Disclosure of Invention
The present invention has been made to solve one of the above problems.
In order to achieve the purpose, the invention provides an automatic corner cutting machine which comprises a cutting machine main body and a cutting machine auxiliary body, wherein the cutting machine main body and the cutting machine auxiliary body are oppositely arranged and integrally form a U-shaped structure, a clamping cavity is formed between the cutting machine main body and the cutting machine auxiliary body, the cutting machine main body comprises a main machine beam and a main machine side tail, the cutting machine auxiliary body comprises an auxiliary machine beam and an auxiliary machine side tail, and the main machine beam and the auxiliary machine beam are connected through a hydraulic push rod; the main engine side tail and the auxiliary engine side tail are respectively vertical to the main engine beam and the auxiliary engine beam; the cutting machine main part still is equipped with cutting device and sweeps suction means, cutting device sets up the contained angle department of host computer roof beam, host computer side tail, sweeps suction means includes sweeps suction means and sweeps box, sweeps suction means sets up and is being close to cutting device the contained angle department of host computer roof beam, host computer side tail, the sweeps box is installed inside the cutting machine main part, sweeps suction means passes through the sweeps return bend with the sweeps box and is connected.
Further, the cutting device includes a saw blade, a bracket, and a motor.
Furthermore, the saw blade is obliquely arranged at the included angle between the main machine beam and the main machine side tail and forms a right-angled triangle with the included angle.
Further, still be provided with on host computer roof beam and the host computer side tail and correspondingly dodge the groove, the saw bit is in the centre gripping cavity, and its edge is arranged in dodge the inslot.
Further, the scrap suction device is a suction pump.
Furthermore, an opening capable of taking out and cleaning the scrap box is formed in the cutting machine main body.
Furthermore, a telescopic cover is sleeved on a telescopic shaft of the hydraulic push rod exposed between the main machine beam and the auxiliary machine beam.
Furthermore, a main roller is arranged on the inner side of the side tail of the main machine, and an auxiliary roller is arranged on the inner side of the side tail of the auxiliary machine.
Further, a roller motor is further arranged inside the side tail of the main machine, and an output shaft of the roller motor is fixedly connected with a rotating shaft of the main roller.
Furthermore, the inner side of the main beam is provided with a limiting roller.
Compared with the prior art, the invention has the following advantages and effects: according to the automatic corner cutting machine, the specification of the corner cutting machine can be adjusted through the hydraulic lifting cylinder so as to adapt to profiles with more thicknesses; by arranging the cutting device, the main roller and the auxiliary pulley, the corner cutting machine can move automatically while cutting; by arranging the scrap suction device, the waste materials are prevented from splashing around to pollute the air. And then liberation labour makes the corner cutting of section bar can realize automaticly, still can not cause the sweeps to fly in disorder and pollute the environment and damage the machine.
Detailed Description
Exemplary embodiments that embody features and advantages of the invention are described in detail below. It is to be understood that the invention is capable of other and different embodiments and its several details are capable of modification without departing from the scope of the invention, and that the description and drawings are to be regarded as illustrative in nature and not as restrictive.
As shown in fig. 1, the automatic corner cutting machine comprises a cutting machine main body 1 and a cutting machine auxiliary body 2, wherein the cutting machine main body 1 and the cutting machine auxiliary body 2 are oppositely arranged and integrally form a U-shaped structure, a clamping cavity is formed between the cutting machine main body 1 and the cutting machine auxiliary body 2, the cutting machine main body 1 comprises a main machine beam 3 and a main machine side tail 4, the cutting machine auxiliary body 2 comprises an auxiliary machine beam 5 and an auxiliary machine side tail 6, and the main machine beam 3 is connected with the auxiliary machine beam 5 through a hydraulic push rod 12; the main engine side tail 4 and the auxiliary engine side tail 6 are respectively vertical to the main engine beam 3 and the auxiliary engine beam 5; the cutting machine main body 1 is further provided with a cutting device 16, the cutting device 16 is arranged at the included angle between the main machine beam 3 and the main machine side tail 4, the waste chip suction device comprises a waste chip suction device and a waste chip box, the waste chip suction device 17 is arranged at the included angle between the main machine beam 3 and the main machine side tail 4 close to the cutting device, waste chips can be sucked more accurately, and waste materials are prevented from flying around to pollute air; the sweeps box is installed inside cutting machine main part 1, sweeps suction attachment 17 passes through the sweeps return bend with the sweeps box and is connected. Therefore, the cutting machine main body 1 and the cutting machine auxiliary body 2 are opposite in a 7-shaped mode respectively, a clamping cavity between the cutting machine main body 1 and the cutting machine auxiliary body 2 can be used for a section bar to stretch into, one end of the section bar stretching into is an inlet, the other end of the section bar stretching out is an outlet, the cutting device 16 is arranged at a position close to the outlet, the section bar stretches into the clamping cavity from the inlet, and after the cutting device 16 cuts corners, the section bar stretches out from the outlet. As shown in fig. 2, the profile extends into and out of the cutter body 1 in the direction of the arrow in fig. 2. Preferably, the scrap suction means 17 is provided on the side of the vicinity of the cutting means 16 in the inlet direction.
The cutting device comprises a saw blade 7, a support 8 and a motor 9. The holder 8 is connected to the saw blade 7 and the motor 9. The motor 9 drives the saw blade 7 to rotate.
The saw blade 7 is obliquely arranged at the included angle between the main machine beam 3 and the main machine side tail 4 and forms a right-angled triangle with the included angle. The corners of the profile that extend into can be cut off. The rotating shaft on the bracket 8 extends out from the included angle between the main machine beam 3 and the main machine side tail 4 and is detachably and fixedly connected with the saw blade 7. Preferably, the rotating shaft and the main beam 3, main machine side tail 4 respectively form 45 degree included angles, the saw blade 7 and the rotating shaft form 90 degree included angles, so the saw blade 7 respectively forms 45 degree included angles with the main beam 3, main machine side tail 4.
Host computer roof beam 3 and host computer side tail 4 are last still to be provided with and dodge the groove, saw bit 7 is in the centre gripping cavity, and its edge is arranged in dodge the groove. The avoiding groove is an arc-shaped groove. .
The scrap suction device is a suction pump. The scrap suction device has suction force, can suck the scraps cut by the saw blade 7 and then temporarily store the scraps in the scrap box.
The cutting machine main body 1 is provided with an opening capable of taking the waste chip box out for cleaning, so that waste chips in the waste chip box can be cleaned conveniently.
One end of the hydraulic push rod 12 is fixed inside the main machine beam 3, and the other end of the hydraulic push rod is fixed inside the auxiliary machine beam 5.
The power hydraulic cylinder of the hydraulic push rod 12 is arranged inside the cutting machine main body 1. The power hydraulic cylinder drives the output shaft of the hydraulic push rod 12 to stretch and retract, so that the cutting machine main body 1 and the cutting machine auxiliary body 2 are driven to mutually approach or keep away from each other. Preferably, the hydraulic push rods 12 may be two or more than two hydraulic push rods 12 arranged in parallel, and a plurality of hydraulic push rods 12 extend and retract synchronously, so that the main body 1 and the auxiliary body 2 of the cutting machine can be driven to move relatively smoothly.
And a telescopic cover 14 is sleeved on a telescopic shaft of the hydraulic rod 12 exposed between the main machine beam 3 and the auxiliary machine beam 5. Set up telescopic cover 14 can avoid, corner cutting machine is when carrying out the corner cutting to the section bar, and the sweeps that cut off fly into inside the output shaft of hydraulic stem 12, in order to avoid causing hydraulic stem 12's damage. In another embodiment, the main beam 3 and the auxiliary beam 5 are further provided with grooves, two ends of the retractable cover 14 are respectively embedded into the grooves and fixed in the grooves, and the retractable cover 14 can be completely hidden in the grooves when being retracted to the shortest distance, so that the retractable cover 14 does not block the main body 1 and the auxiliary body 2 of the cutting machine from approaching to each other to the shortest distance, i.e., the main beam 3 and the auxiliary beam 5 can be attached to each other.
The inner side of the main machine side tail 4 is provided with a main roller 10, and the inner side of the auxiliary machine side tail 6 is provided with an auxiliary roller 11.
And a roller motor 13 is further arranged in the main machine side tail 4, and an output shaft of the roller motor 13 is fixedly connected with a rotating shaft of the main roller 10. The auxiliary roller 11 is a driven roller. The rotating shafts of the main roller 10 and the auxiliary roller 11 are parallel to the main machine side tail 4 and the auxiliary machine side tail 6; the main roller 10 and the auxiliary roller 11 are provided with anti-slip rubber layers on the outer tire, and the friction force is large. When the roller motor 13 drives the main roller 10 to rotate, the corner cutting machine is driven to move relative to the section bar, and the auxiliary roller 11 also rotates along with the main roller, so that the corner cutting machine can realize the effect of cutting edges, cutting corners and moving edges.
The main roller 10 is arranged on the inner side of the main machine side tail 4, and the rolling surface of the roller protrudes out of the main machine side tail 4. The number of the main rollers 10 is multiple, and the main rollers are uniformly distributed in the vertical direction and/or the horizontal direction. Preferably, there may be two rows in the vertical direction and three columns in the horizontal direction. The number of the auxiliary rollers 11 is the same as that of the main rollers 10, and the distribution positions of the auxiliary rollers correspond to that of the main rollers.
And a limiting roller 15 is arranged on the inner side of the main machine beam 3.
The limiting rollers 15 are uniformly distributed on the inner side of the main beam 3. The profile can be propped against the profile, so that the profile does not rub against the main machine beam 3 and the auxiliary machine beam 5, and the profile can move more smoothly when being cut. The rotating shafts of the limiting idler wheels 15 are perpendicular to the main machine side tail 4 and the auxiliary machine side tail 6, the rotating shafts of the limiting idler wheels 15 are parallel to each other, and the rolling surfaces of the idler wheels protrude out of the inner side surface of the main machine beam 3. The cutting device 16 is disposed between the plurality of limiting rollers 15.
The corner cutting machine is further provided with a power line, and the power line is respectively connected with the motor 9, the hydraulic push rod 12 and the roller motor 13.
Still be equipped with push rod extension button and push rod on the corner cutting machine and shorten the button, push rod extension button and push rod shorten the button with hydraulic rod 12 electric connection holds push rod extension button can drive hydraulic rod 12 extension holds the push rod shortens the button and can make hydraulic rod 12 shortens, releases push rod extension button and push rod shorten the button then hydraulic rod 12 bring to rest.
In another embodiment, a storage battery is further arranged inside the corner cutting machine. The storage battery is arranged, so that the corner cutting machine can adapt to more workplaces.
The working principle is as follows: will be followed by the section bar one end of cutting in the import of corner cutting machine stretches into the U-shaped cavity, start power supply, earlier according to the width adjustment of section bar board the relative distance of cutting machine main part 1 and the cutting machine auxiliary body 2 makes main gyro wheel 10 and auxiliary roller 11 can with the section bar board centre gripping, then gyro wheel motor 13 drive main gyro wheel 10 rotates, utilizes the effect of friction power, makes the corner cutting machine removes on the section bar, until the section bar corner remove to the position of saw bit 7, motor 9 drive saw bit 7 rotates the cutting, begins the cutting from the tip of section bar, and the limit removal is cut on the limit, and the corner of one side is accomplished all over until the section bar, when saw bit 7 cuts, sweeps suction means also starts work, inhales away the sweeps.
In conclusion, the specification of the automatic corner cutting machine can be adjusted through the hydraulic lifting cylinder so as to adapt to profiles with more thicknesses; by arranging the cutting device, the main roller and the auxiliary pulley, the corner cutting machine can move automatically while cutting; by arranging the scrap suction device, the waste materials are prevented from splashing around to pollute the air. And then liberation labour makes the corner cutting of section bar can realize automaticly, still can not cause the sweeps to fly in disorder and pollute the environment and damage the machine.
The above embodiments are only used to illustrate the technical solutions of the present application, and not to limit the same; although the present application has been described in detail with reference to the foregoing embodiments, it should be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.