CN115592189A - Aluminum profile cutting equipment for lateral positioning in transverse moving process - Google Patents

Abstract

The invention relates to the technical field of aluminum profile cutting, in particular to aluminum profile cutting equipment for lateral positioning in a transverse moving process. The cutting device comprises a base and a cutting member which is rotatably connected to the base, wherein a cutter groove is formed in the position, which is located on the base and is intersected with the base after a cutting end is pressed downwards, and a cutting space is formed between the cutting end of the cutting member and the cutter groove. According to the invention, the plurality of movable parts are arranged on the surface, close to the aluminum profile, of the distance positioning plate along the length direction, so that the aluminum profile is positioned through the laterally protruding movable parts, and the movable parts which are not in the target distance are pressed through the aluminum profile, so that the movable parts at the target distance and the movable parts behind the movable parts protrude laterally to block the aluminum profile, therefore, scales do not need to be aligned manually, and errors caused by manual alignment during cutting are reduced.

Description

Aluminum profile cutting equipment for lateral positioning in transverse moving process

Technical Field

The invention relates to the technical field of aluminum profile cutting, in particular to aluminum profile cutting equipment for lateral positioning in a transverse moving process.

Background

The existing aluminum profile is provided with a scale plate when being cut, so that a cutting position corresponding to a distance can be found quickly, the scale is aligned, the cutting device is manually moved, the cutting device is provided with more accurate measuring equipment, manual assistance is not needed, the manual cutting mode cannot be replaced in the aluminum profile cutting industry, and the problem that the scale error is large when the aluminum profile is aligned manually needs to be solved.

And the density of the aluminum profile is only 2.7g/cm ³ About the density of steel, copper or brass (7.83 g/cm each) ³ ，8.93g/cm ³ ) Although there is no relation between hardness and density, for most metals, the lower the density, the more loose the molecular arrangement and then the easier the metal is to deform.

Therefore, the aluminum profiles are easy to deform, so that difficulty is brought to cutting, the cutting positions of a plurality of aluminum profiles are connecting points used for later-stage installation, and once deformation occurs in the cutting process, a large gap is generated in later-stage butt joint.

Disclosure of Invention

The invention aims to provide aluminum profile cutting equipment for lateral positioning in a transverse moving process, so as to solve the problems in the background technology.

In order to achieve the above object, an aluminum profile cutting device for lateral positioning in a transverse moving process is provided, which includes a base and a cutting member rotatably connected to the base, wherein a knife groove is formed in a position on the base, which is located after a cutting end is pressed down and intersects with the base, a cutting space is formed between the cutting end of the cutting member and the knife groove, a positioning member is arranged on the base, the positioning member includes a moving positioning plate and a distance positioning plate, the moving positioning plate and the distance positioning plate are respectively located on two sides of the knife groove, wherein:

the movable positioning plate is arranged on one side of the aluminum profile entering the cutting space;

the distance positioning plate is arranged on one side of the aluminum profile extending out of the cutting space;

a plurality of movable parts are arranged on the surface, on one side, of the distance positioning plate attached to the aluminum profile along the length direction, so that the aluminum profile is positioned through the movable parts protruding in the lateral direction.

As a further improvement of the technical scheme, the surfaces of the movable positioning plate and the distance positioning plate, which are attached to the aluminum profile, are positioned on the same surface, and the surface is vertical to the surface formed by the cutting end.

As a further improvement of the technical solution, the cutting member comprises a knife cover with an opening at the bottom and a disc-shaped cutting knife rotatably connected in the knife cover, the base is provided with a connecting frame, and one side of the knife cover is provided with a connecting part rotatably connected with the connecting frame;

the cutting member further comprises a work assembly mounted on the connecting portion, and the work assembly is used for driving rotation of the cutting knife.

As a further improvement of the technical scheme, a connecting spring is fixedly connected between the connecting part and the base.

As a further improvement of the technical scheme, the acting assembly comprises a motor, the motor is fixed on one side of the connecting part, an output shaft of the motor penetrates through the connecting part, a driving wheel is arranged at one end through which the output shaft penetrates, one end of a rotating shaft, located on the side where the driving wheel is located, of the cutting knife, which is rotatably connected with the knife cover, extends outwards, and a driving wheel is arranged at one end, extending out, of the rotating shaft;

the periphery of drive wheel and drive wheel all sets up annular belt groove, the belt inslot is overlapped and is equipped with the belt.

As a further improvement of this technical scheme, the movable part includes apart from the strip, it is provided with the slide bar to be located apart from the inboard of locating plate apart from the strip, set up the cell body with apart from strip and slide bar sliding connection on the locating plate apart from, the cell body includes holding chamber, spring chamber and overhanging chamber, holding chamber, spring chamber and overhanging chamber outside-in set up, wherein:

a wall body is arranged between the accommodating cavity and the spring cavity, the distance bars are in sliding connection with the accommodating cavity, the sliding rod penetrates through the wall body and is movably connected with the spring cavity, the extending cavity is integrally connected with the spring cavity, and the sliding rod is in sliding connection with the extending cavity;

the radius of the spring cavity is larger than that of the outward extending cavity, a sliding disc is connected in the spring cavity in a sliding mode and fixedly connected with a sliding rod, and a pressure spring is fixedly connected between the sliding disc and the inner wall of the spring cavity.

As a further improvement of the technical solution, a notch is provided on one side of the distance bar facing the cutting space, a slope is formed on the distance bar through the notch, and when the distance bar is not extruded, a cliff surface is formed between the distance bar of the protruding part and the outer surface of the distance positioning plate, and the cliff surface is used for blocking the transverse aluminum profile.

As a further improvement of the technical scheme, the movable positioning plate is positioned on one side where the aluminum section enters and is provided with an inclined groove.

As a further improvement of the technical solution, the positioning member further includes an output plate set, the output plate set is disposed at an opposite side from the positioning plate to form a positioning space between the output plate set and the positioning plate set for the aluminum profile to enter, the output plate set includes a base plate and an output plate, the base plate is fixedly disposed on the base, and the output plate is movably disposed in the positioning space;

one side of the output plate is provided with a sliding column, the output plate is connected with the base plate in a sliding mode through the sliding column, and an output spring is arranged between the output plate and the base plate and located on the periphery of the sliding column.

As a further improvement of the technical scheme, a positioning large arm is arranged on the side of the knife cover, which is located on the movable positioning plate, and the positioning large arm is rotationally connected with the knife cover;

one end of the positioning large arm, which extends to the opposite side of the movable positioning plate, is rotatably connected with a positioning small arm, and torsion springs are arranged between the positioning small arm and the positioning large arm and between the positioning large arm and the cutter cover;

the one end of location forearm and aluminium alloy contact is used for exerting pressure to the aluminium alloy with the help of the process that the blade guard pushed down to fix a position the aluminium alloy.

Compared with the prior art, the invention has the beneficial effects that:

1. this in sideslip in-process carries out aluminium alloy cutting equipment of side direction location, a side surface at distance locating plate laminating aluminium alloy is provided with a plurality of movable parts along length direction, fix a position the aluminium alloy through the outstanding movable part of side direction, it is not the movable part of target distance specifically to push down through the aluminium alloy, the movable part that makes the movable part of target distance department and thereafter the movable part side direction is outstanding and is blockked the aluminium alloy, just so need not the manual work and align the scale, thereby reduce the error that brings because of the manual work aligns during the cutting.

2. This carry out aluminium alloy cutting equipment of side direction location at sideslip in-process, the effect through output board and distance strip makes the aluminium alloy have a horizontal prestressing force, and this prestressing force can change according to the trend of warping moreover to offset the extrusion stress of partial cutting knife through horizontal prestressing force, avoid aluminium alloy to receive the extrusion of cutting knife and lead to warping by a wide margin in cutting process.

Drawings

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

FIG. 2 is a schematic view of the movable portion of the present invention;

FIG. 3 is an enlarged view of the structure of FIG. 2A in accordance with the present invention;

FIG. 4 is a schematic view of a movable positioning plate according to the present invention;

FIG. 5 is a schematic view of a cutting member according to the present invention;

FIG. 6 is a schematic view of a driving assembly according to the present invention;

FIG. 7 is a schematic view of the blade cover pressing down principle of the present invention;

FIG. 8 is a schematic illustration of the output plate set position of the present invention;

FIG. 9 is a schematic view of an output plate set of the present invention;

fig. 10 is a schematic view of the working principle of the positioning big arm and the positioning small arm of the invention.

The various reference numbers in the figures mean:

100. a cutting member;

110. a knife cover; 120. a connecting portion; 121. a connecting spring; 130. a cutting knife; 140. a grip; 150. a motor; 151. a drive wheel; 152. a driving wheel; 153. a belt;

200. a base; 200A, a cutter groove; 210. a connecting frame;

300. a positioning member;

310. moving the positioning plate; 310A, a chute;

320. a distance positioning plate; 321. a distance bar; 321a, a bevel; 321b, cliff face; 3211. a slide bar; 3212. a slide plate; 322. a pressure spring; 320A, an accommodating cavity; 320B, a spring cavity; 320C, an overhanging cavity;

330. an output plate group; 331. a substrate; 332. an output plate; 333. a traveler; 3331. an output tray; 334. an output spring;

340. positioning the large arm; 341. positioning the small arm; 342. a restraining bar; 343. a slideway; 344. and a roller.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like, indicate orientations or positional relationships based on those shown in the drawings, merely for convenience of description and simplicity of description, and do not indicate or imply that the device or element so referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, are not to be construed as limiting the present invention.

Further, in the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

The existing aluminum profile is provided with a scale plate when being cut, so that a cutting position corresponding to a distance can be found quickly, the scale is aligned, the cutting device is manually moved, the cutting device is provided with more accurate measuring equipment, manual assistance is not needed, the manual cutting mode cannot be replaced in the aluminum profile cutting industry, and the problem that the scale error is large when the aluminum profile is aligned manually needs to be solved.

For this purpose, the present invention provides an aluminum profile cutting apparatus for performing lateral positioning during a traverse process, as shown in fig. 1, the cutting apparatus includes a cutting member 100 and a base 200, the cutting member 100 is rotatably connected to the base 200, and as with the existing cutting device, the cutting member 100 is pressed down to cut an aluminum profile placed on the base 200 by the cutting end, and in addition, in order to ensure the cutting depth of the cutting end of the cutting member 100, a knife groove 200A is provided on the base 200 at a position intersecting the base 200 after the cutting end is pressed down, a cutting space is formed between the cutting end and the knife groove 200A, and the aluminum profile is cut in the cutting space, and the cutting apparatus of the present invention is different from the existing cutting device in that:

be provided with locating component 300 on base 200, locating component 300 is including removing locating plate 310 and apart from locating plate 320, removes locating plate 310 and apart from locating plate 320 and is located the both sides of sword groove 200A respectively, wherein: remove locating plate 310 and set up the one side that gets into the cutting space at the aluminium alloy, apart from locating plate 320 then set up the one side that stretches out the cutting space at the aluminium alloy, the part that stretches out is exactly the part by the cutting, so one side surface along length direction at the aluminium alloy of 320 laminating of locating plate is provided with a plurality of movable parts, fix a position the aluminium alloy with the outstanding movable part through the side direction, it is not the movable part of target distance specifically to push down through the aluminium alloy, the movable part that makes target distance department and movable part side direction salient thereafter block the aluminium alloy, just so need not the manual work and aligns the scale, thereby the error because of the manual work alignment brought during the reduction cutting.

It should be noted that the surfaces of the movable positioning plate 310 and the distance positioning plate 320 of the present invention, which are attached to the aluminum profile, are on the same surface, and the surface is also perpendicular to the surface formed by the cutting end, so as to ensure that the section of the aluminum profile is perpendicular to the aluminum profile, and the aluminum profile can better move on the distance positioning plate 320 under the support of the movable positioning plate 310.

A first embodiment of the invention is shown next by figures 1-7,

firstly, fig. 5 shows a cutting member 100, the cutting member 100 includes a knife cover 110, a connecting portion 120 and a disc-shaped cutting knife 130, the cutting knife 130 is rotatably connected in the knife cover 110 with an opening at the bottom, so that the cutting knife 130 can be exposed to form a cutting end, and returning to fig. 1, a connecting frame 210 is arranged on a base 200, preferably arranged at a position near the middle outside the top of the base 200, and continuing to refer to fig. 5, the connecting portion 120 is arranged at one side of the knife cover 110 in the figure, the knife cover 110 is rotatably connected with the connecting frame 210 through the connecting portion 120, and a connecting spring 121 is fixedly connected between the connecting portion 120 and the base 200, so as to be capable of timely resetting after the connecting portion 120 rotates, and then the cutting member 100 further includes a working assembly mounted on the connecting portion 120 for driving the rotation of the cutting knife 130;

in fig. 6, the acting assembly includes a motor 150, the motor 150 is fixed on one side of the connecting portion 120, an output shaft of the motor 150 penetrates through the connecting portion 120, a driving wheel 151 is disposed at one end of the penetration, a rotating shaft of the cutting knife 130 rotatably connected with the knife cover 110 is located at one end of the driving wheel 151 and extends outwards, a driving wheel 152 is disposed at one end of the extension, an annular belt groove is disposed on the periphery of the driving wheel 151 and the periphery of the driving wheel 152, and a belt 153 is sleeved in the belt groove.

When the aluminum profile cutting machine is used, firstly, an aluminum profile to be cut is placed on the base 200, when the aluminum profile is to be cut, the handle 140 (shown in fig. 5) arranged on the cutter cover 110 is held, downward pressure is applied to the cutter cover 110 by taking the downward pressure as a force application point, as shown in fig. 7, the connecting part 120 rotates by taking an adapter point of the connecting frame 210 (namely, an adapter rod arranged on the connecting frame 210, and an adapter point is formed by connecting an adapter hole formed in the connecting part 120 and the adapter rod), then the driving wheel 151 rotates under the action of the output shaft of the motor 150, then the driving wheel 152 and the driving wheel 151 rotate synchronously through the transmission of the belt 153, the rotating driving wheel 152 can drive the cutting knife 130 to rotate, and then the cutting knife 130 gradually contacts the aluminum profile along with the downward movement of the cutter cover 110, once the aluminum profile is cut, the cutting depth gradually increases in the downward pressing process until the aluminum profile is cut through the aluminum profile (the aluminum profile with the cutter groove 200A, otherwise, the cutting knife 130 can cause damage to the aluminum profile 200, and the effect of the cutter groove 200A can be caused by the cutting of the aluminum profile.

Next, fig. 2 shows the movable part apart from locating plate 320, the movable part includes apart from strip 321, the inboard that is located apart from locating plate 320 apart from strip 321 is provided with slide bar 3211, and set up the cell body with apart from strip 321 and slide bar 3211 sliding connection on the locating plate 320 apart from locating plate 320, this cell body includes holding chamber 320A, spring chamber 320B and overhanging chamber 320C, holding chamber 320A, spring chamber 320B and overhanging chamber 320C outside-in set up, wherein:

a wall body is arranged between the accommodating cavity 320A and the spring cavity 320B, the distance bar 321 is in sliding connection with the accommodating cavity 320A, the sliding rod 3211 penetrates through the wall body and is movably connected with the spring cavity 320B, the outward extending cavity 320C is integrally connected with the spring cavity 320B, and then the sliding rod 3211 is in sliding connection with the outward extending cavity 320C;

the radius of the spring cavity 320B is larger than that of the outward extending cavity 320C, then a sliding disc 3212 is slidably connected in the spring cavity 320B, the sliding disc 3212 is fixedly connected with the sliding rod 3211, and a pressure spring 322 is fixedly connected between the sliding disc 3212 and the inner wall of the spring cavity 320B.

In fig. 3, a notch is provided on the side of the distance bar 321 facing the cutting space, and a bevel 321a is formed on the distance bar 321 through the notch, so that the aluminum profile in contact with the distance bar 321 can press the distance bar 321 into the accommodating cavity 320A by means of the bevel 321a, and when the distance bar 321 is not pressed, a cliff surface 321b is formed between the distance bar 321 of the protruding part and the outer surface of the distance positioning plate 320, and the main purpose of the cliff surface is: after the distance strips 321 protrude, the cliff surfaces 321b block the transverse movement of the aluminum profiles, and the purpose of positioning is achieved.

During the use, that is to the location process to the aluminium alloy before cutting 130 cuts, specifically as follows:

firstly, an aluminum profile is placed on the base 200 and attached to the outer surface of the movable positioning plate 310, then the aluminum profile is pushed to gradually enter a cutting space by the support of the movable positioning plate 310, after the aluminum profile passes through the cutting space, the aluminum profile can be positioned by using the distance positioning plate 320 and the movable part on the outer surface of the distance positioning plate 320, if the movable part in the embodiment is arranged at equal intervals along the length direction of the distance positioning plate 320, the interval is the unit length, then the cut aluminum profile is determined to be 10 unit lengths, then the aluminum profile needs to be supported by the movable positioning plate 310 to lean out, so that the aluminum profile contacting the distance strips 321 crosses the cliff surface 321b and acts on the inclined surface 321a, the aluminum profile transversely moving in such a way can directly press the distance strips 321 into the accommodating cavity 320A, after the 9 th distance strips 321 are pressed in, the aluminum profile is pushed to be closely attached to the outer surface of the movable positioning plate 310 and the outer surface of the distance positioning plate 320, the aluminum profile continues to transversely move, the aluminum profile is stopped by the cliff surface 321b, so that the aluminum profile can be positioned, the aluminum profile is continuously kept closely attached to the outer surface of the movable positioning plate 310 and the cutting knife 130, and the connecting part 120 is cut, and the aluminum profile can be reset under the spring 121.

In addition, another embodiment is that: at least one positioning point is set according to specific aluminum profile machining requirements, the positioning points do not need to be arranged at equal intervals, only the corresponding positioning points need to be found according to the aluminum profile machining requirements, then the aluminum profile is moved to the front of the distance strips 321 corresponding to the positioning points in a transverse mode and is tightly attached to the outer surfaces of the movable positioning plate 310 and the distance positioning plate 320, the aluminum profile can be stopped by the cliff surface 321b corresponding to the positioning points by continuously moving the aluminum profile in the transverse mode.

Any one of the two embodiments may set a positioning mark at a position corresponding to the movable portion, where the mark may be a scale value (used in the movable portion set at equal intervals), or a specific phrase (used in the movable portion not set at equal intervals, where the specific phrase may be a code number of a product, a self-defined label, etc.), and the positioning mark may be set at a position on the distance positioning plate 320 corresponding to the movable position of the distance bar 321, or may be directly set at a position where a protruding portion of the distance bar 321 can be seen by an operator.

In addition, in order to facilitate the aluminum profile to incline under the support of the movable positioning plate 310, the movable positioning plate 310 in fig. 4 is provided with a chute 310A at the side where the aluminum profile enters, so that a space is provided for the inclination of the aluminum profile through the chute 310A, and the aluminum profile can be supported after being inclined, thereby facilitating the transverse movement of the aluminum profile by an operator.

Figures 8-10 show a second embodiment of the invention,

in fig. 8, the positioning member 300 further includes an output plate group 330, the output plate group 330 is disposed at an opposite side from the positioning plate 320 to form a positioning space therebetween for the aluminum profile to enter, in fig. 9, the output plate group 330 includes a base plate 331 and an output plate 332, the base plate 331 is fixedly disposed on the base 200, the output plate 332 is movably disposed in the positioning space, specifically, a sliding column 333 is disposed at one side of the output plate 332, the output plate 332 is slidably connected with the base plate 331 through the sliding column 333, and an output spring 334 is disposed between the output plate 332 and the base plate 331 and at the periphery of the sliding column 333.

During the use, push into the location space with the aluminium alloy of sideslip, need promote output plate 332 at this time, make output plate 332 can laminate the aluminium alloy, the later stage only need stop to incline the aluminium alloy like this, then output plate 332 can receive output spring 334's effect extrusion aluminium alloy, make it laminate with the surface that removes locating plate 310 and apart from locating plate 320, and the most important one is, distance strip 321 after pasting receives pressure spring 322's effect also can produce a effect to the aluminium alloy, and it is all elastic force with output plate 332 the same, like this along with the cutting of cutting knife 130, the aluminium alloy receives the extrusion of cutting knife 130 just has a trend of warping, make the aluminium alloy have a horizontal prestressing force through output plate 332 and the effect of distance strip 321 this moment, and this prestressing force can change according to the trend of warping, with the extrusion stress of part 130 is offset to through horizontal prestressing force, avoid receiving the extrusion of cutting knife 130 at the aluminium alloy and leading to warping by a wide margin in cutting process.

Furthermore, in fig. 10, the side of the knife cover 110, which is located at the mobile positioning plate 310, is provided with the large positioning arm 340, the large positioning arm 340 is rotatably connected with the knife cover 110, one end of the large positioning arm 340, which extends to the opposite side of the mobile positioning plate 310, is rotatably connected with the small positioning arm 341, and torsion springs are respectively arranged between the small positioning arm 341 and the large positioning arm 340 and between the large positioning arm 340 and the knife cover 110, so that when the aluminum profile is used, along with the downward movement of the knife cover 110, one end of the small positioning arm 341, which is in contact with the aluminum profile, can apply pressure to the aluminum profile to position the aluminum profile.

The following two positioning modes are provided:

firstly, the end part of the positioning small arm 341 is attached to the side surface of the aluminum profile, the aluminum profile is positioned in a side force application mode, and a transverse prestress can be applied to the aluminum profile in the same way;

secondly, place location forearm 341 in the top surface of aluminium alloy, its main objective is pressed the aluminium alloy, leads to the aluminium alloy perk when avoiding cutting.

In addition, a slide 343 is arranged on the small positioning arm 341 along the length direction thereof, a limiting rod 342 is movably connected in the slide 343, and the limiting point of the small positioning arm 341 on the large positioning arm 340 is changed by moving the limiting rod 342, so as to adjust the maximum distance of the pressing down of the cutter cover 110, that is, the maximum depth which can be cut by the cutting knife 130.

In addition, the tip of location forearm 341 rotates and is connected with gyro wheel 344, reduces the damage that location forearm 341 led to the fact the aluminium alloy through the roll of gyro wheel 344.

The output plate 332 in this embodiment is a rigid structure.

In a third embodiment of the present invention, the first,

returning to fig. 9, the output plate 332 in this embodiment is a flexible structure, and a hard output tray 3331 is disposed at the position where the spool 333 is connected to the output plate 332, so that the flexible output plate 332 facilitates the tilting of the aluminum profile, and the hard output tray 3331 ensures that the output plate 332 has a sufficient supporting point.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and the preferred embodiments of the present invention are described in the above embodiments and the description, and are not intended to limit the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. An aluminum profile cutting device for lateral positioning in a transverse moving process comprises a base (200) and a cutting member (100) rotatably connected to the base (200), wherein a cutter groove (200A) is formed in the base (200) at a position, which is intersected with the base (200) after a cutting end is pressed downwards, a cutting space is formed between the cutting end of the cutting member (100) and the cutter groove (200A), and the aluminum profile cutting device is characterized in that: be provided with locating component (300) on base (200), locating component (300) are including removing locating plate (310) and apart from locating plate (320), remove locating plate (310) and apart from locating plate (320) and be located the both sides of sword groove (200A) respectively, wherein:

the movable positioning plate (310) is arranged on one side of the aluminum profile entering the cutting space;

the distance positioning plate (320) is arranged on one side of the aluminum profile extending out of the cutting space;

one side surface of the aluminum profile attached to the distance positioning plate (320) is provided with a plurality of movable parts along the length direction so as to position the aluminum profile through the laterally protruding movable parts.

2. The aluminum profile cutting apparatus for performing lateral positioning during a lateral moving as claimed in claim 1, wherein: the movable positioning plate (310) and the distance positioning plate (320) are positioned on the same surface with the surface attached to the aluminum profile, and the surface is also vertical to the surface formed by the cutting end.

3. The aluminum profile cutting apparatus for performing lateral positioning during a lateral moving as claimed in claim 1, wherein: the cutting component (100) comprises a knife cover (110) with an opening at the bottom and a disc-shaped cutting knife (130) rotatably connected in the knife cover (110), a connecting frame (210) is arranged on the base (200), and a connecting part (120) rotatably connected with the connecting frame (210) is arranged on one side of the knife cover (110);

the cutting member (100) further comprises a work assembly mounted on the connecting portion (120) for driving rotation of the cutting blade (130).

4. The aluminum profile cutting apparatus for performing lateral positioning during a lateral moving as claimed in claim 3, wherein: and a connecting spring (121) is fixedly connected between the connecting part (120) and the base (200).

5. The aluminum profile cutting apparatus for performing lateral positioning during a traverse as recited in claim 3, wherein: the acting assembly comprises a motor (150), the motor (150) is fixed on one side of the connecting part (120), an output shaft of the motor (150) penetrates through the connecting part (120), a driving wheel (151) is arranged at one end, through which the output shaft penetrates, of the rotating shaft, rotatably connected with the cutter cover (110), of the cutting knife (130) is located at one end, on the side of the driving wheel (151), and extends outwards, and a driving wheel (152) is arranged at one end, extending out of the rotating shaft, of the rotating shaft;

annular belt grooves are formed in the peripheries of the driving wheel (151) and the transmission wheel (152), and a belt (153) is sleeved in each belt groove.

6. The aluminum profile cutting apparatus for performing lateral positioning during a traverse as recited in claim 1, wherein: the movable part includes apart from strip (321), it is provided with slide bar (3211) apart from the inboard that strip (321) are located apart from locating plate (320) to be located apart from strip (321), set up on locating plate (320) and apart from strip (321) and slide bar (3211) sliding connection's cell body, the cell body includes holding chamber (320A), spring chamber (320B) and overhanging chamber (320C), holding chamber (320A), spring chamber (320B) and overhanging chamber (320C) outside-in set up, wherein:

a wall body is arranged between the accommodating cavity (320A) and the spring cavity (320B), the distance bar (321) is in sliding connection with the accommodating cavity (320A), the sliding rod (3211) penetrates through the wall body to be movably connected with the spring cavity (320B), the extending cavity (320C) is integrally connected with the spring cavity (320B), and the sliding rod (3211) is in sliding connection with the extending cavity (320C);

the radius of the spring cavity (320B) is larger than that of the outward extending cavity (320C), a sliding disc (3212) is connected in the spring cavity (320B) in a sliding mode, the sliding disc (3212) is fixedly connected with a sliding rod (3211), and a pressure spring (322) is fixedly connected between the sliding disc (3212) and the inner wall of the spring cavity (320B).

7. The aluminum profile cutting apparatus for performing lateral positioning during a traverse as recited in claim 6, wherein: the side of the distance strip (321) facing the cutting space is provided with a notch, the notch forms a bevel (321 a) on the distance strip (321), and when the distance strip (321) is not extruded, a cliff surface (321 b) is formed between the distance strip (321) of the protruding part and the outer surface of the distance positioning plate (320), and the cliff surface (321 b) is used for blocking the transverse aluminum profile.

8. The aluminum profile cutting apparatus for performing lateral positioning during a traverse as recited in claim 1, wherein: the movable positioning plate (310) is positioned on one side where the aluminum profile enters and provided with a chute (310A).

9. The aluminum profile cutting apparatus for performing lateral positioning during a traverse as recited in claim 5, wherein: the positioning member (300) further comprises an output plate group (330), the output plate group (330) is arranged at the opposite side of the positioning plate (320) so as to form a positioning space between the positioning plate (320) and the output plate group (330) for the aluminum profile to enter, the output plate group (330) comprises a base plate (331) and an output plate (332), the base plate (331) is fixedly arranged on the base (200), and the output plate (332) is movably arranged in the positioning space;

one side of the output plate (332) is provided with a sliding column (333), the output plate (332) is connected with the substrate (331) in a sliding mode through the sliding column (333), and an output spring (334) is arranged between the output plate (332) and the substrate (331) and located on the periphery of the sliding column (333).

10. The aluminum profile cutting apparatus for performing lateral positioning during a lateral moving as claimed in claim 9, wherein: a positioning large arm (340) is arranged on the side, located on the movable positioning plate (310), of the knife cover (110), and the positioning large arm (340) is rotatably connected with the knife cover (110);

one end of the positioning large arm (340) extending to the opposite side of the movable positioning plate (310) is rotatably connected with a positioning small arm (341), and torsion springs are arranged between the positioning small arm (341) and the positioning large arm (340) and between the positioning large arm (340) and the knife cover (110);

one end of the positioning small arm (341) in contact with the aluminum profile is used for pressing the aluminum profile by means of the process of pressing down the cutter cover (110) so as to position the aluminum profile.

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