CN112893967A

CN112893967A - Quantitative cutting device for aluminum profiles

Info

Publication number: CN112893967A
Application number: CN202110203243.5A
Authority: CN
Inventors: 不公告发明人
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-07-03
Filing date: 2020-07-03
Publication date: 2021-06-04
Also published as: CN112893968A; CN111673168A; CN111673168B

Abstract

The invention discloses a quantitative aluminum profile cutting device, and belongs to the field of machining equipment. The base is provided with a side wall, an upper supporting plate is arranged on the side wall, the sliding ring plate is slidably arranged on the upper supporting plate, the positioning plate is connected to the sliding ring plate and provided with a pointer, the upper supporting plate is provided with angle scales, the positioning plate is provided with linear scales, the cutting device is connected to the base, and the upper supporting plate is provided with a abdicating groove; the knob is connected to the upper support plate, the locking block is in threaded connection with the knob, and the number of the first gear teeth is z₁The number of the second gear teeth is z₂The sliding ring plate is provided with a third gear, and the number of teeth is z₃The cutting device is provided with a fourth gear, and the number of teeth is z₄Wherein: z is a radical of₁：z₃＝z₂：z₄(ii) a The adjusting knob, the first gear drives the sliding ring plate to rotate, the cutting device rotates reversely, the adjustment is convenient, and the installation requirement of equipment is reduced, so that the cutting angle can be adjusted conveniently, and the linear scale is realAnd the current quantitative cutting is realized, and the angle scale is matched with the pointer to realize the fixed angle adjustment.

Description

Quantitative cutting device for aluminum profiles

This application is divisional application, and the original case patent number is: 2020106296298, filing date 2020, 7/03, entitled: a quantifiable cutting device for factory aluminum profiles.

Technical Field

The invention relates to the field of machining equipment, in particular to a quantitative aluminum profile cutting device.

Background

The aluminum profile is a long profile with a cross section, which is extruded by a die, and a user needs to machine and cut the industrial aluminum profile into a proper length according to the self requirement before using the aluminum profile.

In the actual cutting process, the aluminum profile is most often cut along an angle of 0 degree or 45 degrees, but with the popularization and development of the mechanical design industry, the application of non-standard parts is more and more extensive, the requirements on the cutting angle of the aluminum profile are also more and more, and therefore the requirements on a cutting machine are also higher and more.

Cutting machine among the prior art, adjustment cutting angle's often method has two kinds, firstly adjustment locating plate angle, cutting piece angle is unchangeable cuts, but because initial aluminium alloy is longer (often about 6 meters), if for realizing along wide-angle (45 ~ 90) cutting, if need two-way feeding, then the feeding direction of aluminium alloy on the cutting machine changes greatly, the scope is 360 of circumference of cutting machine, consequently aluminium alloy cutting device's installation requirement is higher, all need to clear out at least 6 meters's scope all around, it is too big to take up an area of scope, it is very inconvenient to use, and the wide-angle is mediated very hard, conversion angle is comparatively troublesome.

Therefore, a quantitative aluminum profile cutting device is provided.

Disclosure of Invention

The invention provides a quantitative aluminum profile cutting device, which can solve the problem that a cutting device in the prior art is inconvenient to adjust a cutting angle.

The utility model provides an aluminium alloy ration cutting device, includes organism, cutting device and adjusting device, wherein:

the machine body comprises a base, a side wall, an upper supporting plate, a sliding ring plate and positioning plates, wherein the side wall is fixedly connected to the upper end of the base, the upper supporting plate is fixedly connected to the upper end of the side wall, an annular chute is formed in the upper supporting plate, the sliding ring plate is slidably arranged on the annular chute, the upper surface of the sliding ring plate is flush with the upper surface of the upper supporting plate, the two positioning plates are respectively and fixedly connected to different positions of the sliding ring plate, the two positioning plates are arranged in a collinear manner, one ends of the two positioning plates pointing to the outer sides are fixedly connected with pointers, the upper supporting plate is provided with angle scales, the angle scales are arranged along the sliding ring plate, and the positioning plates are provided with linear scales;

the cutting device is rotatably connected to the base, the upper supporting plate is provided with a yielding groove for providing rotation for the cutting device, and the upper surface of the cutting device is flush with the upper surface of the upper supporting plate;

adjusting device includes knob, first gear, second gear, intermediate gear and latch segment, it is used for holding to offer on the backup pad adjusting device's first holding tank, the knob rotationally is connected to go up the backup pad, the outside of knob is seted up threadedly, the latch segment with knob threaded connection, be fixed with the connecting rod on the knob, the intermediate gear rotationally sets up in the first holding tank, first gear with second gear fixed connection respectively is in on the connecting rod, the tooth number of first gear is z₁The number of teeth of the second gear is z₂A third gear is circumferentially arranged on the outer side of the sliding ring plate, and the tooth number of the third gear is z₃A fourth gear is circumferentially arranged on the outer side of the cutting device, and the tooth number of the fourth gear is z₄Said first gear meshing with said third gear, said second gear meshing with said intermediate gear, said intermediate gear further meshing with said fourth gear, wherein: z is a radical of₁：z₃＝z₂：z₄；

The cutting device comprises a lower supporting plate, an upper supporting plate, supporting columns, a first electric push rod, a supporting plate, a supporting shaft, pressing blocks, a cutting piece and a motor, wherein the lower supporting plate is rotatably connected to the base, the upper supporting plate is rotatably connected to the abdicating groove, the upper surface of the upper supporting plate is flush with the upper surface of the upper supporting plate, a fourth gear is circumferentially arranged on the outer side of the upper supporting plate, a plurality of supporting columns are fixedly connected to the lower supporting plate, the upper ends of the supporting columns are fixedly connected to the upper supporting plate, the first electric push rod is fixedly connected to the lower supporting plate, the supporting plate is fixedly connected to an output shaft of the first electric push rod, the supporting shaft is rotatably connected to the supporting plate, the cutting piece is sleeved on the supporting shaft, the supporting shaft is provided with external threads, and the, two the briquetting is used for fixing the cutting piece, motor fixed connection to in the backup pad, motor drive is connected to the back shaft, offer on the mounting plate and be used for the logical groove that the cutting piece passes through.

Preferably, the bearing support further comprises an end face bearing, the base is provided with a second accommodating groove used for accommodating the lower supporting plate, and the lower supporting plate is fixedly connected with the end face bearing.

Has the advantages that: according to the aluminum profile quantitative cutting device provided by the invention, the knob is adjusted, the first gear drives the sliding ring plate to rotate, the second gear drives the cutting device to rotate reversely through the intermediate gear, the locking block is rotated after adjustment to lock the knob for positioning and clamping, so that the adjustment is more convenient, the rotation directions of the positioning plate and the cutting device are opposite, the adjustment time can be saved, the feeding direction range is reduced to 90 degrees, the installation requirement of equipment is greatly reduced, the adjustment of a cutting angle is facilitated, the linear scale on the positioning plate can be used for length measurement so as to realize more accurate quantitative cutting, and the angle scale on the upper supporting plate is matched with the pointer so as to realize more accurate fixed angle adjustment.

Drawings

Fig. 1 is a schematic structural view of an aluminum profile quantitative cutting device provided by the invention;

fig. 2 is a front view of an aluminum profile quantitative cutting device provided by the invention;

FIG. 3 is a schematic cross-sectional view taken at A-A of FIG. 2;

FIG. 4 is a schematic cross-sectional view taken at B-B of FIG. 2;

FIG. 5 is an enlarged view of a portion of the structure at C in FIG. 2;

fig. 6 is a control relationship diagram of the controller.

Description of reference numerals:

1-machine body, 11-base, 12-side wall, 13-upper supporting plate, 131-angle scale, 14-sliding ring plate, 15-positioning plate, 151-linear scale, 152-first button, 153-pointer, 2-cutting device, 21-lower supporting plate, 22-upper supporting plate, 221-through groove, 23-supporting column, 24-first electric push rod, 25-supporting plate, 26-supporting shaft, 27-pressing block, 28-cutting sheet, 29-second button, 30-second electric push rod, 31-feeding arm, 311-third electric push rod, 312-push rod, 313-sliding rod, 314-spring, 315-third button, 316-supporting shell, 317-servo motor, 318-conveying roller, 32-adjusting device, 321-knob, 322-first gear, 323-second gear, 324-intermediate gear, 325-locking block, 4-end face bearing, 5-controller and 6-motor. .

Detailed Description

An embodiment of the present invention will be described in detail below with reference to the accompanying drawings, but it should be understood that the scope of the present invention is not limited to the embodiment.

Specific example 1:

as shown in fig. 1 to 4, an aluminum profile quantitative cutting device provided by an embodiment of the present invention includes a machine body 1, a cutting device 2 and an adjusting device 32, wherein:

the machine body 1 comprises a base 11, a side wall 12, an upper supporting plate 13, a sliding ring plate 14 and positioning plates 15, wherein the upper end of the base 11 is fixedly connected with the side wall 12, the upper end of the side wall 12 is fixedly connected with the upper supporting plate 13, an annular sliding chute is formed in the upper supporting plate 13, the sliding ring plate 14 is slidably arranged on the annular sliding chute, the upper surface of the sliding ring plate 14 is flush with the upper surface of the upper supporting plate 13, the two positioning plates 15 are respectively and fixedly connected to different positions of the sliding ring plate 14, the two positioning plates 15 are arranged in a collinear manner, one ends of the two positioning plates 15 pointing to the outer sides are fixedly connected with pointers 153, the upper supporting plate 13 is provided with angle scales 131, the angle scales 131 are arranged along;

the cutting device 2 is rotatably connected to the base 11, the upper supporting plate 13 is provided with a yielding groove for providing rotation for the cutting device 2, and the upper surface of the cutting device 2 is flush with the upper surface of the upper supporting plate 13;

the adjusting device 32 comprises a knob 321, a first toothWheel 322, second gear 323, intermediate gear 324 and latch segment 325, last backup pad 13 is last to offer the first holding tank that is used for holding adjusting device 32, knob 321 rotationally is connected to last backup pad 13, the outside of knob 321 has seted up the screw thread, latch segment 325 and knob 321 threaded connection, be fixed with the connecting rod on the knob 321, intermediate gear 324 rotationally sets up in first holding tank, first gear 322 and second gear 323 are fixed connection respectively on the connecting rod, the number of teeth of first gear 322 is z₁The number of teeth of the second gear 323 is z₂A third gear is arranged on the outer circumference of the sliding ring plate 14, and the tooth number of the third gear is z₃A fourth gear is circumferentially arranged on the outer side of the cutting device 2, and the tooth number of the fourth gear is z₄The first gear 322 is meshed with the third gear, the second gear 323 is meshed with the intermediate gear 324, and the intermediate gear 324 is also meshed with the fourth gear, wherein: z is a radical of₁：z₃＝z₂：z₄。

When the device is used, the cutting angle is adjusted firstly, the locking block 325 is rotated to enable the locking block 325 to leave the upper supporting plate 13, at the moment, the knob 321 can rotate freely, the knob 321 is adjusted manually, the knob 321 drives the first gear 322 and the second gear 323 to rotate, the first gear 322 drives the sliding ring plate 14 to rotate, the second gear 323 drives the cutting device 2 to rotate through the intermediate gear 324, the rotating direction of the cutting device 2 is opposite to the rotating direction of the sliding ring plate 14, and because z is₁：z₃＝z₂：z₄Realize that cutting device 2 is the same with slip ring board 14 turned angle variation, fix locating plate 15 on slip ring board 14 also produces the displacement thereupon, fix the directional angle scale 131 of pointer 153 on locating plate 15, show actual cutting angle and be used for more accurate regulation, adjust and accomplish back rotatory locking block 325, thereby locking knob 321 carries out the location clamp tightly, it is more convenient to make the regulation, and locating plate 15 and cutting device 2 turned direction are opposite, when can save adjust time, also reduce the feeding direction scope of aluminium alloy to 90, greatly reduced equipment's installation requirement, thereby be convenient for cutting angle's regulation, paste the aluminium alloy and lean on locating plate 15, and according to the straight line scale on the locating plate, decide length cutting, start cutting dress, the installation of aluminium alloy is required, the installation of the aluminium alloy is required, the installation of beingAnd (2) placing the aluminum profile for processing.

Specific example 2:

in embodiment 1, since the actual structure of the cutting device 2 generally affects the adjustment of the cutting angle of the aluminum profile, in order to achieve better multi-angle cutting, on the basis of embodiment 2, as shown in fig. 1 to 4, the present embodiment further includes an end surface bearing 4, the cutting device 2 includes a lower supporting plate 21, an upper supporting plate 22, a supporting pillar 23, a first electric push rod 24, a supporting plate 25, a supporting shaft 26, a pressing block 27, a cutting blade 28 and a motor 6, the lower supporting plate 21 is rotatably connected to the base 11, the upper supporting plate 22 is rotatably connected to the abdicating groove, the upper surface of the upper supporting plate 22 is flush with the upper surface of the upper supporting plate 13, a fourth gear is circumferentially arranged outside the upper supporting plate 22, a plurality of supporting pillars 23 are fixedly connected to the lower supporting plate 21, the upper ends of the supporting pillars 23 are fixedly connected to the upper supporting plate 22, the first electric push rod 24 is fixedly connected to the lower supporting plate 21, the supporting plate 25 is rotatably connected with a supporting shaft 26, the cutting blade 28 is sleeved on the supporting shaft 26, the supporting shaft 26 is provided with an external thread, two pressing blocks 27 are in threaded connection with the supporting shaft 26, the two pressing blocks 27 are used for fixing the cutting blade 28, the motor 6 is fixedly connected to the supporting plate 25, the motor 6 is in transmission connection with the supporting shaft 26, and the upper supporting plate 22 is provided with a through groove 221 for the cutting blade 28 to pass through;

the base 11 is provided with a second accommodating groove for accommodating the lower supporting plate 21, and the lower supporting plate 21 is fixedly connected with the end face bearing 4, so that the angle adjustment is more convenient and labor-saving.

During the use, when starting cutting device 2, motor 6 drives cutting piece 28 and rotates, first electric putter 24 promotes backup pad 25 upward movement, cutting piece 28 also moves thereupon, cutting piece 28 cuts the aluminium alloy behind logical groove 221, the back is accomplished in the cutting, close cutting device 2, motor 6 stall, first electric putter 24 contracts back and drives cutting piece 28 and withdraws, the setting makes the regulation of cutting angle not receive cutting device 2's influence completely at the inside cutting device 2 of organism 1, thereby be convenient for more decide the angle cutting.

Specific example 3:

in embodiment 2, in the actual use process, mass processing is often required, the practicability of manually adjusting the cutting length is not strong, and in order to realize automatic control of fixed-length feeding, on the basis of embodiment 2, as shown in fig. 1 to 5, the embodiment further includes a second electric push rod 30 and a feeding arm 31, the two second electric push rods 30 are both fixedly connected to the slip ring plate 14, the two second electric push rods 30 are respectively arranged corresponding to the two positioning plates 15, the output shaft of the second electric push rod 30 points to the positioning plate 15, the output shaft of the second electric push rod 30 is fixedly connected to a pressing plate, and rubber is laid on the pressing plate;

the feeding arm comprises a third electric push rod 311, a push rod 312, a sliding rod 313, a spring 314, a third button 315, a support shell 316, a servo motor 317 and a conveying roller 318, the third electric push rod 311 is fixedly connected to the sliding ring plate 14, an output shaft of the third electric push rod 311 points to the positioning plate 15, the output shaft of the third electric push rod 311 is fixedly connected with the push rod 312, a sliding groove is formed in the push rod 312, one end of the sliding rod 313 is slidably connected into the sliding groove, one end of the spring 314 is fixedly connected into the sliding groove, the other end of the spring 314 is fixedly connected to the sliding rod 313, the other end of the sliding rod 313 is fixedly connected with the support shell 316, the conveying roller 318 is rotatably connected to the support shell 316, the servo motor 317 is fixedly connected to the support shell 316.

During the use, before the cutting, start second electric putter 30, make the clamp plate location press from both sides tight aluminium alloy, then start cutting device 2, make the cutting process more stable, after the cutting was accomplished, make second electric putter 30 retract, third electric putter 311 stretches out, and third electric putter 311 targets in place the back, starts servo motor 317, and servo motor 317 decides the angle and rotates, drives the conveying roller and carries the aluminium alloy, realizes the pay-off of deciding length.

Specific example 4:

in embodiment 3, since automatic control of cutting cannot be achieved during actual use, in order to improve efficiency and practicability, on the basis of embodiment 2, as shown in fig. 1 to 6, the cutting machine further comprises a control system, the control system comprises a first button 152, a second button 29, a third button 315 and a controller 5, the controller 5 is fixedly connected to the machine body 1, the positioning plate 15 is provided with a groove for accommodating the supporting shell 316, the first button 315 is arranged in the groove, the second button 29 is arranged at the lower end of the upper supporting plate 22, the supporting plate 25 can press the second button, the third button 315 is arranged at the center of the spring 314, the sliding rod 313 can press the third button 315, the first button 152, the second button 29 and the third button 315 are all in signal connection with the controller 5, and the controller 5 is in signal connection with the first electric push rod 24, the second electric push rod 30, the third electric push rod 311, the third electric push rod 315, A servo motor 317 and a motor 6.

When the aluminum profile cutting machine is used, after an aluminum profile is placed according to the linear scale 151, the aluminum profile cutting machine is started, the controller 5 receives a starting signal and sends a signal to the second electric push rod 30 and the first electric push rod 24, the second electric push rod 30 positions and clamps the aluminum profile, the first electric push rod 24 cuts the aluminum profile, when the support plate touches the second button 29, the cutting is finished, the controller 5 receives a signal of the second button 29, the controller 5 immediately sends a signal to the first electric push rod 24 to control the retraction of the first electric push rod 24, after the controller 5 sends a signal to control the first electric push rod 24, the controller 5 sends a signal to the second electric push rod 30 and the third electric push rod 311 after 5 seconds of delay, the second electric push rod 30 is controlled to retract, the aluminum profile is loosened, and the third electric push rod 311 extends out;

if the feeding roller 318 abuts against the aluminum profile, the sliding rod 313 compresses the spring 314 until the third button 315 is pressed, and the first button 152 cannot be pressed, the controller 5 receives a signal, starts the servo motor 317 to feed materials with a fixed length, after the servo motor 317 finishes feeding, the controller 5 receives a signal, sends signals to the second electric push rod 30, the third electric push rod 311 and the first electric push rod 24, the second electric push rod 30 extends out to position and clamp, the third electric push rod 311 retracts to prepare for next feeding, the first electric push rod 24 extends out to cut, and the steps are repeated in this way,

if the third electric push rod 311 extends out and the aluminum profile is finished, the conveying roller 318 directly leans against the positioning plate 15, the first button 152 is pressed, the controller 5 receives the signal, controls the first electric push rod 24, the second electric push rod 30 and the third electric push rod 311 to retract to the original position, controls the motor 6 and the servo motor 317 to stop rotating, resets and prepares for next cutting.

The above disclosure is only for a few specific embodiments of the present invention, however, the present invention is not limited to the above embodiments, and any variations that can be made by those skilled in the art are intended to fall within the scope of the present invention.

Claims

1. The utility model provides an aluminium alloy ration cutting device which characterized in that, includes organism (1), cutting device (2) and adjusting device (32), wherein:

the machine body (1) comprises a base (11), a side wall (12), an upper supporting plate (13), a sliding ring plate (14) and positioning plates (15), wherein the upper end of the base (11) is fixedly connected with the side wall (12), the upper end of the side wall (12) is fixedly connected with the upper supporting plate (13), an annular sliding groove is formed in the upper supporting plate (13), the sliding ring plate (14) is slidably arranged on the annular sliding groove, the upper surface of the sliding ring plate (14) is flush with the upper surface of the upper supporting plate (13), the two positioning plates (15) are respectively and fixedly connected to different positions of the sliding ring plate (14), the two positioning plates (15) are arranged in a collinear manner, one ends of the positioning plates (15) pointing to the outer side are fixedly connected with pointers (153), and the upper supporting plate (13) is provided with angle scales (131), the angle scales (131) are arranged along the sliding ring plate (14), and the positioning plate (15) is provided with linear scales (151);

the cutting device (2) is rotatably connected to the base (11), the upper supporting plate (13) is provided with a yielding groove for rotating the cutting device (2), and the upper surface of the cutting device (2) is flush with the upper surface of the upper supporting plate (13);

adjusting device (32) include knob (321), first gear (322), second gear (323), intermediate gear (324) and latch segment (325), it is used for holding to offer on backup pad (13) the first holding tank of adjusting device (32), knob (321) rotationally is connected to go up backup pad (13), the outside of knob (321) is seted up threadedly, latch segment (325) with knob (321) threaded connection, be fixed with the connecting rod on knob (321), intermediate gear (324) rotationally sets up first gear (321) is connected to the screw threadIn the holding tank, first gear (322) with second gear (323) fixed connection respectively on the connecting rod, the number of teeth of first gear (322) is z₁The number of teeth of the second gear (323) is z₂A third gear is circumferentially arranged on the outer side of the sliding ring plate (14), and the tooth number of the third gear is z₃A fourth gear is circumferentially arranged on the outer side of the cutting device (2), and the tooth number of the fourth gear is z₄-said first gear (322) meshes with said third gear, -said second gear (323) meshes with said intermediate gear (324), -said intermediate gear (324) also meshes with said fourth gear, wherein: z is a radical of₁：z₃＝z₂：z₄；

The cutting device (2) comprises a lower supporting plate (21), an upper supporting plate (22), supporting columns (23), a first electric push rod (24), a supporting plate (25), a supporting shaft (26), a pressing block (27), a cutting piece (28) and a motor (6), wherein the lower supporting plate (21) is rotatably connected to the base (11), the upper supporting plate (22) is rotatably connected to the receding groove, the upper surface of the upper supporting plate (22) is flush with the upper surface of the upper supporting plate (13), a fourth gear is circumferentially arranged on the outer side of the upper supporting plate (22), a plurality of supporting columns (23) are fixedly connected to the lower supporting plate (21), the upper ends of the supporting columns (23) are fixedly connected to the upper supporting plate (22), the first electric push rod (24) is fixedly connected to the lower supporting plate (21), the supporting plate (25) is fixedly connected to an output shaft of the first electric push rod (24), rotationally be connected with on backup pad (25) back shaft (26), cutting piece (28) cup joint on back shaft (26), external screw thread has been seted up in back shaft (26), two briquetting (27) threaded connection to back shaft (26), two briquetting (27) are used for fixing cutting piece (28), motor (6) fixed connection to on backup pad (25), motor (6) transmission is connected to back shaft (26), offer on top plate (22) and be used for through groove (221) that cutting piece (28) pass through.

2. The aluminum profile quantitative cutting device as claimed in claim 1, further comprising an end face bearing (4), wherein the base (11) is provided with a second accommodating groove for accommodating the lower supporting plate (21), and the end face bearing (4) is fixedly connected to the lower supporting plate (21).