CN110899833A - Numerical control arbitrary angle cutting saw - Google Patents

Abstract

The invention relates to the technical field of cutting in the aluminum profile machining industry, in particular to a numerical control arbitrary-angle cutting saw, which comprises a sawing machine body, wherein the sawing machine body comprises a sawing machine frame, a rotating assembly and a rotating table, the sawing machine frame is provided with a sawing machine beam, the rotating assembly is fixed on the sawing machine frame and drives the rotating table to rotate, a cutting device and a workbench are arranged on the rotating table, and one end of a saw blade of the cutting device penetrates through a cutting groove of the workbench; and a clamping assembly for clamping the aluminum profile is arranged on the cross beam of the sawing machine. When the cutting device is used, the rotating table, the cutting device and the workbench are driven to rotate by the rotating assembly, so that cutting at any angle is realized; cutting device and workstation all set up on the revolving stage, both can simplify the rotating assembly structure, can guarantee the stationarity of cutting process again, guarantee cutting accuracy.

Description

Numerical control arbitrary angle cutting saw

Technical Field

The invention relates to the technical field of cutting in the aluminum profile processing industry, in particular to a numerical control arbitrary-angle cutting saw.

Background

With the development of society and the progress of science and technology, the application of aluminium alloy is more and more extensive, and in the course of aluminium alloy's processing, often need cut off it, consequently all need use cutting sawing machine.

The existing aluminum material cutting sawing machine comprises a workbench, a cutting device is arranged below the workbench, a cutter of the cutting device penetrates out of the workbench, a limiting device or a clamp is mostly arranged on the workbench to position an aluminum profile, and then the aluminum profile is cut. However, the sawing machine has a single cutting direction, and cannot cut aluminum profiles at multiple angles, so that a numerical control cutting saw with any angle is needed.

Disclosure of Invention

The invention aims to provide a numerical control arbitrary angle cutting saw aiming at the defects and shortcomings of the prior art.

In order to achieve the purpose, the invention adopts the technical scheme that:

the invention relates to a numerical control cutting saw with any angle, which comprises a sawing machine body, wherein the sawing machine body comprises a sawing machine frame, a rotating assembly and a rotating table, the sawing machine frame is provided with a sawing machine beam, the rotating assembly is fixed on the sawing machine frame and drives the rotating table to rotate, the rotating table is provided with a cutting device and a workbench, and one end of a saw blade of the cutting device penetrates through a cutting groove of the workbench; and a clamping assembly for clamping the aluminum profile is arranged on the cross beam of the sawing machine.

Further, rotating assembly is including servo motor and driven gear, servo motor is fixed to be set up in the sawing machine frame, driven gear one end is connected with the sawing machine frame through the bearing frame, the driven gear other end and revolving stage looks fixed connection, servo motor's main shaft fixedly connected with driving gear, the driving gear meshes with driven gear mutually.

Furthermore, the cutting device comprises a servo electric cylinder fixed on a rotating platform, two cutting guide rails parallel to the cutting feed direction, and a cutting motor seat, the cutting guide rails are fixed on the rotating platform through square steel, the upper surface of the cutting motor seat is fixedly connected with a cutting motor, a main shaft of the cutting motor is fixedly connected with a saw blade,

the lower surface of the cutting motor base is fixedly connected with a cutting sliding block matched with the cutting guide rail, the cutting sliding block is movably nested on the cutting guide rail, and a telescopic rod of the servo electric cylinder is fixedly connected with one end of the cutting motor base.

Furthermore, the clamping assembly comprises a pressed plate fixed on a cross beam of the sawing machine, a lower pressing assembly and a side pressing assembly,

the downward pressing assembly comprises a downward pressing support plate fixed on a cross beam of the sawing machine, the downward pressing support plate is fixedly connected with a downward pressing cylinder, and a telescopic rod of the downward pressing cylinder is connected with a downward pressing block;

the side pressure assembly comprises two cantilevers, a side pressure rod and a side pressure plate which are arranged in parallel, a pressure plate sliding block is fixedly connected to one surface of the side pressure plate, a pressure plate guide rail matched with the pressure plate sliding block is fixedly connected to one surface of the side pressure rod, the pressure plate sliding block is movably nested on the pressure plate guide rail, and the side pressure plate is locked on the side pressure rod through a pressure plate locking screw; and two ends of the side pressure rod are connected with the cantilever through side pressure driving components.

Furthermore, the side pressure driving assembly comprises a side pressure guide rail, a side pressure slide block movably nested on the side pressure guide rail, and an adjustable slide block movably nested on the side pressure guide rail,

the side pressure sliding block is fixedly connected with the side pressure rod; the adjustable sliding block is fixedly connected with a side pressure air cylinder seat, one side of the side pressure air cylinder seat is fixedly connected with a side pressure air cylinder, a telescopic rod of the side pressure air cylinder is fixedly connected with a side pressure rod, and the side pressure air cylinder seat is locked on a side pressure guide rail through a clamping block.

Furthermore, a feeding line body is arranged at the feeding end of the sawing machine body, and a discharging line body is arranged at the discharging end of the sawing machine body; and the feeding line body is provided with a feeding device for pushing the aluminum profile to feed to the sawing machine body.

Furthermore, the feeding device comprises a feeding conveying line, two feeding guide rails parallel to the feeding conveying direction are arranged on the feeding conveying line, a feeding sliding block is arranged on the feeding guide rails in a nested manner with the movable part, and a feeding trolley is fixedly connected to the upper surface of the feeding sliding block.

Furthermore, the feeding conveying line is fixedly provided with a supporting plate cylinder and a supporting roller cylinder,

the telescopic rod of the supporting plate cylinder is fixedly connected with a supporting plate, the lower surface of the supporting plate is fixedly connected with a supporting plate guide rod, the feeding conveying line is provided with a supporting plate guide sleeve matched with the supporting plate guide rod, and one end of the supporting plate guide rod penetrates through the supporting plate guide sleeve;

the telescopic rod of the carrier roller cylinder is fixedly connected with a carrier roller supporting plate, the carrier roller supporting plate is movably connected with a carrier roller through two bearing blocks, the lower surface of the carrier roller supporting plate is fixedly connected with a carrier roller guide rod, the feeding conveying line is provided with a carrier roller guide sleeve matched with the carrier roller guide rod, and one end of the carrier roller guide rod penetrates through the carrier roller guide sleeve; the carrier roller, layer board all parallel the setting with the feeding transfer chain running roller.

After adopting the structure, the invention has the beneficial effects that: the invention relates to a numerical control cutting saw with any angle, which comprises a sawing machine body, wherein the sawing machine body comprises a sawing machine frame, a rotating assembly and a rotating table, the sawing machine frame is provided with a sawing machine beam, the rotating assembly is fixed on the sawing machine frame and drives the rotating table to rotate, the rotating table is provided with a cutting device and a workbench, and one end of a saw blade of the cutting device penetrates through a cutting groove of the workbench; and a clamping assembly for clamping the aluminum profile is arranged on the cross beam of the sawing machine. When the cutting device is used, the rotating table, the cutting device and the workbench are driven to rotate by the rotating assembly, so that cutting at any angle is realized; cutting device and workstation all set up on the revolving stage, both can simplify the rotating assembly structure, can guarantee the stationarity of cutting process again, guarantee cutting accuracy.

Drawings

FIG. 1 is a perspective view of the present invention;

FIG. 2 is an enlarged view of the portion D in FIG. 1;

FIG. 3 is an enlarged view of E of FIG. 1;

FIG. 4 is an enlarged view of E1 in FIG. 3;

FIG. 5 is a partial perspective view of the present invention from a first perspective;

FIG. 6 is a partial perspective view of the present invention from a second perspective;

description of reference numerals:

A. a sawing machine body; a1, sawing machine frame; a2, a workbench; a3, a sawing machine beam;

a4, a cutting device fixing table; a51, pressing the supporting plate downwards; a52, a pressing cylinder; a53, a lower pressing block;

a54, side pressure rods; a55, side pressure plates; a56, a pressure plate slide block; a57, cantilever;

a581, a side pressure guide rail; a582, laterally pressing the slide block; a583, adjustable slide block; a584, a clamping block;

a585, lateral pressure cylinder block; a586, side pressure cylinder;

a61, a servo motor; a62, a driving gear; a63, a driven gear; a64, rotating table;

a71, servo electric cylinder; a72, cutting a guide rail; a73, cutting a sliding block;

a74, cutting a motor base; a75, cutting a motor; a76, saw blade;

B. a discharge line body; C. a feed line body;

c1, a feeding car; c2, feeding guide rails; c3, a feeding slide block; c4, a feeding conveying line;

c51, a supporting plate; c52, a pallet cylinder; c53, a supporting plate guide rod; c54, a supporting plate guide sleeve;

c61, carrier rollers; c62, carrier roller supporting plates; c63, a carrier roller cylinder; c64, a carrier roller guide rod;

c65, roller guide sleeve.

Detailed Description

The invention will be further described with reference to the accompanying drawings.

As shown in fig. 1 to 6, the numerically controlled random angle cutting saw of the present invention comprises a saw body a, the saw body a comprises a saw frame a1, a rotating assembly and a rotating table a64, the saw frame a1 is provided with a saw beam A3, the rotating assembly is fixed on the saw frame a1 and drives the rotating table a64 to rotate, the rotating table a64 is provided with a cutting device and a working table a2, one end of a saw blade a76 of the cutting device passes through a cutting slot of the working table a 2; a clamping assembly for clamping the aluminum profile is arranged on the sawing machine beam A3. The rotating platform A64 is provided with a workbench A2 through a bracket, and the workbench A2 is positioned above the cutting device; the rotating table A64, the cutting device and the working table A2 are driven to rotate through the rotating assembly, and therefore cutting at any angle is achieved.

Further, the rotating assembly comprises a servo motor A61 and a driven gear A63, the servo motor A61 is fixedly arranged on a sawing machine frame A1, one end of the driven gear A63 is connected with a sawing machine frame A1 through a bearing seat, the other end of the driven gear A63 is fixedly connected with a rotating table A64, a main shaft of the servo motor A61 is fixedly connected with a driving gear A62, and the driving gear A62 is meshed with a driven gear A63; starting a servo motor A61, driving a driving gear A62 to rotate by a main shaft of the servo motor A61, enabling a driven gear A63 to rotate along with the driving gear A62, and enabling a rotating platform A64 to rotate along with the driven gear A63; thereby realizing multi-angle cutting.

Furthermore, the cutting device comprises a servo electric cylinder A71 fixed on a rotating platform A64, two cutting guide rails A72 parallel to the cutting feed direction, and a cutting motor seat A74, wherein the cutting guide rails A72 are fixed on the rotating platform A64 through square steel, the upper surface of the cutting motor seat A74 is fixedly connected with a cutting motor A75, the main shaft of the cutting motor A75 is fixedly connected with a saw blade A76,

the lower surface of the cutting motor seat A74 is fixedly connected with a cutting slide block A73 matched with the cutting guide rail A72, the cutting slide block A73 is movably nested on the cutting guide rail A72, and a telescopic rod of the servo electric cylinder A71 is fixedly connected with one end of a cutting motor seat A74.

Further, the clamping assembly comprises a pressed plate fixed on a cross beam A3 of the sawing machine, a pressing assembly and a side pressing assembly, the side pressing assembly pushes the aluminum profile towards the direction of the pressed plate until the aluminum profile is tightly abutted against the pressed plate, the pressing assembly pushes the aluminum profile towards the direction of a workbench A2 until the aluminum profile is tightly abutted against the workbench A2, the aluminum profile is clamped at the moment, a cutting motor A75 is started to drive a saw blade A76 to rotate and push a cutting motor A75 to advance through a servo electric cylinder A71, and the saw blade A76 cuts the aluminum profile.

The downward pressing assembly comprises a downward pressing support plate A51 fixed on a cross beam A3 of the sawing machine, the downward pressing support plate A51 is fixedly connected with a downward pressing cylinder A52, and a telescopic rod of the downward pressing cylinder A52 is connected with a downward pressing block A53;

the side pressure subassembly includes two cantilever A57, side pressure pole A54, side pressure board A55 that are parallel to each other and set up, side pressure board A55 fixed surface is connected with clamp plate slider A56, a side pressure pole A54 fixed surface is connected with clamp plate slider A56 assorted clamp plate guide rail, clamp plate slider A56 activity nestification is on the clamp plate guide rail, side pressure board A55 locks at side pressure pole A54 through clamp plate locking screw, specifically is: if the position of the side pressure plate A55 needs to be adjusted, the locking screw of the pressure plate is unscrewed, and the side pressure plate A55 and the pressure plate sliding block A56 can move along the direction of the pressure plate guide rail, so that the aluminum profile clamping device is convenient to clamp different aluminum profiles; when one end of the pressure plate locking screw is screwed with the side pressure plate A55 and is tightly pressed against the side pressure rod A54, the side pressure plate A55 is locked on the side pressure rod A54.

Both ends of the lateral pressure rod A54 are connected with a cantilever A57 through lateral pressure driving components, and the lateral pressure rod A54 specifically comprises the following components: the side pressure driving assembly drives the side pressure rod A54 and the side pressure plate A55 to press towards the aluminum profile to clamp the aluminum profile.

Further, the side pressure driving component comprises a side pressure guide rail A581, a side pressure slide block A582 movably nested on the side pressure guide rail A581, an adjustable slide block A583 movably nested on the side pressure guide rail A581,

the side pressure slide block A582 is fixedly connected with a side pressure rod A54, and the side pressure slide block A582 is fixedly connected with a side pressure rod A54 through a cushion block; the adjustable sliding block A583 is fixedly connected with a side pressure air cylinder seat A585, one side of the side pressure air cylinder seat A585 is fixedly connected with a side pressure air cylinder A586, an expansion link of the side pressure air cylinder A586 is fixedly connected with a side pressure rod A54, and the side pressure air cylinder seat A585 is locked on a side pressure guide rail A581 through a clamping block A584; the method specifically comprises the following steps: the clamping block A584 is composed of a left clamping block and a right clamping block, screws are sequentially in threaded connection with the left clamping block and the right clamping block, grooves matched with the side pressure guide rail A581 are formed in the peripheries of the left holding block and the right holding block, when the screws hold the left clamping block and the right clamping block tightly, the left holding block and the right holding block tightly hold the side pressure guide rail A581, and at the moment, the side pressure cylinder seat A585, the adjustable sliding block A583 and the side pressure cylinder A586 cannot move; at this time, when the telescopic rod of the side pressure cylinder A586 is extended or retracted, the side pressure slider A582, the side pressure rod A54 and the side pressure plate A55 can be pushed to move.

When the screw is unscrewed, the left clamping block and the right clamping block are in clearance fit, and the side pressure air cylinder seat A585, the adjustable slide block A583 and the side pressure air cylinder A586 can move along the side pressure guide rail A581 direction at the moment.

Further, a feeding line body C is arranged at the feeding end of the sawing machine body A, and a discharging line body B is arranged at the discharging end of the sawing machine body A; and the feeding line body C is provided with a feeding device for pushing the aluminum profile to feed to the sawing machine body A.

Further, the feeding device comprises a feeding conveying line C4, two feeding guide rails C2 parallel to the feeding conveying direction are arranged on the feeding conveying line C4, a feeding sliding block C3 is arranged on the feeding guide rail C2 and the movable nesting, and a feeding trolley C1 is fixedly connected to the upper surface of the feeding sliding block C3; the feeding car C1 and the feeding slide block C3 can move along the feeding guide rail C2 to realize feeding.

Further, the feeding conveying line C4 is fixedly provided with a pallet cylinder C52 and a carrier roller cylinder C63,

a supporting plate C51 is fixedly connected to a telescopic rod of the supporting plate cylinder C52, a supporting plate guide rod C53 is fixedly connected to the lower surface of the supporting plate C51, a supporting plate guide sleeve C54 matched with the supporting plate guide rod C53 is arranged on the feeding conveying line C4, and one end of the supporting plate guide rod C53 penetrates through the supporting plate guide sleeve C54;

a telescopic rod of the carrier roller cylinder C63 is fixedly connected with a carrier roller supporting plate C62, the carrier roller supporting plate C62 is movably connected with a carrier roller C61 through two bearing blocks, the lower surface of the carrier roller supporting plate C62 is fixedly connected with a carrier roller guide rod C64, the feeding conveying line C4 is provided with a carrier roller guide sleeve C65 matched with the carrier roller guide rod C64, and one end of a carrier roller guide rod C64 penetrates through the carrier roller guide sleeve C65; the carrier roller C61 and the supporting plate C51 are arranged in parallel with the roller of the feeding conveying line C4; when the feeding car C1 pushes materials forwards, the supporting plate cylinder C52 jacks up the supporting plate C51, and the supporting roller cylinder C63 jacks up the supporting roller C61, so that the feeding car C1 is convenient to push materials forwards, and time and labor are saved.

When the cutting device is used, the rotating table, the cutting device and the workbench are driven to rotate by the rotating assembly, so that cutting at any angle is realized; cutting device and workstation all set up on the revolving stage, both can simplify the rotating assembly structure, can guarantee the stationarity of cutting process again, guarantee cutting accuracy. The side pressure driving assembly can precisely adjust the side pressure stroke, is convenient to adapt to processing of various aluminum profiles, and has a simple adjusting structure and easy operation.

The above description is only a preferred embodiment of the present invention, and all equivalent changes or modifications of the structure, characteristics and principles described in the present invention are included in the scope of the present invention.

Claims (8)

1. Numerical control arbitrary angle slitting saw, including sawing machine body (A), sawing machine body (A) is including sawing machine frame (A1), sawing machine frame (A1) is provided with sawing machine crossbeam (A3), its characterized in that: the sawing machine frame (A1) further comprises a rotating assembly and a rotating table (A64), the rotating assembly is fixed on the sawing machine frame (A1) and drives the rotating table (A64) to rotate, a cutting device and a workbench (A2) are arranged on the rotating table (A64), and one end of a saw blade (A76) of the cutting device penetrates through a cutting groove of the workbench (A2); the sawing machine beam (A3) is provided with a clamping assembly for clamping an aluminum profile.

2. The digitally controlled miter saw of claim 1, wherein: rotating assembly is including servo motor (A61) and driven gear (A63), servo motor (A61) is fixed to be set up in sawing machine frame (A1), driven gear (A63) one end is connected with sawing machine frame (A1) through the bearing frame, driven gear (A63) other end and revolving stage (A64) looks fixed connection, the main shaft fixedly connected with driving gear (A62) of servo motor (A61), driving gear (A62) and driven gear (A63) mesh mutually.

3. The digitally controlled miter saw of claim 2, wherein: the cutting device comprises a servo electric cylinder (A71) fixed on a rotary table (A64), two cutting guide rails (A72) parallel to each other in the cutting feed direction and a cutting motor base (A74), wherein the cutting guide rails (A72) are fixed on the rotary table (A64) through square steel, the upper surface of the cutting motor base (A74) is fixedly connected with a cutting motor (A75), a main shaft of the cutting motor (A75) is fixedly connected with a saw blade (A76),

the lower surface fixedly connected with of cutting motor cabinet (A74) cuts slider (A73) with cutting guide rail (A72) assorted, cuts slider (A73) activity nestification on cutting guide rail (A72), the telescopic link and the cutting motor cabinet (A74) one end looks fixed connection of servo electronic jar (A71).

4. The digitally controlled miter saw of claim 1, wherein: the clamping assembly comprises a pressed plate fixed on a cross beam (A3) of the sawing machine, a lower pressing assembly and a side pressing assembly,

the downward pressing assembly comprises a downward pressing support plate (A51) fixed on a cross beam (A3) of the sawing machine, the downward pressing support plate (A51) is fixedly connected with a downward pressing cylinder (A52), and a telescopic rod of the downward pressing cylinder (A52) is connected with a downward pressing block (A53);

the side pressure assembly comprises two cantilevers (A57), a side pressure rod (A54) and a side pressure plate (A55) which are arranged in parallel, one surface of the side pressure plate (A55) is fixedly connected with a pressure plate sliding block (A56), one surface of the side pressure rod (A54) is fixedly connected with a pressure plate guide rail matched with the pressure plate sliding block (A56), the pressure plate sliding block (A56) is movably nested on the pressure plate guide rail, and the side pressure plate (A55) is locked on the side pressure rod (A54) through a pressure plate locking screw; both ends of the side pressure rod (A54) are connected with the cantilever (A57) through a side pressure driving assembly.

5. The digitally controlled miter saw of claim 4, wherein: the side pressure driving component comprises a side pressure guide rail (A581), a side pressure slide block (A582) movably nested on the side pressure guide rail (A581), and an adjustable slide block (A583) movably nested on the side pressure guide rail (A581),

the side pressure slide block (A582) is fixedly connected with a side pressure rod (A54); adjustable slider (A583) fixedly connected with side pressure cylinder block (A585), side pressure cylinder block (A585) one side fixedly connected with side pressure cylinder (A586), the telescopic link and the side pressure pole (A54) of side pressure cylinder (A586) are looks fixed connection, side pressure cylinder block (A585) are locked on side pressure guide rail (A581) through grip block (A584).

6. The digitally controlled miter saw of claim 1, wherein: a feeding line body (C) is arranged at the feeding end of the sawing machine body (A), and a discharging line body (B) is arranged at the discharging end of the sawing machine body (A); and the feeding line body (C) is provided with a feeding device for pushing the aluminum profile to feed to the sawing machine body (A).

7. The digitally controlled miter saw of claim 6, wherein: the feeding device comprises a feeding conveying line (C4), two feeding guide rails (C2) which are parallel to the feeding conveying direction are arranged on the feeding conveying line (C4), a feeding sliding block (C3) is arranged on each feeding guide rail (C2) in a nested mode, and a feeding trolley (C1) is fixedly connected to the upper surface of each feeding sliding block (C3).

8. The digitally controlled miter saw of claim 7, wherein: the feeding conveying line (C4) is fixedly provided with a supporting plate cylinder (C52) and a supporting roller cylinder (C63),

a supporting plate (C51) is fixedly connected to a telescopic rod of the supporting plate cylinder (C52), a supporting plate guide rod (C53) is fixedly connected to the lower surface of the supporting plate (C51), a supporting plate guide sleeve (C54) matched with the supporting plate guide rod (C53) is arranged on the feeding conveying line (C4), and one end of the supporting plate guide rod (C53) penetrates through the supporting plate guide sleeve (C54);

a telescopic rod of the carrier roller cylinder (C63) is fixedly connected with a carrier roller supporting plate (C62), the carrier roller supporting plate (C62) is movably connected with a carrier roller (C61) through two bearing blocks, the lower surface of the carrier roller supporting plate (C62) is fixedly connected with a carrier roller guide rod (C64), the feeding conveying line (C4) is provided with a carrier roller guide sleeve (C65) matched with the carrier roller guide rod (C64), and one end of the carrier roller guide rod (C64) penetrates through the carrier roller guide sleeve (C65); the carrier roller (C61) and the pallet (C51) are arranged in parallel with the roller of the feeding conveying line (C4).

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