阅读说明：本技术 一种有色金属切割系统 (Non ferrous metal cutting system ) 是由 曹静静 季华楠 王双府 庾春林 张武忠 邢灵钰 于 2021-09-28 设计创作，主要内容包括：本发明公开了一种有色金属切割系统,包括机体外壳,所述机体外壳内设有切割腔,所述第三转动轴前端固设有切割片,所述整平腔内设有能够将有色金属板材整平的整平装置,所述打磨腔内设有给切割好的有色金属板材打磨去毛刺的打磨装置,所述打磨装置上方设有能净化加工产生的废气的废气处理装置；本发明设有整平装置,能通过平整轮将不平整的有色金属板材挤压平整,设有能够多角度多斜度的切割机,还设有废气废渣的回收冷却装置,在切割时还会将冷却液喷射在切割片上给切割片降温,还设有打磨装置,能将切割好的有色金属板材表面进行打磨和去掉切割时产生的毛刺。(The invention discloses a non-ferrous metal cutting system which comprises a machine body shell, wherein a cutting cavity is arranged in the machine body shell, a cutting blade is fixedly arranged at the front end of a third rotating shaft, a leveling device capable of leveling a non-ferrous metal plate is arranged in the leveling cavity, a polishing device for polishing and deburring the cut non-ferrous metal plate is arranged in the polishing cavity, and a waste gas treatment device capable of purifying waste gas generated by processing is arranged above the polishing device; the invention is provided with a leveling device, can extrude and level uneven non-ferrous metal plates through a leveling wheel, is provided with a cutting machine which can realize multi-angle and multi-inclination, is also provided with a recycling and cooling device for waste gas and waste residue, can spray cooling liquid on a cutting sheet to cool the cutting sheet during cutting, and is also provided with a polishing device, and can polish the surface of the cut non-ferrous metal plates and remove burrs generated during cutting.)

1. The utility model provides a non ferrous metal cutting system, includes engine body shell, its characterized in that: a cutting cavity is arranged in the machine body shell, a first motor is arranged on the bottom wall of the cutting cavity, a rotating shaft is arranged on the upper end face of the first motor, a cutting table is fixedly arranged on the upper end face of the rotating shaft, a waste residue collecting cavity with an upward opening is arranged in the cutting table, a filtering hole penetrating through the bottom wall of the cutting table is formed in the bottom wall of the waste residue collecting cavity, a second motor is arranged on the left side wall of the cutting table, a second rotating shaft is arranged on the left end face of the second motor, a swing arm is fixedly arranged on the second rotating shaft, a crossbeam is fixedly arranged at the top end of the swing arm, a first sliding cavity with a downward opening is arranged in the crossbeam, a third motor is arranged on the left wall of the first sliding cavity, a first screw rod extending to the right wall of the first sliding cavity is arranged at the right end of the third motor, a first sliding block in sliding connection with the first sliding cavity in a sliding mode is connected to the first screw rod through threads, a second sliding cavity with a downward opening is arranged in the first sliding block, the top wall of the second sliding cavity is provided with a fourth motor, the lower end face of the fourth motor is provided with a second screw, the second screw is connected with a second sliding block in sliding connection with the second sliding cavity through threads, the front wall of the second sliding block is fixedly provided with a cutting protective cover, a working cavity with a downward opening is arranged in the cutting protective cover, the rear wall of the working cavity is provided with a fifth motor, the front end face of the fifth motor is provided with a third rotating shaft, the front end of the third rotating shaft is fixedly provided with a cutting piece, the front wall of the working cavity is provided with a cooling liquid water pipe penetrating through the front wall of the cutting protective cover, the top wall of the working cavity is provided with a waste gas pipe penetrating through the top surface of the cutting protective cover, the front part of the cutting cavity is communicated with a leveling cavity with a forward opening, a leveling device capable of leveling non-ferrous metal plates is arranged in the leveling cavity, a storage cavity with a forward opening and communicated with the cutting cavity is arranged below the leveling cavity, deposit the intracavity and be equipped with and filter the waste residue, retrieve the coolant liquid and give the recovery cooling device of cutting piece cooling, cutting chamber rear intercommunication is equipped with the grinding chamber that the opening is backward, the intracavity of polishing is equipped with the grinding device who polishes the burring for the nonferrous metal panel that cuts, the grinding device top is equipped with the exhaust treatment device who can purify the waste gas that the processing produced, engine body shell front end face is equipped with operation platform.

2. A non-ferrous metal cutting system as claimed in claim 1, wherein: the leveling device comprises leveling modules with symmetrical upper and lower positions, the leveling modules comprise third sliding cavities symmetrically arranged on the left and right side walls of the leveling cavities, third sliding blocks in sliding connection are arranged in the third sliding cavities, four fourth rotating shafts linearly arranged back and forth are arranged between the third sliding blocks, leveling wheels are fixedly arranged on the fourth rotating shafts, the side wall of the left third sliding cavity, which is far away from the symmetrical center of the leveling modules, is provided with a first motor, the end surface of the first motor, which is close to the symmetrical center of the leveling modules, is provided with a third screw rod in threaded connection with the third sliding blocks, a first transmission cavity is arranged in the left third sliding block, the fourth rotating shaft extends into the first transmission cavity, a first belt pulley is fixedly arranged on the left end surface of the fourth rotating shaft, and the first belt pulleys are connected with each other through a first belt, the left wall of the first transmission cavity is fixedly provided with a second motor, and the right end face of the second motor is provided with a fifth rotating shaft fixedly connected with the foremost first belt pulley.

3. A non-ferrous metal cutting system as claimed in claim 1, wherein: retrieve cooling device and include deposit the coolant liquid rose box of intracavity, it deposits the chamber to be equipped with the ascending filter residue of opening in the coolant liquid rose box, it is equipped with the coolant liquid and deposits the chamber to deposit chamber below intercommunication, the coolant liquid is deposited the chamber below and is equipped with the third motor, third motor rear end face is equipped with the sixth axis of rotation, sixth axis of rotation rear end face is equipped with the hydraulic pump, the hydraulic pump through first pipeline with the coolant liquid is deposited the chamber and is connected, the hydraulic pump with the working chamber is linked together through the coolant liquid water pipe.

4. A non-ferrous metal cutting system as claimed in claim 1, wherein: the polishing device comprises polishing modules with symmetrical upper and lower positions, the polishing modules comprise fourth sliding cavities symmetrically arranged on the left and right side walls of the polishing cavities, fourth sliding blocks in sliding connection are arranged in the fourth sliding cavities, seventh rotating shafts with symmetrical front and back positions are arranged between the fourth sliding blocks, pressing blocks are fixedly arranged on the seventh rotating shafts, fourth motors are arranged on the left side walls of the fourth sliding blocks, which are far away from the symmetrical center of the polishing modules, the end surfaces of the fourth motors, which are close to the symmetrical center of the polishing modules, are provided with fourth screw rods in threaded connection with the fourth sliding blocks, second transmission cavities are arranged in the left side fourth sliding blocks, the seventh rotating shafts extend into the second transmission cavities, second belt pulleys are fixedly arranged on the left end surfaces of the seventh rotating shafts, the second belt pulleys are connected through second belts, and a first power source is arranged on the left wall of each second transmission cavity, the first power source is connected with the second belt pulley in front through an eighth rotating shaft, a polishing beam connected with a left fourth sliding block and a right fourth sliding block is arranged between the pressing blocks, a fifth sliding cavity with an opening towards one side close to the symmetrical center of the polishing module is arranged in the polishing beam, a second power source is arranged on the left wall of the fifth sliding cavity, a fifth screw rod extending to the wall of the fifth sliding cavity is arranged on the right end face of the second power source, a fifth sliding block in sliding connection with the fifth sliding cavity is in threaded connection with the fifth screw rod, a third power source is arranged on the end surface of one side of the fifth sliding block, which is close to the symmetrical center of the polishing module, a twelfth rotating shaft is arranged on the end surface of one side of the third power source close to the symmetrical center of the polishing module, and a polishing sheet is arranged on the end surface of the twelfth rotating shaft, which is close to one side of the symmetric center of the polishing module.

5. A non-ferrous metal cutting system as claimed in claim 1, wherein: the waste gas treatment device comprises a backward exhaust cavity with an opening, a fourth power source is fixedly arranged on the rear wall of the exhaust cavity, a thirteenth rotating shaft is arranged on the front end face of the fourth power source, fan blades are fixedly arranged on the thirteenth rotating shaft, a filter block is fixedly arranged on the front wall of the exhaust cavity, and the exhaust cavity is communicated with the working cavity through an exhaust pipe.

Technical Field

The invention relates to the field of metal cutting, in particular to a non-ferrous metal cutting system.

Background

Non-ferrous metals, also called non-ferrous metals in narrow sense, are the general names of all metals except iron, manganese and chromium, and generalized non-ferrous metals also include non-ferrous alloys, non-ferrous metals are the basic materials for national economic development, and most industries such as aviation, aerospace, automobile, machinery manufacturing, electric power, communication, building, household appliances and the like all use non-ferrous metal materials as production bases, and non-ferrous metals need to be cut during the processing process to obtain materials with specific sizes.

Disclosure of Invention

The object of the present invention is to provide a non-ferrous metal cutting system that overcomes the above-mentioned drawbacks of the prior art.

The nonferrous metal cutting system comprises a machine body shell, a cutting cavity is arranged in the machine body shell, a first motor is arranged on the bottom wall of the cutting cavity, a rotating shaft is arranged on the upper end surface of the first motor, a cutting table is fixedly arranged on the upper end surface of the rotating shaft, a waste residue collecting cavity with an upward opening is arranged in the cutting table, a filter hole penetrating through the bottom wall of the cutting table is formed in the bottom wall of the waste residue collecting cavity, a second motor is arranged on the left side wall of the cutting table, a second rotating shaft is arranged on the left end surface of the second motor, a swing arm is fixedly arranged on the second rotating shaft, a girder is fixedly arranged at the top end of the swing arm, a first sliding cavity with a downward opening is arranged in the girder, a third motor is arranged on the left wall of the first sliding cavity, a first screw rod extending to the right wall of the first sliding cavity is arranged at the right end of the third motor, a first sliding block connected with the first sliding cavity in a sliding mode through threads, a second sliding cavity with a downward opening is arranged in the first sliding block, a fourth motor is arranged on the top wall of the second sliding cavity, a second screw rod is arranged on the lower end face of the fourth motor, a second sliding block which is in sliding connection with the second sliding cavity is in threaded connection with the second screw rod, a cutting protective cover is fixedly arranged on the front wall of the second sliding block, a working cavity with a downward opening is arranged in the cutting protective cover, a fifth motor is arranged on the rear wall of the working cavity, a third rotating shaft is arranged on the front end face of the fifth motor, a cutting blade is fixedly arranged at the front end of the third rotating shaft, a cooling liquid water pipe penetrating through the front wall of the cutting protective cover is arranged on the front wall of the working cavity, a waste gas pipe penetrating through the top surface of the cutting protective cover is arranged on the top wall of the working cavity, a leveling cavity with a forward opening is arranged in front of the cutting cavity in a communicating manner, and a leveling device capable of leveling non-ferrous metal plates is arranged in the leveling cavity, flattening chamber below be equipped with the cutting chamber is linked together and the forward chamber of depositing of opening, it can filter the waste residue, retrieve the coolant liquid and give to deposit the intracavity the recovery cooling device of cutting piece cooling, cutting chamber rear intercommunication is equipped with the backward chamber of polishing of opening, it is equipped with the grinding device who polishes the burring for the good non ferrous metal panel of cutting to polish the intracavity, the grinding device top is equipped with the exhaust treatment device who can the waste gas of purification processing production, the terminal surface is equipped with operation platform before the engine body shell.

The further technical proposal is that the leveling device comprises leveling modules with symmetrical upper and lower positions, the leveling modules comprise third sliding cavities symmetrically arranged at the left and right side walls of the leveling cavity, third sliding blocks in sliding connection are arranged in the third sliding cavities, four fourth rotating shafts linearly arranged front and back are arranged between the third sliding blocks, leveling wheels are fixedly arranged on the fourth rotating shafts, the side wall of the left third sliding cavity far away from the symmetry center of the leveling module is provided with a first motor, the end surface of the first motor close to the symmetry center of the leveling module is provided with a third screw rod in threaded connection with the third sliding blocks, a first transmission cavity is arranged in the left third sliding block, the fourth rotating shaft extends into the first transmission cavity, a first belt pulley is fixedly arranged on the left end surface of the fourth rotating shaft, and the first belt pulleys are connected with each other through a first belt, a second motor is fixedly arranged on the left wall of the first transmission cavity, a fifth rotating shaft fixedly connected with the first belt pulley at the forefront is arranged on the right end face of the second motor, when the first motor is started, the first motor drives the third screw rod to rotate, the third sliding block converts the rotation of the third screw rod into movement towards the symmetrical center of the leveling module under the action of the threads and the third sliding cavity, meanwhile, the second motor is started, the second motor drives the foremost first belt pulley to rotate through the fifth rotating shaft, the foremost first belt pulley drives the rear first belt pulleys to rotate through the first belt, the first belt pulley drives the leveling wheels to rotate through the fourth rotating shaft, the non-flat non-ferrous metal plate is placed between the leveling modules, and the leveling wheels can extrude and level the non-flat non-ferrous metal plate, and the non-ferrous metal plates with different thicknesses can be driven by the first motor to move up and down so as to adapt to the non-ferrous metal plates with different thicknesses.

According to a further technical scheme, the recycling and cooling device comprises a cooling liquid filtering box in the storage cavity, a filter residue storage cavity with an upward opening is arranged in the cooling liquid filtering box, a cooling liquid storage cavity is communicated below the storage cavity, a third motor is arranged below the cooling liquid storage cavity, a sixth rotating shaft is arranged on the rear end face of the third motor, a hydraulic pump is arranged on the rear end face of the sixth rotating shaft and is connected with the cooling liquid storage cavity through a first pipeline, the hydraulic pump is communicated with the working cavity through a cooling liquid water pipe, when working cooling liquid flows into the storage cavity from the cutting cavity and falls into the bottom wall of the filter residue storage cavity, metal scraps in the cooling liquid are retained in the filter residue storage cavity under the filtering action of the cooling liquid filtering box, filtered cooling liquid flows into the cooling liquid storage cavity, and the third motor drives the hydraulic pump to operate through the sixth rotating shaft, and the cooling liquid static cooling liquid water pipe in the cooling liquid storage cavity is conveyed into the working cavity and sprayed on the surface of the cutting blade to cool the cutting blade.

According to a further technical scheme, the polishing device comprises polishing modules which are symmetrical in vertical position, the polishing modules comprise fourth sliding cavities which are symmetrically arranged on the left side wall and the right side wall of the polishing cavity, fourth sliding blocks which are connected in a sliding manner are arranged in the fourth sliding cavities, seventh rotating shafts which are symmetrical in front and back position are arranged between the fourth sliding blocks, pressing blocks are fixedly arranged on the seventh rotating shafts, a fourth motor is arranged on the left side wall, far away from the symmetrical center of the polishing module, of the fourth sliding block, a fourth screw rod which is connected with the fourth sliding block in a threaded manner is arranged on the end face, close to the symmetrical center of the polishing module, of the fourth motor, a second transmission cavity is arranged in the fourth sliding block on the left side, the seventh rotating shafts extend into the second transmission cavity, a second belt pulley is fixedly arranged on the left end face of the seventh rotating shafts, and the second belt pulleys are connected through a second belt, the left wall of the second transmission cavity is provided with a first power source, the first power source is connected with the second belt pulley in front through an eighth rotating shaft, a polishing beam connected with a left sliding block and a right sliding block is arranged between the compression blocks, a fifth sliding cavity with an opening close to one side of the symmetry center of the polishing module is arranged in the polishing beam, the left wall of the fifth sliding cavity is provided with a second power source, the right end face of the second power source is provided with a fifth screw rod extending to the wall of the fifth sliding cavity, the fifth screw rod is in threaded connection with a fifth sliding block in sliding connection with the fifth sliding cavity, the end face of the fifth sliding block close to one side of the symmetry center of the polishing module is provided with a third power source, the end face of the third power source close to one side of the symmetry center of the polishing module is provided with a twelfth rotating shaft, and the end face of the twelfth rotating shaft close to one side of the symmetry center of the polishing module is provided with a polishing abrasive disc, when the fourth motor is started, the fourth motor drives the fourth screw to rotate, the fourth sliding block converts the rotation of the fourth screw into movement towards the symmetrical center position of the polishing module under the action of the threads and the fourth sliding cavity, the first power source is started, the first power source drives the front second belt pulley to rotate through the eighth rotating shaft, the front second belt pulley drives the rear second belt pulley to rotate through the second belt, the second belt pulley drives the pressing block to rotate through the seventh rotating shaft, the second power source is started, the second power source drives the fourth screw to rotate, the fifth sliding block converts the rotation of the fourth screw into left-right movement under the action of the threads and the fifth sliding cavity, the third power source is started simultaneously, the third power source drives the polishing piece to rotate through the twelfth rotating shaft, the cut nonferrous metal plate is polished by the polishing piece to remove burrs under the clamping of the pressing block, and the non-ferrous metal plates facing different thicknesses can drive the fourth sliding block to move up and down through the fourth motor so as to adapt to the non-ferrous metal plates with different thicknesses.

Further technical scheme, exhaust treatment device includes that the opening exhausts the chamber backward, the chamber rear wall of exhausting has set firmly the fourth power supply, the terminal surface is equipped with the thirteenth axis of rotation before the fourth power supply, the flabellum has set firmly in the thirteenth axis of rotation, the chamber antetheca of exhausting has set firmly the filter block, the chamber of exhausting with the working chamber is linked together through the exhaust duct, and when the fourth power supply started, the fourth power supply drove the flabellum through the thirteenth axis of rotation and rotates, takes out the poisonous and harmful gas that produces when cutting the working chamber in, then gets rid of harmful substance through the filtration of filter block, and outside the discharge organism shell again, the protection workman is healthy.

The invention has the beneficial effects that: the invention is provided with the leveling device, can extrude and level the non-ferrous metal plate which is not flat through the leveling wheel, prepares for the following cutting procedure, improves the cutting precision, is provided with the cutting machine which can realize multi-angle and multi-inclination, can complete different cutting tasks according to the requirements of customers, is also provided with a recycling and cooling device for waste gas and waste residue, can keep the cleanness in the machine body and filter the gas harmful to the health of human bodies to protect the health of workers, the cooling liquid can be sprayed on the cutting sheet to cool the cutting sheet during cutting, so that the cutting sheet is always kept at a normal working temperature, the polishing device is also arranged, the surface of the cut nonferrous metal plate can be polished and burrs generated during cutting can be removed, the functions can be integrally regulated and controlled on the operating platform, the functions of leveling, cutting and polishing can be easily completed, and the labor intensity of workers can be greatly reduced.

Drawings

FIG. 1 is a schematic exterior view of a non-ferrous metal cutting system of the present invention;

FIG. 2 is a schematic view of the structure of FIG. 1 taken at A-A in accordance with the present invention;

FIG. 3 is a schematic view of the structure of FIG. 2 at B-B in accordance with the present invention;

FIG. 4 is a schematic view of the structure of FIG. 2 at C-C in accordance with the present invention;

FIG. 5 is an enlarged view of the cutting assembly of FIG. 2 according to the present invention;

FIG. 6 is a schematic diagram of the structure of FIG. 4 at D-D in accordance with the present invention;

FIG. 7 is a schematic diagram of the structure of FIG. 4 at E-E in accordance with the present invention;

fig. 8 is an enlarged schematic view of the structure of the recovery cooling device in fig. 2 according to the present invention.

Detailed Description

For purposes of making the objects and advantages of the present invention more apparent, the following detailed description of the invention, taken in conjunction with the examples, should be understood that the following text is only intended to describe a non-ferrous metal cutting system or several specific embodiments of the invention, and not to strictly limit the scope of the invention as specifically claimed, as used herein, the terms upper, lower, left and right are not limited to strict geometric definitions thereof, but rather include tolerances for machining or human error rationality and inconsistency, specific features of which are set forth in detail below:

referring to the attached drawings, the non-ferrous metal cutting system according to the embodiment of the invention comprises a machine body shell 10, a cutting cavity 33 is arranged in the machine body shell 10, a first motor 9 is arranged on the bottom wall of the cutting cavity 33, a rotating shaft 11 is arranged on the upper end surface of the first motor 9, a cutting table 34 is fixedly arranged on the upper end surface of the rotating shaft 11, a waste residue collecting cavity 13 with an upward opening is arranged in the cutting table 34, a filter hole 12 penetrating through the bottom wall of the cutting table 34 is arranged on the bottom wall of the waste residue collecting cavity 13, a second motor 35 is arranged on the left side wall of the cutting table 34, a second rotating shaft 36 is arranged on the left end surface of the second motor 35, a swing arm 14 is fixedly arranged on the second rotating shaft 36, a girder 38 is fixedly arranged on the top end of the swing arm 14, a first sliding cavity 41 with a downward opening is arranged in the girder 38, a third motor 39 is arranged on the left wall of the first sliding cavity 41, a first screw 40 extending to the right wall of the first sliding cavity 41 is arranged at the right end of the third motor 39, the upper screw thread of the first screw 40 is connected with a first sliding block 42 which is connected with a first sliding cavity 41 in a sliding manner, a second sliding cavity 71 with a downward opening is arranged in the first sliding block 42, a fourth motor 43 is arranged on the top wall of the second sliding cavity 71, a second screw 44 is arranged on the lower end face of the fourth motor 43, a second sliding block 45 which is connected with the second sliding cavity 71 in a sliding manner is connected with the upper screw thread of the second screw 44, a cutting protective cover 49 is fixedly arranged on the front wall of the second sliding block 45, a working cavity 50 with a downward opening is arranged in the cutting protective cover 49, a fifth motor 46 is arranged on the rear wall of the working cavity 50, a third rotating shaft 51 is arranged on the front end face of the fifth motor 46, a cutting piece 52 is fixedly arranged at the front end of the third rotating shaft 51, a cooling liquid water pipe 53 which runs through the front wall of the cutting protective cover 49 is arranged on the front wall of the working cavity 50, a waste gas pipe 32 which runs through the top face of the cutting protective cover 49 is arranged on the top wall of the working cavity 50, the utility model discloses a cutting chamber 33 the place ahead intercommunication is equipped with the prorsad flattening chamber 1 of opening, be equipped with the leveling device 101 that can flatten the non ferrous metal panel in the flattening chamber 1, flattening chamber 1 below be equipped with cutting chamber 33 is linked together and the prorsad chamber 15 of depositing of opening, it can filter the waste residue to deposit the intracavity 15, retrieves the coolant liquid and gives the recovery cooling device 102 of cutting piece 52 cooling, cutting chamber 33 rear intercommunication is equipped with the chamber 16 of polishing behind the opening, be equipped with the grinding device 103 of the burring of polishing for the non ferrous metal panel that cuts in the chamber 16 of polishing, grinding device 103 top is equipped with the exhaust treatment device 104 that can the waste gas that purification processing produced, engine body shell 10 front end face is equipped with operation platform 8.

Beneficially or exemplarily, the leveling device 101 comprises a leveling module 72 with symmetrical up and down positions, the leveling module 72 comprises a leveling cavity 1 with a third sliding cavity 2 at the left and right side wall positions, a third sliding block 3 connected in a sliding manner is arranged in the third sliding cavity 2, four fourth rotating shafts 5 linearly arranged back and forth are arranged between the third sliding blocks 3, a leveling wheel 4 is fixedly arranged on the fourth rotating shaft 5, a first motor 7 is arranged on the side wall of the left third sliding cavity 2 far away from the symmetrical center of the leveling module 72, a third screw 6 connected with the third sliding block 3 is arranged on the end surface of the first motor 7 close to the symmetrical center of the leveling module 72, a first transmission cavity 55 is arranged in the left third sliding block 3, the fourth rotating shaft 5 extends into the first transmission cavity 55, and a first belt pulley 57 is fixedly arranged on the left end surface of the fourth rotating shaft 5, the first belt pulleys 57 are connected through a first belt 58, the left wall of the first transmission cavity 55 is fixedly provided with a second motor 56, the right end face of the second motor 56 is provided with a fifth rotating shaft 73 fixedly connected with the foremost first belt pulley 57, when the first motor 7 is started, the first motor 7 drives the third screw rod 6 to rotate, the third sliding block 3 converts the rotation of the third screw rod 6 into movement towards the symmetrical center position of the leveling module 72 under the action of the screw threads and the third sliding cavity 2, meanwhile, the second motor 56 is started, the second motor 56 drives the foremost first belt pulley 57 to rotate through the fifth rotating shaft 73, the foremost first belt pulley 57 drives the rear first belt pulleys 57 to rotate through the first belt 58, the first belt pulley 57 drives the leveling wheel 4 to rotate through the fourth rotating shaft 5, and uneven nonferrous metal plates are placed between the leveling modules 72, level and smooth wheel 4 can level and smooth the non ferrous metal plate extrusion of unevenness, can drive in the face of the non ferrous metal plate of different thickness through first motor 7 and level and smooth wheel 4 and reciprocate in order to adapt to the non ferrous metal plate of different thickness moreover.

Beneficially or exemplarily, the recycling cooling device 102 includes a cooling liquid filtering box 69 in the storage cavity 15, a filter residue storage cavity 70 with an upward opening is arranged in the cooling liquid filtering box 69, a cooling liquid storage cavity 68 is arranged below the storage cavity 15 in a communication manner, a third motor 47 is arranged below the cooling liquid storage cavity 68, a sixth rotating shaft 48 is arranged on a rear end face of the third motor 47, a hydraulic pump 66 is arranged on a rear end face of the sixth rotating shaft 48, the hydraulic pump 66 is connected with the cooling liquid storage cavity 68 through a first pipeline 67, the hydraulic pump 66 is communicated with the working cavity 50 through a cooling liquid water pipe 53, when the working cooling liquid flows into the storage cavity 15 from the cutting cavity 33 and falls into the bottom wall of the filter residue storage cavity 70, metal scraps in the cooling liquid are retained in the filter residue storage cavity 70 under the filtering action of the cooling liquid filtering box 69, and the filtered cooling liquid flows into the cooling liquid storage cavity 68, the third motor 47 drives the hydraulic pump 66 to operate through the sixth rotating shaft 48, and the cooling liquid static cooling liquid water pipe 53 in the cooling liquid storage cavity 68 is conveyed into the working cavity 50 and sprayed on the surface of the cutting blade 52 to cool the cutting blade 52.

Beneficially or exemplarily, the polishing device 103 includes a polishing module 74 with symmetrical up and down positions, the polishing module 74 includes a polishing cavity 16 with symmetrical left and right side walls provided with fourth sliding cavities 17, a slidably connected fourth sliding block 20 is provided in the fourth sliding cavity 17, a forward and backward symmetrical seventh rotating shaft 19 is provided between the fourth sliding blocks 20, a pressing block 18 is fixedly provided on the seventh rotating shaft 19, a fourth motor 64 is provided on the side wall of the left side of the fourth sliding block 20 away from the symmetrical center of the polishing module 74, a fourth sliding block screw 61 in threaded connection with the fourth sliding block 20 is provided on the end surface of the fourth motor 64 close to the symmetrical center of the polishing module 74, a second transmission cavity 63 is provided in the left side of the fourth sliding block 20, the seventh rotating shaft 19 extends into the second transmission cavity 63, a second belt pulley 59 is fixedly provided on the left end surface of the seventh rotating shaft 19, the second belt pulleys 59 are connected through a second belt 76, a first power source 60 is arranged on the left wall of the second transmission cavity 63, the first power source 60 is connected with the front second belt pulleys 59 through an eighth rotating shaft 75, a polishing beam 21 connected with left and right fourth sliding blocks 20 is arranged between the pressing blocks 18, an opening is formed in the polishing beam 21 and is close to a fifth sliding cavity 65 on one side of the symmetrical center of the polishing module 74, a second power source 62 is arranged on the left wall of the fifth sliding cavity 65, a fifth screw 26 extending to the wall of the fifth sliding cavity 65 is arranged on the right end face of the second power source 62, a fifth sliding block 22 connected with the fifth sliding cavity 65 in a sliding mode is connected on the fifth screw 26 in a threaded mode, a third power source 25 is arranged on the end face of one side of the symmetrical center of the polishing module 74, and a twelfth rotating shaft is arranged on the end face of the third power source 25, which is close to one side of the symmetrical center of the polishing module 74 The shaft 24, the end surface of the twelfth rotating shaft 24 close to one side of the symmetry center of the grinding module 74 is provided with the grinding sheet 23, when the fourth motor 64 is started, the fourth motor 64 drives the fourth screw 61 to rotate, the fourth sliding block 20 converts the rotation of the fourth screw 61 into movement towards the symmetry center of the grinding module 74 under the action of the screw thread and the fourth sliding cavity 17, the first power source 60 is started, the first power source 60 drives the front second belt pulley 59 to rotate through the eighth rotating shaft 75, the front second belt pulley 59 drives the rear second belt pulley 59 to rotate through the second belt 76, the second belt pulley 59 drives the pressing block 18 to rotate through the seventh rotating shaft 19, the second power source 62 is started, the second power source 62 drives the fourth screw 61 to rotate, the fifth sliding block 22 converts the rotation of the fourth screw 61 into left-to-right movement under the action of the screw thread and the fifth sliding cavity 65, meanwhile, the third power source 25 is started, the third power source 25 drives the polishing sheet 23 to rotate through the twelfth rotating shaft 24, the cut nonferrous metal plates are polished by the polishing sheet 23 under the clamping of the pressing block 18, burrs are removed, and the nonferrous metal plates facing different thicknesses can drive the fourth sliding block 20 to move up and down through the fourth motor 64 so as to adapt to the nonferrous metal plates with different thicknesses.

Beneficially or exemplarily, the exhaust gas treatment device 104 includes an exhaust cavity 27 with a backward opening, a fourth power source 29 is fixedly arranged on a rear wall of the exhaust cavity 27, a thirteenth rotating shaft 28 is arranged on a front end surface of the fourth power source 29, fan blades 30 are fixedly arranged on the thirteenth rotating shaft 28, a filter block 31 is fixedly arranged on a front wall of the exhaust cavity 27, the exhaust cavity 27 is communicated with the working cavity 50 through an exhaust pipe 32, when the fourth power source 29 is started, the fourth power source 29 drives the fan blades 30 to rotate through the thirteenth rotating shaft 28, toxic and harmful gases generated during cutting in the working cavity 50 are extracted, then the harmful substances are removed through filtering by the filter block 31, and the toxic and harmful gases are exhausted out of the machine body shell 10 to protect the health of workers.

The invention relates to a non-ferrous metal cutting system, which comprises the following working procedures:

when a non-ferrous metal plate enters the machine body shell 10, the non-ferrous metal plate is firstly pressed and leveled by the leveling wheel 4 of the leveling device 101 and then enters the cutting cavity 33, the first motor 9 is started, the belt passes through the rotating shaft 11 to drive the cutting table 34 to rotate, so as to adjust the cutting straight line or oblique line, the second motor 35 is started, the second rotating shaft 36 drives the swing arm 14 to rotate, so as to realize the function of cutting edges of the non-ferrous metal plate at different angles, the third motor 39 is started to drive the first screw 40 to rotate, the first sliding block 42 on the first screw 40 converts the rotation of the first screw 40 into left and right movement under the action of the thread and the first sliding cavity 41, the fourth motor 43 is started, the fourth motor 43 drives the second screw 44 to rotate, the second sliding block 45 on the second screw 44 converts the rotation of the second screw 44 into up and down movement under the action of the thread and the second sliding cavity 71, and the fifth motor 46 is started, drive cutting piece 52 through third axis of rotation 51, thereby realized the function of the non ferrous metal panel of the different thickness of different width of cutting, when the cutting, third motor 47 and fourth power supply 29 start simultaneously, third motor 47 drives the operation of hydraulic pump 66, deposit the coolant liquid in the chamber 68 in the coolant liquid pumps working chamber 50, lower the temperature for cutting piece 52, fourth power supply 29 drives flabellum 30 and rotates and take out the waste gas in the fourth sliding block 20 and filter through filter block 31 and discharge again, the non ferrous metal panel that the cutting is good is compressed tightly by compact heap 18 then is polished and deburred by polishing piece 23, then send out the engine body shell 10 outside, these mechanical operations can carry out holistic control and adjustment on controlling platform 8, there is fine human-computer interaction can easily accomplish the flattening, the cutting, the function of polishing.

The invention has the beneficial effects that: the invention is provided with the leveling device, can extrude and level the non-ferrous metal plate which is not flat through the leveling wheel, prepares for the following cutting procedure, improves the cutting precision, is provided with the cutting machine which can realize multi-angle and multi-inclination, can complete different cutting tasks according to the requirements of customers, is also provided with a recycling and cooling device for waste gas and waste residue, can keep the cleanness in the machine body and filter the gas harmful to the health of human bodies to protect the health of workers, the cooling liquid can be sprayed on the cutting sheet to cool the cutting sheet during cutting, so that the cutting sheet is always kept at a normal working temperature, the polishing device is also arranged, the surface of the cut nonferrous metal plate can be polished and burrs generated during cutting can be removed, the functions can be integrally regulated and controlled on the operating platform, the functions of leveling, cutting and polishing can be easily completed, and the labor intensity of workers can be greatly reduced.

It will be apparent to those skilled in the art that various modifications may be made to the above embodiments without departing from the general spirit and concept of the invention. All falling within the scope of protection of the present invention. The protection scheme of the invention is subject to the appended claims.