CN115383218A - Aluminum product cutting process device - Google Patents

Abstract

The invention relates to the technical field of material processing, and discloses an aluminum material cutting and processing device which comprises a rack and a cutting mechanism for cutting an aluminum material, wherein a driving mechanism for driving the cutting mechanism to move is arranged on the rack, an elastic extrusion plate in transmission connection with the cutting mechanism is rotatably arranged on the rack, and the elastic extrusion plate rotates towards the aluminum material to enable the aluminum material to be pressed and fixed in the process that the driving mechanism drives the cutting mechanism to move to cut the aluminum material. According to the aluminum material fixing device, when the aluminum material is fixed, the aluminum material is fixed in the cutting process, and an operator does not need to independently fix the aluminum material, so that the operation procedures in the whole cutting process can be reduced, and the working efficiency is improved.

Description

Aluminum product cutting process device

Technical Field

The invention relates to the technical field of material processing, in particular to an aluminum material cutting and processing device.

Background

Because the aluminum material has the characteristics of corrosion resistance, non-ferromagnetism, formability, extremely high recoverability and the like, the aluminum material is widely applied to the building industry. In the processing process of the aluminum material, the melted raw material is required to be extruded and formed from the die, generally extruded into the aluminum strip with longer length, and the long aluminum strip is cut and segmented by the cutting processing device so as to be convenient to transport and store.

If application number is CN201910045571.X, the grant publication number is CN109834502B, the name is "an aluminum product cutting machine", a support is disclosed, a workbench, a closing device for compressing tightly the aluminum product and a cutting device for cutting the aluminum product, when the cutting, place the aluminum product on the workbench, compress tightly the aluminum product through closing device, start cutting device, cutting device cuts the aluminum product, the piece that the cutting produced drops to the conveying cloth through the cutting mouth, and under the effect of first drive arrangement, realize the rolling of conveying cloth, the piece is along with conveying cloth is rolled up and is dropped in taking the collecting box, thereby realize carrying out the automatic collection's purpose with the piece that the cutting in-process produced mesh, reduced the piece and fallen subaerial possibility, the staff needn't handle the piece alone after the cutting, thereby staff's work burden has been reduced.

Although the aluminum material cutting machine provided by the invention patent can realize automatic collection of the scraps and reduce the workload of workers to a certain extent, the aluminum material cutting machine has the following disadvantages: before the aluminum material is cut, the aluminum material needs to be fixed in order to prevent the aluminum material from displacing, in the invention, the aluminum material is pressed and fixed by using the pressing device, the pressing device provides power by virtue of the pressing cylinder, the pressing cylinder drives the pressing block to move towards the direction of the workbench in a working state until the pressing block presses the aluminum material, and then the cutting motor is moved by starting the moving motor to cut the aluminum material.

Disclosure of Invention

The invention aims to provide an aluminum material cutting and processing device to solve the defects in the prior art.

In order to achieve the above purpose, the invention provides the following technical scheme: the utility model provides an aluminum product cutting processingequipment, includes the frame and carries out the cutting mechanism that cuts to the aluminum product, be provided with the actuating mechanism who is used for driving cutting mechanism and removes in the frame, it is provided with the elasticity stripper plate of being connected with the cutting mechanism transmission to rotate in the frame, actuating mechanism drive cutting mechanism removes the in-process that cuts in order to carry out the aluminum product, elasticity stripper plate rotates so that the aluminum product is compressed tightly fixedly towards the aluminum product.

In the aluminum material cutting device, the cutting mechanism is in transmission connection with the elastic extrusion plate through the transmission mechanism;

the transmission mechanism comprises a lifting plate fixedly connected with the cutting mechanism and the driving mechanism, and the lifting plate is meshed with the elastic extrusion plate through a toothed plate.

Foretell aluminum product cutting processingequipment, the elastic extrusion board is including the left elastic plate that is used for the initial section of extruded aluminum product and the right elastic plate that is used for the excision section of extruded aluminum product, left side elastic plate rotates with the frame through left axis of rotation and is connected, right side elastic plate rotates with the frame through right axis of rotation and is connected, the pinion rack includes the left pinion rack of being connected with the meshing of left axis of rotation and the right pinion rack of being connected with the meshing of right axis of rotation.

Foretell aluminum product cutting process device, left pinion rack and right pinion rack all slide with the frame and peg graft.

Foretell aluminum product cutting processingequipment, left side elastic plate includes fixed connection's left connecting portion and left elasticity extrusion portion, left side connecting portion and left rotation axle fixed connection, right side elastic plate includes fixed connection's right connecting portion and right elasticity extrusion portion, right connecting portion and right rotation axle fixed connection.

Foretell aluminum product cutting processingequipment, right side elastic plate still includes fixed connection's extension board and extension elasticity portion, extension board and right connecting portion fixed connection, extension elasticity portion compresses tightly the aluminum product with right elasticity extrusion portion simultaneously.

Foretell aluminum product cutting process device, be provided with the left branch fagging and the right branch fagging that are used for supporting the aluminum product in the frame, left branch fagging and frame fixed connection, the right branch fagging rotates with the frame through the pivot to be connected, can dismantle the connection through the elasticity inserted bar between left branch fagging and the right branch fagging.

According to the aluminum material cutting and machining device, the elastic insertion rod is inserted into the left support plate and the right support plate in a sliding mode, the elastic push rod which is abutted to the end portion of the elastic insertion rod is inserted into the right support plate in a sliding mode, the weight of the portion, located on the left side of the rotating shaft, of the right support plate is larger than the weight of the portion, located on the right side of the rotating shaft, of the right support plate, the elastic push rod is used for pushing the elastic insertion rod to slide, the elastic insertion rod is moved out of the right support plate, the right support plate rotates, inclines and the cut aluminum material is made to slide out of the right support plate.

In the aluminum material cutting and processing device, when the right elastic plate rotates back to the aluminum material, the extension plate and the elastic push rod are extruded and drive the elastic push rod to push the elastic insertion rod to slide;

in the process that the left elastic plate rotates back to the aluminum product, the left connecting part is not in contact with the aluminum product.

Foretell aluminum product cutting process device, the pivot is located the left side of right elastic plate and the mutual extruded position of right branch fagging under the state of right branch fagging slope, right elastic plate orders about right elastic plate extrusion right branch fagging so that the elasticity inserted bar inserts in the right branch fagging towards right branch fagging pivoted in-process.

In the technical scheme, the elastic extrusion plate is arranged in a rotating mode, the aluminum material can be compressed and fixed through the rotation of the elastic extrusion plate, and the elastic extrusion plate is in transmission connection with the cutting mechanism. Compared with the prior art, the aluminum material fixing device is used for fixing the aluminum material in the cutting process without independently fixing the aluminum material by an operator, so that the operation procedures in the whole cutting process are reduced, the working efficiency is improved, and the defects in the prior art are effectively overcome.

Drawings

In order to more clearly illustrate the embodiments of the present application or technical solutions in the prior art, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments described in the present invention, and other drawings can be obtained by those skilled in the art according to the drawings.

Fig. 1 is a schematic structural diagram of a first viewing angle of an aluminum material cutting device according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a left elastic plate according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a right elastic plate according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a second viewing angle of the aluminum material cutting device according to the embodiment of the present invention;

FIG. 5 is a schematic structural diagram of a first view angle of the aluminum material cutting device with the front side plate of the frame removed according to the embodiment of the present invention;

FIG. 6 is a schematic structural diagram of a second perspective view of the aluminum material cutting device with the front side plate of the frame removed according to the embodiment of the present invention;

fig. 7 is a front view of an aluminum material cutting device provided in an embodiment of the present invention with a front side plate of a frame removed;

fig. 8 is a sectional view of an aluminum material cutting device according to an embodiment of the present invention when an aluminum material is placed in a machine frame;

fig. 9 is a sectional view of an aluminum material cutting device when the left and right elastic plates press and fix an aluminum material according to an embodiment of the present invention;

fig. 10 is a sectional view of an aluminum material cutting device when a right elastic plate applies a force to a U-shaped bar according to an embodiment of the present invention;

fig. 11 is a sectional view of the aluminum material cutting device when the cut-away section of the aluminum material provided by the embodiment of the present invention is slid out from the right support plate;

fig. 12 is a sectional view of an aluminum material cutting device when a right support plate provided in an embodiment of the present invention abuts against an inclined surface of an insert rod body.

Description of the reference numerals:

1. a frame; 2. a drive mechanism; 3. a left toothed plate; 301. a left vertical tooth; 4. a right toothed plate; 401. a right vertical tooth; 5. a left elastic plate; 501. a left connecting portion; 502. a left elastic pressing part; 6. a right elastic plate; 601. a right connecting portion; 602. a right elastic pressing portion; 603. an extension plate; 604. an extension elastic part; 7. a left rotating shaft; 701. a left circumferential tooth; 8. a right rotating shaft; 801. a right circumferential tooth; 9. a left support plate; 901. inserting slots; 10. a right support plate; 1001. perforating; 11. a lifting plate; 12. cutting the motor; 13. cutting the disc; 14. aluminum material; 15. a floating inclined plate; 16. a U-shaped rod; 17. a second spring; 18. a limiting sheet; 19. a third spring; 20. a telescopic rod; 21. a collection box; 2101. a sealing door; 22. a rotating shaft; 23. an insertion rod body; 24. a first spring.

Detailed Description

In order to make the technical solutions of the present invention better understood, those skilled in the art will now describe the present invention in further detail with reference to the accompanying drawings.

As shown in fig. 1 to 12, an aluminum material cutting device according to an embodiment of the present invention includes a frame 1 and a cutting mechanism for cutting an aluminum material 14, a driving mechanism 2 for driving the cutting mechanism to move is disposed on the frame 1, an elastic pressing plate in transmission connection with the cutting mechanism is rotatably disposed on the frame 1, and during the process that the driving mechanism 2 drives the cutting mechanism to move to cut the aluminum material 14, the elastic pressing plate rotates towards the aluminum material 14 to press and fix the aluminum material 14.

Specifically, the aluminum material cutting device provided by the present embodiment is used for cutting a long strip-shaped aluminum material, and the words in the directions such as "left", "right", "upper", "lower", "clockwise", "counterclockwise" and the like in the present embodiment are relative to the drawings. Wherein, cutting mechanism is used for cutting aluminum product 14, cutting mechanism includes cutting motor 12 and the cutting dish 13 that is connected with cutting motor 12's output, can drive cutting dish 13 through cutting motor 12 and rotate, actuating mechanism 2 is the cylinder, actuating mechanism 2's output is connected with telescopic link 20, the free end and the cutting motor 12 fixed connection of telescopic link 20, it is flexible through starting 2 steerable telescopic links of actuating mechanism 20, thereby control cutting motor 12 reciprocates with cutting dish 13, can realize the cutting to aluminum product 14 when cutting dish 13 moves down. The rotation elastic extrusion plate that sets up is used for treating the aluminum product 14 of cutting and fixes, so that the cutting, the elastic extrusion plate is located the top of aluminum product 14, because the elastic extrusion plate is connected with the cutting mechanism transmission, when cutting mechanism moves down and cuts aluminum product 14, will drive the elastic extrusion plate and rotate towards aluminum product 14, thereby compress tightly fixedly aluminum product 14, and the cutting action of aluminum product 14 is after aluminum product 14 is extrudeed fixedly by the elastic extrusion plate, when guaranteeing the cutting with this, aluminum product 14 has been fixed, because the elastic extrusion plate has elasticity, after aluminum product 14 has been fixed, cutting mechanism still can move down and accomplish the cutting to aluminum product 14, the downward movement of cutting mechanism can drive the elastic extrusion plate and continue to rotate and make the elastic extrusion plate produce deformation this moment, and produce behind the deformation extrusion force to aluminum product 14 bigger, make the fixing of aluminum product 14 more firm. The aluminum material cutting and processing device provided by the invention has the working principle that: firstly, an aluminum material 14 to be cut is placed on a machine frame 1, the position of the aluminum material 14 is adjusted under a cutting disc 13, after the length to be cut is determined, a cutting motor 12 is started to enable the cutting disc 13 to rotate, a driving mechanism 2 is started to enable a cutting mechanism to integrally move downwards, an elastic extrusion plate is driven to rotate towards the aluminum material 14 in the downward moving process, so that the aluminum material 14 is compressed and fixed, the cutting disc 13 is contacted with the top of the aluminum material 14 through downward movement of the cutting mechanism until the aluminum material 14 is completely cut off, the aluminum material 14 is extruded by the elastic extrusion plate all the time in the cutting process, pressure deformation is generated constantly, the extrusion force of the elastic extrusion plate on the aluminum material 14 is increased constantly, and the stability of the aluminum material 14 is guaranteed. Among the prior art, at the whole in-process that cuts aluminum product 14, the operator need fix aluminum product 14 through starting to compress tightly the cylinder alone earlier, just later can carry out the cutting operation, leads to operating personnel's operating procedure more in whole cutting process, and work efficiency reduces. The main innovation points of the invention are as follows: the fixing of the aluminum material 14 can be realized in the process of cutting the aluminum material 14, and the operation of fixing the aluminum material 14 separately is omitted, because the number of operation processes is reduced, and the working efficiency can be improved.

In this embodiment, set up the elasticity stripper plate through rotating, the rotation of usable elasticity stripper plate compresses tightly fixedly with aluminum product 14, and because the elasticity stripper plate is connected with the cutting mechanism transmission, is driven and removes the in-process in order to realize cutting aluminum product 14 by actuating mechanism 2 when cutting mechanism, can utilize the removal of cutting mechanism this moment to drive the elasticity stripper plate and rotate in order to realize compressing tightly fixedly to aluminum product 14, need not operating personnel and fix aluminum product 14 alone. Compared with the prior art, the aluminum material 14 is fixed in the cutting process, and an operator does not need to independently fix the aluminum material 14, so that the operation procedures in the whole cutting process can be reduced, and the working efficiency is improved.

In the embodiment, the cutting mechanism is in transmission connection with the elastic extrusion plate through the transmission mechanism;

the transmission mechanism comprises a lifting plate 11 fixedly connected with the cutting mechanism and the driving mechanism 2, and the lifting plate 11 is meshed and connected with the elastic extrusion plate through a toothed plate. Pinion rack and 11 fixed connection of lifter plate, when starting actuating mechanism 2 and making telescopic link 20 flexible, can drive lifter plate 11 and realize going up and down, the lift of lifter plate 11 can drive the pinion rack and reciprocate in step, because the pinion rack is connected with the meshing of elastic extrusion board for elastic extrusion board can carry out clockwise or anticlockwise rotation.

In this embodiment, the elastic extrusion plate includes left elastic plate 5 that is used for extrudeing the initial section of aluminum product 14 and right elastic plate 6 that is used for extruding the excision section of aluminum product 14, the initial section of aluminum product 14 is the part that needs to cut, the excision section of aluminum product 14 is the part of cutaway, left elastic plate 5 is located the top of the initial section of aluminum product 14, right elastic plate 6 is located the top of the excision section of aluminum product 14, left elastic plate 5 rotates with frame 1 through left axis of rotation 7 and is connected, right elastic plate 6 rotates with frame 1 through right axis of rotation 8 and is connected, the pinion rack includes left pinion rack 3 that is connected with the meshing of left axis of rotation 7 and right pinion rack 4 that is connected with the meshing of right axis of rotation 8. The peripheral surface of the left rotating shaft 7 is circumferentially provided with left circumferential teeth 701, the peripheral surface of the right rotating shaft 8 is circumferentially provided with right circumferential teeth 801, the left toothed plate 3 is provided with left vertical teeth 301 meshed with the left circumferential teeth 701, and the right toothed plate 4 is provided with right vertical teeth 401 meshed with the right circumferential teeth 801.

Through the structure design, can refer to fig. 8 and fig. 9, when actuating mechanism 2 makes telescopic link 20 extend, can drive lifter plate 11 downstream, lifter plate 11 downstream drives left pinion rack 3 and right pinion rack 4 synchronous downstream, left pinion rack 3 and right pinion rack 4 downstream can drive left elastic plate 5 and right elastic plate 6 simultaneously towards the direction rotation of aluminum product 14 respectively (namely left elastic plate 5 clockwise turning, right elastic plate 6 anticlockwise rotation), thereby make aluminum product 14 compressed tightly fixedly by left elastic plate 5 and right elastic plate 6 simultaneously, with this fixed effect that can improve aluminum product 14, make aluminum product 14 fixed more firm.

Furthermore, the left toothed plate 3 and the right toothed plate 4 are both in sliding splicing with the rack 1. Vertical tooth 301 in a left side is located the lower half of left pinion rack 3, vertical tooth 401 in the right side is located the lower half of right pinion rack 4, the first half of left pinion rack 3 and the first half of right pinion rack 4 are glossy surface plate, the first half of left pinion rack 3 and the first half of right pinion rack 4 all slip with frame 1 and peg graft, with this realize left pinion rack 3 and right pinion rack 4 and frame 1's slip grafting, utilize left pinion rack 3 and right pinion rack 4 and frame 1's slip grafting, can provide the guide effect to lifter plate 11, and improve the stability when left pinion rack 3 and right pinion rack 4 reciprocate.

In this embodiment, the left elastic plate 5 includes a left connecting portion 501 and a left elastic pressing portion 502 that are fixedly connected, the left connecting portion 501 is fixedly connected with the left rotating shaft 7, the right elastic plate 6 includes a right connecting portion 601 and a right elastic pressing portion 602 that are fixedly connected, and the right connecting portion 601 is fixedly connected with the right rotating shaft 8. The left connecting portion 501 and the right connecting portion 601 are both made of hard materials, the left elastic extrusion portion 502 and the right elastic extrusion portion 602 are both made of elastic metal materials, the left elastic extrusion portion 502 and the right elastic extrusion portion 602 are both arc-shaped, and by means of the arc-shaped elastic design of the left elastic extrusion portion 502 and the right elastic extrusion portion 602, when the left elastic plate 5 and the right elastic plate 6 rotate towards the aluminum material 14, the left elastic extrusion portion 502 and the right elastic extrusion portion 602 respectively extrude the top of the aluminum material 14, and along with the rotation, the left elastic extrusion portion 502 and the right elastic extrusion portion 602 can generate deformation and slide relative to the top of the aluminum material 14, so that a movable space is provided for the downward movement of the cutting mechanism, and the smooth downward movement of the cutting mechanism is ensured until the complete cutting of the aluminum material 14 is completed.

In this embodiment, the right elastic plate 6 further includes an extension plate 603 and an extension elastic portion 604, the extension plate 603 is fixedly connected to the right connecting portion 601, and the extension elastic portion 604 and the right elastic pressing portion 602 press the aluminum material 14 at the same time. The extension plate 603 is made of hard material, the extension elastic portion 604 is made of elastic metal material, and is also designed in an arc shape, and since the extension elastic portion 604 and the right elastic pressing portion 602 simultaneously compress the aluminum material 14, the firmness of the aluminum material 14 can be further improved.

In this embodiment, a left support plate 9 and a right support plate 10 for supporting the aluminum material 14 are arranged on the frame 1, the left support plate 9 is fixedly connected with the frame 1, the right support plate 10 is rotatably connected with the frame 1 through a rotating shaft 22, and the left support plate 9 and the right support plate 10 are detachably connected through an elastic insertion rod. The aluminum material taking-out machine comprises a rack 1, wherein the rack 1 comprises a front side plate and a rear side plate which are arranged oppositely, a left supporting plate 9 and a right supporting plate 10 are positioned between the front side plate and the rear side plate, an avoidance space is formed between the left supporting plate 9 and the right supporting plate 10 and is positioned right below a cutting disc 13 and used for providing a descending space for the cutting disc 13 so that the aluminum material 14 can be completely cut off by the cutting disc 13, the cut aluminum material 14 is divided into an initial section and a cut-off section, the initial section of the aluminum material 14 is positioned on the left supporting plate 9, the cut-off section of the aluminum material 14 is positioned on the right supporting plate 10, because the right supporting plate 10 is rotatably connected with the rack 1, when an elastic insertion rod is pushed to disconnect the supporting plate 9 and the right supporting plate 10, the right supporting plate 10 can be rotated and inclined, and the aluminum material 14 can automatically slide downwards along the right supporting plate 10 under the action of gravity of the aluminum material 14 after the aluminum material is inclined, and the aluminum material taking-out operation of the cut-off section of the aluminum material 14 is realized.

Furthermore, the elastic inserted bar is inserted into the left support plate 9 and the right support plate 10 in a sliding manner, the elastic push rod abutting against the end of the elastic inserted bar is inserted into the right support plate 10 in a sliding manner, the weight of the left part of the rotating shaft 22 of the right support plate 10 is greater than the weight of the right part of the rotating shaft 22, and the elastic push rod is pushed to slide by the elastic inserted bar to enable the elastic inserted bar to move out of the right support plate 10 so that the right support plate 10 rotates and inclines to enable the cut aluminum material 14 to slide out of the right support plate 10. The elastic insertion rods comprise insertion rod bodies 23 and first springs 24, slots 901 which are inserted into the insertion rod bodies 23 in a sliding mode are formed in the left support plate 9, one ends of the first springs 24 are fixedly connected with the insertion rod bodies 23, the other ends of the first springs are fixedly connected with the inner walls of the slots 901, the number of the elastic insertion rods is two, and the two elastic insertion rods are located on the front side and the rear side of the left support plate 9 respectively so as to avoid the cutting disc 13; the elastic push rod comprises a U-shaped rod 16, two parallel rods of the U-shaped rod 16 are both provided with a limiting piece 18 and a second spring 17, the limiting piece 18 is fixedly connected with the U-shaped rod 16, the second spring 17 is movably sleeved with the U-shaped rod 16, the second spring 17 is positioned between the limiting piece 18 and a right support plate 10, one end of the second spring 17 is fixedly connected with the limiting piece 18, the other end of the second spring 17 is fixedly connected with the right support plate 10, the right support plate 10 is provided with through holes 1001 which are in one-to-one correspondence with the two parallel rods of the U-shaped rod 16 in a penetrating manner, the two parallel rods of the U-shaped rod 16 are in one-to-one correspondence with the two through holes 1001 in a sliding manner, two inserting rod bodies 23 are in one-to-one correspondence with the two through holes 1001 respectively, the end parts of the inserting rod bodies 23 are abutted against the end parts of the U-shaped rod 16, in a natural state, the inserted bar body 23 is inserted in the through hole 1001, so that the left support plate 9 and the right support plate 10 are connected, the left support plate 9 and the right support plate 10 are the same in height, the aluminum material 14 is respectively positioned on the left support plate 9 and the right support plate 10, when cutting is completed, acting force towards the left side is applied to the U-shaped bar 16, the inserted bar body 23 can be moved out of the through hole 1001, at the moment, the connection between the left support plate 9 and the right support plate 10 is disconnected, because the weight of the left side part of the rotating shaft 22 of the right support plate 10 is larger than that of the right side part of the rotating shaft 22, at the moment, the right support plate 10 can rotate anticlockwise under the action of gravity, so that the cut-off section of the aluminum material 14 slides down from the right support plate 10, and the cut-off section of the aluminum material 14 is taken out of the rack 1.

Because the space in the frame 1 is limited, it is difficult to take out the cut-out section of the aluminum material 14 from the inside of the frame 1, and by the above-mentioned taking-out method, it is not necessary for the operator to take out the cut-out section of the aluminum material 14 from the inside of the frame 1, the cut-out section of the aluminum material 14 can automatically slide out from the right support plate 10, and further the cut-out section of the aluminum material 14 can be automatically taken out from the frame 1, and the convenience of taking out the cut-out section of the aluminum material 14 can be greatly improved.

Further, in the process that the right elastic plate 6 rotates back to the aluminum material 14, the extension plate 603 extrudes the elastic push rod and drives the elastic push rod to push the elastic insertion rod to slide; specifically, when the right elastic plate 6 rotates back to the aluminum material 14, which means that the right elastic plate 6 rotates clockwise, reference may be made to fig. 9 and fig. 10, in this process, the telescopic rod 20 is driven by the driving mechanism 2 to contract, so that the lifting plate 11 drives the left toothed plate 3 and the right toothed plate 4 to move up synchronously, the upward movement of the left toothed plate 3 and the right toothed plate 4 can respectively drive the left elastic plate 5 to rotate counterclockwise, and the right elastic plate 6 rotates clockwise, because the extension plate 603 is arranged on the right elastic plate 6, the length of the right elastic plate 6 is increased, after the right elastic plate 6 rotates to a certain angle, the extension plate 603 abuts against the cross rod of the U-shaped rod 16, and then, by using the rotating force of the right elastic plate 6, thrust to the left side is generated on the U-shaped rod 16, so that the U-shaped rod 16 pushes the insertion rod body 23 to move to the left side, until the insertion rod body 23 moves out of the through hole 1001, thereby realizing counterclockwise rotation of the right supporting plate 10 (as shown in fig. 11), so that the cut-out section of the aluminum material 14 slides down from the right supporting plate 10, and automatic taking out of the aluminum material 14 is realized.

Through the structural design, the left support plate 9 and the right support plate 10 can be disconnected only by utilizing the rotation of the right elastic plate 6, so that the cut-off section of the aluminum material 14 can be automatically taken out from the right support plate 10, and other drives are not required to be additionally added.

Meanwhile, during the rotation of the left elastic plate 5 away from the aluminum material 14 (i.e., the counterclockwise rotation of the left elastic plate 5), the left connecting portion 501 does not contact the aluminum material 14. Since the length of the left connecting portion 501 is short, it is not in contact with the aluminum material 14 in the process of counterclockwise rotation of the left elastic plate 5, so that it is ensured that the clockwise rotation of the right elastic plate 6 is smoothly performed.

Still further, the rotation shaft 22 is located at the left side of the position where the right elastic plate 6 and the right support plate 10 are pressed, and in the state that the right support plate 10 is inclined, the right elastic plate 6 is driven to press the right support plate 10 in the process that the right elastic plate 6 rotates towards the right support plate 10 (i.e. the right elastic plate 6 rotates counterclockwise) so that the elastic insertion rod is inserted into the right support plate 10. Specifically, the bottom surface of the end of the plunger body 23 inserted into the through hole 1001 is an inclined surface, because the rotating shaft 22 is located on the left side of the position where the right elastic plate 6 and the right support plate 10 are pressed, when the right elastic plate 6 is driven to rotate counterclockwise under the action of the driving mechanism 2 (refer to fig. 11 and fig. 12), in this process, the right elastic pressing portion 602 abuts against the top surface of the right support plate 10 and rotates continuously with the right elastic plate 6, so that the right elastic pressing portion 602 continuously presses the right support plate 10 downward, so that the right support plate 10 rotates clockwise around the rotating shaft 22 (the position of the rotating shaft 22 may refer to fig. 7), firstly, the top of the end of the right support plate 10 abuts against the inclined surface of the plunger body 23, and as the right support plate 10 rotates, the right support plate 10 pushes the plunger body 23 to slide towards the inside of the slot 901, so that the first spring 24 is compressed by force, and after the right support plate 10 is horizontal again, under the elastic force of the first spring 24, the plunger body 23 can be pushed to be inserted into the through hole 1001, so that the right support plate 10 and the left support plate 9 and the original state is restored, so as to facilitate the next cutting.

Through the structural design, the connection between the right support plate 10 and the left support plate 9 can be realized only by utilizing the rotation of the right elastic plate 6, the manual operation of operators is not needed, the driving of other driving mechanisms is not needed, and the device is more economical and convenient.

In this embodiment, fixed mounting has the collecting box 21 that is used for collecting the clastic on the inside wall of frame 1, collecting box 21 is located the cutting direction of cutting dish 13, the top of collecting box 21 is opened, when cutting dish 13 cuts, the piece flies to the posterior lateral plate of frame 1 and collides with the inner wall of frame 1 under the effect of cutting power, after the collision fall to in the collecting box 21 under the effect of gravity, the side of collecting box 21 is provided with sealing door 2101 that can open, can take out the piece of collecting in the collecting box 21 after opening sealing door 2101.

Furthermore, a floating inclined plate 15 is arranged between the front side plate and the rear side plate of the rack 1, one end of the floating inclined plate 15 is connected with the bottom plate of the rack 1 through a third spring 19, the other end of the floating inclined plate 15 is rotatably connected with the front side plate and the rear side plate of the rack 1, the floating inclined plate 15 is positioned below the right support plate 10 and the left support plate 9, when the right support plate 10 and the left support plate 9 are disconnected and rotate anticlockwise, the right end of the right support plate 10 collides with the top of the floating inclined plate 15 (as shown in fig. 11), the right support plate 10 generates vibration force during collision, the cut-off section of the aluminum material 14 can slide down from the right support plate 10 more smoothly under the action of the vibration force, and the aluminum material 14 is prevented from being stuck in the sliding-out process; meanwhile, by utilizing the inclined design of the floating inclined plate 15, after the cut-off section of the aluminum material 14 slides down from the right support plate 10, the cut-off section of the aluminum material 14 continues to slide down along the floating inclined plate 15 until the cut-off section of the aluminum material 14 slides out of the rack 1; furthermore, under the action of the third spring 19, when the right end of the right support plate 10 collides with the top of the floating inclined plate 15, the third spring 19 is instantaneously compressed under the force of the instantaneous collision, and then the elastic force of the third spring 19 is released, so that the floating inclined plate 15 drives the right support plate 10 to float up and down, the cut-off section of the aluminum material 14 can smoothly slide down along the right support plate 10 and the floating inclined plate 15 in sequence in the floating process, and the aluminum material 14 is further prevented from being stuck in the sliding process.

Still further, the top surface of the inclined plate 15 that floats and the bottom surface butt of collecting box 21, because the piece temperature is higher, when getting into collecting box 21, when high temperature effect easily with produce the adhesive force between the inner wall of collecting box 21, be unfavorable for the taking out of piece, and utilize the design of the top surface of the inclined plate 15 that floats and the bottom surface butt of collecting box 21, when the inclined plate 15 that floats receives the impact and when floating from top to bottom, the inclined plate 15 that floats will collide with the bottom of collecting box 21 under the effect of third spring 19, utilize the impact, can make collecting box 21 produce vibrations, can make the adhesive force between the piece in the collecting box 21 and the inner wall of collecting box 21 eliminate under the effect of vibrations, in order to make things convenient for the taking out of piece.

Still further, the bottom surface of the collection box 21 is an inclined surface, the inclined direction of the inclined surface is the same as that of the floating inclined plate 15, and the inclined surface is designed to function as: firstly, the contact area of the collection box 21 and the floating inclined plate 15 can be increased, so that the impact effect of the floating inclined plate 15 on the collection box 21 is provided, and the adhesion force between the debris and the collection box 21 is better eliminated; second, when the debris collected in the collection box 21 is taken out, the debris can more smoothly roll to the sealing door 2101 along the inclined bottom surface of the collection box 21, so that the debris can be more conveniently and thoroughly taken out.

While certain exemplary embodiments of the present invention have been described above by way of illustration only, it will be apparent to those of ordinary skill in the art that the described embodiments may be modified in various different ways without departing from the spirit and scope of the present invention. Accordingly, the drawings and description are illustrative in nature and should not be construed as limiting the scope of the invention.

Claims (10)

1. The utility model provides an aluminum product cutting processingequipment, includes frame (1) and the cutting mechanism who cuts to aluminum product (14), be provided with actuating mechanism (2) that are used for driving cutting mechanism to remove on frame (1), its characterized in that: the aluminum product cutting machine is characterized in that an elastic extrusion plate connected with a cutting mechanism in a transmission mode is arranged on the rack (1) in a rotating mode, the driving mechanism (2) drives the cutting mechanism to move in the process of cutting the aluminum product (14), and the elastic extrusion plate rotates towards the aluminum product (14) to enable the aluminum product (14) to be pressed and fixed.

2. The aluminum material cutting processing device according to claim 1, characterized in that: the cutting mechanism is in transmission connection with the elastic extrusion plate through a transmission mechanism;

the transmission mechanism comprises a lifting plate (11) fixedly connected with the cutting mechanism and the driving mechanism (2), and the lifting plate (11) is meshed with the elastic extrusion plate through a toothed plate.

3. The aluminum material cutting processing device of claim 2, wherein: the elastic extrusion plate comprises a left elastic plate (5) used for an initial section of an extrusion aluminum material (14) and a right elastic plate (6) used for a cutting section of the extrusion aluminum material (14), the left elastic plate (5) is rotationally connected with the rack (1) through a left rotating shaft (7), the right elastic plate (6) is rotationally connected with the rack (1) through a right rotating shaft (8), and the toothed plate comprises a left toothed plate (3) connected with the left rotating shaft (7) in a meshed mode and a right toothed plate (4) connected with the right rotating shaft (8) in a meshed mode.

4. An aluminum material cutting processing device as recited in claim 3, wherein: the left toothed plate (3) and the right toothed plate (4) are both inserted in the rack (1) in a sliding mode.

5. The aluminum material cutting processing device according to claim 3, characterized in that: left side elastic plate (5) are including fixed connection's left connecting portion (501) and left elasticity extrusion portion (502), left side connecting portion (501) and left rotation axle (7) fixed connection, right side elastic plate (6) are including fixed connection's right connecting portion (601) and right elasticity extrusion portion (602), right connecting portion (601) and right rotation axle (8) fixed connection.

6. The aluminum material cutting processing device of claim 5, wherein: the right elastic plate (6) further comprises an extension plate (603) and an extension elastic part (604), the extension plate (603) is fixedly connected with the right connecting part (601), and the extension elastic part (604) and the right elastic extrusion part (602) simultaneously compress the aluminum material (14).

7. The aluminum material cutting processing device of claim 6, wherein: be provided with left branch fagging (9) and right branch fagging (10) that are used for supporting aluminum product (14) on frame (1), left branch fagging (9) and frame (1) fixed connection, right branch fagging (10) are rotated with frame (1) through pivot (22) and are connected, can dismantle the connection through the elasticity inserted bar between left branch fagging (9) and right branch fagging (10).

8. The aluminum material cutting processing device according to claim 7, characterized in that: the elastic insertion rod is inserted into the left support plate (9) and the right support plate (10) in a sliding mode, an elastic push rod which is abutted to the end portion of the elastic insertion rod is inserted into the right support plate (10) in a sliding mode, the weight of the left side portion of the rotating shaft (22) of the right support plate (10) is larger than the weight of the right side portion of the rotating shaft (22), the elastic push rod is used for pushing the elastic insertion rod to slide, the elastic insertion rod is moved out of the right support plate (10) to enable the right support plate (10) to rotate and incline, and the cut aluminum material (14) is enabled to slide out of the right support plate (10).

9. The aluminum material cutting processing device according to claim 8, characterized in that: in the process that the right elastic plate (6) rotates back to the aluminum material (14), the extension plate (603) is extruded with the elastic push rod and drives the elastic push rod to push the elastic inserted rod to slide;

in the process that the left elastic plate (5) rotates back to the aluminum material (14), the left connecting part (501) is not in contact with the aluminum material (14).

10. The aluminum material cutting processing device according to claim 8, characterized in that: the rotating shaft (22) is located on the left side of the position where the right elastic plate (6) and the right supporting plate (10) are extruded mutually, and under the state that the right supporting plate (10) is inclined, the right elastic plate (6) is driven to extrude the right supporting plate (10) towards the rotating process of the right supporting plate (10) so that the elastic insertion rod is inserted into the right supporting plate (10).

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