and fixed is urgently needed in the market to meet the requirement of mobile use.

The utility model discloses a section extruder, which comprises an extruder body and a water spraying mechanism positioned at the outlet of the section of the extruder body, wherein the front of the extruder body positioned at the water spraying mechanism is provided with a jet mechanism for jetting air to the section, the jet mechanism comprises a pipe body sleeved outside the section, an annular channel is arranged in the pipe body, a plurality of branch channels communicated with the inner wall of the pipe body are uniformly distributed along the circumferential direction of the annular channel, and a main channel communicated with the annular channel is formed at the end part of the pipe body and is communicated with an air compressor.

However, the profile extruder in the patent of the utility model has the problem of insufficient precision in extrusion molding.

Disclosure of Invention

The utility model aims to provide an extruding machine for an aluminum profile convenient to move, which can achieve the aim of effectively extruding the aluminum profile by arranging a mounting frame, an extruding cylinder, an extruding plate, an extruding base, a compacting plate, a magnetic force unit, a limiting unit and a moving unit on a bottom plate. The utility model has the advantages of simple and effective structure, convenient and quick aluminum profile clamping operation, high clamping stability, accurate extrusion molding, high moving controllability and good moving use effect.

The utility model adopts the technical proposal that: the utility model provides an extruder for aluminium alloy that conveniently removes, is in including the bottom plate, sets up the mounting bracket on the bottom plate is in be used for carrying out extrusion cylinder and the stripper plate of extrusion operation downwards on the mounting bracket, still including setting up on the bottom plate and be used for through the fluting extrusion plate mode be in with being used for aluminium alloy extrusion's extrusion base sets up respectively extrusion base is last both sides position department and is used for compressing tightly downwards two pressure plates of aluminium alloy both sides limit, and set up extrusion base with be in between the pressure plates and be used for controlling through magnetic force mode in the magnetic force unit that the pressure plate goes up and down, still be equipped with on the extrusion base be used for the stripper plate is pegged graft and is installed and is spacing gliding spacing unit, be equipped with on the bottom plate lower surface be used for the extruder removes the mobile unit of transport, mobile unit is including setting up respectively roller group and block wheelset in both sides position department on the bottom plate, be used for the installation is fixed block wheel installing the post, the grafting sets up on the block wheel installing post and be used for with the mode is jacked downwards with be used for with block on the block board the magnetic force mode is used for controlling the magnetic force unit that the pressure plate goes up on the pressure plate goes up the clamping groove and carries out the magnetic force unit sets up the lift sleeve with the side and is in order to carry out the setting up the suction sleeve with the suction sleeve.

The further preferable technical scheme is as follows: the magnetic unit comprises a slot arranged on the upper surface of the extrusion base, a mounting column arranged on the lower surface of the compression plate, a permanent magnet arranged on the mounting column in a clamping manner, and an electromagnet arranged on the inner bottom surface of the slot and used for compressing the aluminum profile in a compression plate mode through downward magnetic attraction, wherein the electromagnet is connected with a battery pack through a wire, and a rotary connecting part used for converting the current direction of the electromagnet is arranged on the battery pack.

The further preferable technical scheme is as follows: the four end corner positions of the single compacting plate are respectively provided with one magnetic unit, and eight magnetic units are sequentially connected in series and connected with the rotary connecting part through wires.

The further preferable technical scheme is as follows: the electromagnet comprises an iron core arranged on the inner bottom surface of the slot, and a spiral line slot which is arranged on the outer ring surface of the iron core and used for clamping and arranging a connecting wire, wherein a supporting spring used for supporting the pressing plate to fall down in the rotary disconnection process of the rotary connection part is arranged in the middle of the iron core.

The further preferable technical scheme is as follows: the rotary connection part comprises a rotary plate which is rotatably arranged on the battery pack, connection columns which are arranged at the two ends of the rotary plate, and two pairs of clamping connection grooves which are respectively arranged on the two sides of the rotary plate and are used for clamping connection with the anode and the cathode of the battery.

The further preferable technical scheme is as follows: arc-shaped conducting strips are arranged in the clamping connecting grooves, the rotary mounting shaft of the rotary plate is close to one of the positive electrode and the negative electrode of the battery, and the connecting column is connected with the two conducting strips on one side of the rotary shaft through conducting wires respectively.

The further preferable technical scheme is as follows: the extrusion base comprises a base main body arranged on the bottom plate and an extrusion groove arranged on the upper surface of the base main body, and the two compression plates are respectively arranged at two side positions of the extrusion groove.

The further preferable technical scheme is as follows: the limiting unit comprises limiting columns arranged on the extrusion base and plug holes arranged on the pressing plate, wherein the number of the limiting columns is at least two, the limiting columns are arranged on the extrusion base in a flush manner, and the limiting columns are closer to the middle of the pressing plate than the magnetic unit.

The further preferable technical scheme is as follows: the outer ring surface of the limit post is provided with a ball groove, and a rolling body for rolling friction in the lifting process of the compacting plate is convexly arranged in the ball groove.

The further preferable technical scheme is as follows: and a clamping groove for clamping and limiting the height of the aluminum profile is formed in one side, close to the magnetic unit, of the limiting column, and the clamping groove is upwards formed in the upper surface of the compacting plate.

According to the utility model, the purpose of effectively extruding the aluminum profile is achieved by arranging the mounting frame, the extrusion cylinder, the extrusion plate, the extrusion base, the compression plate, the magnetic force unit, the limiting unit and the moving unit on the bottom plate. The utility model has the advantages of simple and effective structure, convenient and quick aluminum profile clamping operation, high clamping stability, accurate extrusion molding, high moving controllability and good moving use effect.

Drawings

Fig. 1 is a schematic diagram of a mobile unit according to the present utility model.

Fig. 2 is a schematic diagram of a location structure of a mobile unit according to the present utility model.

Fig. 3 is a schematic view showing the positions of the pressing cylinder and the pressing plate in the present utility model.

Fig. 4 is a schematic structural view of the compacting plate of the present utility model.

Fig. 5 is a schematic diagram of the position structure of the magnetic unit in the present utility model.

Fig. 6 is a schematic structural diagram of an electromagnet according to the present utility model.

Fig. 7 is a schematic view of a position structure of a rotary connection part in the present utility model.

Fig. 8 is a schematic diagram of a position structure of a limiting unit in the present utility model.

Detailed Description

The following description is of the preferred embodiments of the utility model and is not intended to limit the scope of the utility model.

Examples: as shown in fig. 1, 2, 3, 4, 5, 6, 7 and 8, an extruder for aluminum profiles convenient to move comprises a base plate 1, a mounting frame 2 arranged on the base plate 1, an extrusion cylinder 3 and an extrusion plate 4 arranged on the mounting frame 2 and used for carrying out extrusion molding operation downwards, an extrusion base 5 arranged on the base plate 1 and used for extrusion molding of the aluminum profiles in a manner of containing the extrusion plate 4 through a slot, two compaction plates 6 respectively arranged at two side positions on the extrusion base 5 and used for downwards compacting two side edges of the aluminum profiles, a magnetic force unit 7 arranged between the extrusion base 5 and the compaction plates 6 and used for controlling the lifting of the compaction plates 6 in a manner of magnetic force, a limiting unit 8 used for plug-in installation and limiting sliding of the compaction plates 6 is further arranged on the extrusion base 5, a moving unit 9 for moving and carrying the extruder is arranged on the lower surface of the bottom plate 1, the moving unit 9 comprises a roller group 901 and a clamping wheel group 902 which are respectively arranged at two side positions on the bottom plate 1, a clamping wheel mounting column 903 for mounting and fixing the clamping wheel group 902, a clamping plate 905 which is inserted and arranged on the clamping wheel mounting column 903 and is used for clamping and fixing a clamping groove on the clamping wheel group 902 in a downward jacking mode through a spring 904, a lifting base 906 arranged on the side surface of the bottom plate 1, and a lifting plate 908 which is used for lifting and separating the clamping plate 905 from the clamping wheel group 902 in an upward attraction mode through a magnetic attraction group 907 for moving operation, the lifting base 906 is in sleeve connection with the lifting plate 908, the magnetic attraction group 907 is arranged in the sleeve, the sleeve is disposed at a lateral position of the lift plate 908.

In this embodiment, the setting of the hold-down plate 6 is used for compressing the aluminum profile from both sides, avoid it to influence the extrusion laminating condition of middle extrusion forming district because both sides perk when the extrusion, guarantee extrusion's precision, on the other hand, the magnetic force unit 7 has two working forms, and one is the rejection jack-up hold-down plate 6 is used for placing before the extrusion aluminum profile operation, and the other is the downward attraction hold-down plate 6 for hold-down plate 6 compresses tightly with a suitable pressure aluminum profile, guarantees aluminum profile in the extrusion process, the section bar of both sides can be steadily entered into in the die head fluting of extrusion base 5, avoid both sides perk, guarantee accurate shaping.

On the other hand, the mobile unit 9 is used as follows:

first, when the extruder is fixedly placed and used, the clamping plate 905 is pushed down in the clamping groove on the clamping wheel set 902, at this time, the clamping wheel set 902 cannot rotate, and the extruder is effectively fixed;

second, when the extruder needs to be moved, the lift plate 908 is lowered against the attractive magnetic force of the set 907 of attractive magnetic forces such that the magnets within the sleeve of the lift plate 908 are separated from the magnets on the lift base 906;

third, the lifting plate 908 is rotated, so that the lifting plate 908 protrudes inwards, i.e. is located below the clamping plate 905, the lifting plate 908 is lifted, and is fixed on the lifting base 906 through the attracting magnetic force set 907, at this time, the clamping plate 905 is separated from the clamping wheel set 902 and is located at a high position, and the extruder moves smoothly.

In the present embodiment, the mobile unit 9 has the following advantages:

firstly, by the jacking action of the spring 904, the effective clamping action of the clamping plate 905 and the clamping wheel set 902 is ensured, and the placement stability of the extruder is ensured;

second, the lifting plate 908 is eccentrically disposed on the lifting base 906, and the operations of waiting for positioning and lifting the clamping plate 905 are performed before and after rotation, so that the clamping and fixing state can be effectively and conveniently released, and the extruder has convenient mobility;

third, the magnetic attraction force group 907 ensures the stability of the card 905 in high position, and prevents the card 905 from falling down through the magnetic attraction force, so as to avoid the problem of unexpected falling of the card 905.

The magnetic unit 7 comprises a slot 701 arranged on the upper surface of the extrusion base 5, a mounting column 702 arranged on the lower surface of the compression plate 6, a permanent magnet 703 arranged on the mounting column 702 in a clamping manner, and an electromagnet 704 arranged on the inner bottom surface of the slot 701 and used for compressing the aluminum profile in a mode of attracting the compression plate 6 through downward magnetic force, wherein the electromagnet 704 is connected with a battery pack 705 through a wire, and a rotary connecting part 706 used for converting the current direction of the electromagnet 704 is arranged on the battery pack 705. The four corner positions of the single pressing plate 6 are respectively provided with one magnetic unit 7, and eight magnetic units 7 are sequentially connected in series and connected with the rotary connecting part 706 through wires. The electromagnet 704 comprises an iron core 704a arranged on the inner bottom surface of the slot 701, and a spiral line slot 704b arranged on the outer ring surface of the iron core 704a and used for clamping and arranging connecting wires, and a supporting spring 707 used for supporting the falling compacting plate 6 in the rotary disconnection process of the rotary connection part 706 is arranged in the middle of the iron core 704 a.

In this embodiment, the method for using the magnetic unit 7 is as follows:

first, the battery 705 energizes the electromagnet 704 via the rotary connection 706, such that the electromagnet 704 generates a magnetic field that repels the permanent magnet 703;

secondly, the pressing plate 6 is repelled and jacked, namely the lower surface of the permanent magnet 703 is lifted away from the extrusion base 5, at the moment, the aluminum profile is inserted and placed, and eight magnetic units 7 are prevented from being blocked up and down by the aluminum profile;

thirdly, rotating the rotating connection part 706, at this time, the electromagnet 704 is powered off first, the pressing plate 6 falls freely and is elastically supported by the supporting spring 707, so as to ensure that the pressing plate 6 does not collide with the aluminum profile and the permanent magnet 703 does not collide with the iron core 704a;

fourth, the rotary connection portion 706 is turned on reversely, the electromagnet 704 generates a magnetic field that attracts the permanent magnet 703, at this time, the aluminum profile is properly pressed, and the middle part of the aluminum profile is guaranteed to be tightly attached to the die head slot of the extrusion base 5 when being extruded in a way that the two sides are prevented from being tilted, so that extrusion accuracy is guaranteed.

In this embodiment, the magnetic unit 7 has the following advantages:

firstly, the magnetic unit 7 controls the compacting plates 6 to properly compact the aluminum profile, so that the two side parts of the aluminum profile are stably extracted from the lower surface of the compacting plates 6 and uniformly enter the grooves of the extrusion base 5 in the extrusion process, the problem that the grooves cannot be tightly attached due to tilting of the two sides is avoided, and the whole aluminum profile is completely attached to the extrusion base 5;

secondly, the direction of the magnetic field is controlled through the electrifying direction so as to achieve the lifting operation of the compacting plate 6, and the lifting control device has the advantages of convenience in operation and precision in lifting control;

thirdly, the supporting spring 707 is used for supporting the pressing plate 6 that is lifted up and falls down freely, so as to avoid accidental collision and ensure the working effectiveness of the whole extruding machine.

The rotary connection part 706 includes a rotary plate 706a rotatably mounted on the battery pack 705, connection posts 706b mounted on both ends of the rotary plate 706a, and two pairs of engaging connection grooves 706c provided on both sides of the rotary plate 706a for engaging and connecting with the positive and negative electrodes of the battery. An arc-shaped conductive sheet 706d is arranged in the clamping connection groove 706c, a rotation installation shaft of the rotation plate 706a is close to one of the positive electrode and the negative electrode of the battery, and the connection column 706b is respectively connected with the two conductive sheets 706d on one side of the rotation shaft through wires.

In this embodiment, when the engaging grooves 706c are operatively connected, a pair of engaging grooves 706c on two sides are used to form an effective closed circuit, that is, the clockwise direction and the counterclockwise direction of the rotating plate 706a are each a repulsive and attractive magnetic field effect, and on the other hand, the rotating mounting shaft is disposed at the center of the battery positive and negative electrode connection line, so that the four engaging grooves 706c are not necessarily symmetrical in pairs, and the problem that the width and strength of the slotting position of the rotating plate 706a are insufficient and the slotting position is easily broken due to the symmetry in pairs is avoided.

The pressing base 5 includes a base body 501 provided on the base plate 1, and pressing grooves 502 provided on an upper surface of the base body 501, and two pressing plates 6 are provided at both side positions of the pressing grooves 502, respectively.

In this embodiment, the extrusion groove 502 is used for cooperating with the extrusion plate 4, through will the aluminium alloy extrusion is in the mode in the middle of both, reaches effective extrusion's purpose, and the both sides the pressure strip 6 is used for suitably compressing tightly the both sides position of aluminium alloy, avoids both sides perk and results in the extrusion groove 502 aluminium alloy laminating is inseparable problem inadequately, guarantees that extrusion's shape is accurate square groove type, avoids square groove region to appear fold, protruding scheduling problem.

The limiting unit 8 comprises limiting columns 801 arranged on the extrusion base 5 and plug holes 802 arranged on the compression plate 6, wherein the number of the limiting columns 801 is at least two, and the limiting columns are arranged on the extrusion base 5 in a flush manner and are closer to the middle of the compression plate 6 than the magnetic unit 7. The outer ring surface of the limiting column 801 is provided with a spherical groove 803, and a rolling ball 804 for rolling friction in the lifting process of the pressing plate 6 is arranged in the spherical groove 803 in a protruding mode. The limiting column 801 is provided with a clamping groove 805 for clamping the aluminum profile to a height near one side of the magnetic unit 7, and the clamping groove 805 is upwards arranged on the upper surface of the compacting plate 6.

In this embodiment, the limiting post 801 is configured to limit the lifting operation of the pressing plate 6 to be performed vertically and precisely aligned with the eight magnetic units 7, and on the other hand, the rolling ball 804 is a ball, and is configured to reduce friction between the pressing plate 6 and the limiting post 801 by using rolling friction, so as to ensure the effectiveness of the lifting operation.

On the other hand, the height of the slot of the engaging groove 805 is fixed, so as to limit the height of the inserted aluminum profile, that is, when the aluminum profile is attached to the bottom surface of the vertical groove of the engaging groove 805, that is, within a limited height range, and when the aluminum profile touches the outer ring surface of the limiting post 801, that is, the thickness of the aluminum profile is too large, the extrusion operation cannot be performed, and the height limiting effect of the engaging groove 805 makes the extruder have the following advantages:

firstly, selecting and controlling the thickness of the aluminum profile, and ensuring that the extrusion cylinder 3 has enough pressure for extrusion molding;

secondly, the thickness of the aluminum profile is selectively controlled, so that the pressing plate 6 is prevented from being directly crashed on the aluminum profile by the falling operation when the electromagnet 704 is powered off, and the extruder is ensured to work effectively.

The embodiments of the present utility model have been described in detail with reference to the drawings, but the present utility model is not limited to the above embodiments, and various modifications may be made within the knowledge of those skilled in the art without departing from the spirit of the present utility model. These are all non-inventive modifications which are intended to be protected by the patent laws within the scope of the appended claims.

Claims (7)

1. The utility model provides an extruder for aluminium alloy that conveniently removes, includes bottom plate (1), sets up mounting bracket (2) on bottom plate (1) set up on mounting bracket (2) be used for carrying out extrusion cylinder (3) and stripper plate (4) of extrusion operation downwards, its characterized in that: the base plate (1) is further provided with a limiting unit (8) which is used for inserting and installing the pressing plate (6) and limiting and sliding in a limiting way, the lower surface of the base plate (1) is provided with a moving unit (9) which is used for moving and carrying by the extruder, the moving unit (9) comprises a roller group (901) and a clamping wheel group (902) which are respectively arranged at the positions of the two sides of the base plate (1), a clamping wheel installing column (903) which is used for installing and fixing the clamping wheel group (902), a clamping wheel installing column (903) which is arranged on the clamping wheel installing column (903) in a plugging manner and is used for controlling the lifting of the clamping plate (6), a clamping wheel group (905) which is used for installing and fixing the clamping wheel group (902) on the base plate (906) in a lifting manner through a jack-up spring (905), and a lifting plate (908) separated from the engaging wheel set (902) by means of upward attraction of an attracting magnetic force set (907) for lifting the engaging plate (905) for moving operation, the lifting base (906) being sleeve-connected with the lifting plate (908), the attracting magnetic force set (907) being disposed in the sleeve, the sleeve being disposed at a side position of the lifting plate (908),

the magnetic force unit (7) comprises a slot (701) arranged on the upper surface of the extrusion base (5), a mounting column (702) arranged on the lower surface of the compression plate (6), a permanent magnet (703) arranged on the mounting column (702) in a clamping way, and an electromagnet (704) arranged on the inner bottom surface of the slot (701) and used for compressing the aluminum profile in a mode of attracting the compression plate (6) through downward magnetic force, wherein the electromagnet (704) is connected with a battery pack (705) through a wire, a rotary connecting part (706) used for converting the current direction of the electromagnet (704) is arranged on the battery pack (705),

the four corner positions of the single compacting plate (6) are respectively provided with one magnetic unit (7), the eight magnetic units (7) are sequentially connected in series and connected with the rotary connecting part (706) through wires,

the electromagnet (704) comprises an iron core (704 a) arranged on the inner bottom surface of the slot (701) and a spiral line slot (704 b) arranged on the outer annular surface of the iron core (704 a) and used for clamping and arranging a connecting wire, and a supporting spring (707) used for supporting the falling compacting plate (6) in the rotary connection part (706) rotary disconnection process is arranged in the middle of the iron core (704 a).

2. The extruder for aluminum profiles convenient to move as claimed in claim 1, wherein: the rotary connection part (706) comprises a rotary plate (706 a) rotatably arranged on the battery pack (705), connection columns (706 b) arranged at two end positions on the rotary plate (706 a), and two pairs of clamping connection grooves (706 c) respectively arranged on two side edges of the rotary plate (706 a) and used for clamping connection with the positive electrode and the negative electrode of the battery.

3. The extruder for aluminum profiles convenient to move as claimed in claim 2, wherein: arc-shaped conducting strips (706 d) are arranged in the clamping connecting grooves (706 c), a rotary mounting shaft of the rotary plate (706 a) is close to one of the positive electrode and the negative electrode of the battery, and the connecting column (706 b) is respectively connected with the two conducting strips (706 d) on one side of the rotary shaft through conducting wires.

4. The extruder for aluminum profiles convenient to move as claimed in claim 1, wherein: the extrusion base (5) comprises a base body (501) arranged on the base plate (1) and extrusion grooves (502) arranged on the upper surface of the base body (501), and two compression plates (6) are respectively arranged at two side positions of the extrusion grooves (502).

5. The extruder for aluminum profiles convenient to move as claimed in claim 1, wherein: the limiting unit (8) comprises limiting columns (801) arranged on the extrusion base (5) and plug holes (802) arranged on the compression plates (6), wherein the number of the limiting columns (801) is at least two, and the limiting columns are arranged on the extrusion base (5) in a flush manner and are closer to the middle of the compression plates (6) than the magnetic unit (7).

6. The extruder for aluminum profiles convenient to move as claimed in claim 5, wherein: the outer ring surface of the limiting column (801) is provided with a spherical groove (803), and a rolling ball body (804) for rolling friction in the lifting process of the pressing plate (6) is arranged in the spherical groove (803) in a protruding mode.

7. The extruder for aluminum profiles convenient to move as claimed in claim 5, wherein: and a clamping groove (805) for clamping and limiting the height of the aluminum profile is formed in one side, close to the magnetic force unit (7), of the limiting column (801), and the clamping groove (805) is upwards formed in the upper surface of the pressing plate (6).