CN112846794A - Metal comprehensive processing equipment - Google Patents

Abstract

The invention relates to processing equipment, in particular to comprehensive metal processing equipment which comprises a cutting mechanism, a polishing mechanism and a collecting platform mechanism, wherein the equipment can cut, can guide cutting scraps, can polish by adding water, can collect water and scraps, can clean a filter plate, is connected with the collecting platform mechanism, and is connected with the polishing mechanism.

Description

Metal comprehensive processing equipment

Technical Field

The invention relates to processing equipment, in particular to metal comprehensive processing equipment.

Background

In the processing process of metal, processes such as cutting and polishing need to be carried out, the function of a traditional operation platform is single, water and impurities cannot be well collected, and therefore the metal comprehensive processing equipment is designed.

Disclosure of Invention

The invention mainly solves the technical problem of providing the metal comprehensive processing equipment, the equipment can cut, the equipment can guide cutting scraps, the equipment can be polished by adding water, the equipment can collect water and scraps, and the equipment can clean a filter plate.

In order to solve the technical problem, the invention relates to a machining device, in particular to a metal comprehensive machining device which comprises a cutting mechanism, a polishing mechanism and a collecting platform mechanism, wherein the device can cut, can guide cutting scraps, can polish by adding water, can collect water and scraps, and can clean a filter plate.

The cutting mechanism is connected with the collecting platform mechanism, and the grinding mechanism is connected with the collecting platform mechanism.

As a further optimization of the technical scheme, the cutting mechanism of the metal comprehensive processing equipment comprises a fixed seat, a pulley seat, a movable platform, a tool rest, a cutting motor, a belt pulley, a belt, a wind wheel, a belt pulley I, a convex groove, a slide block, a hinged arm, a matching seat, a cam, a connecting shaft, a fixed box, a belt pulley II, a coupling, a cam driving motor, a reinforcing support, a filter plate with a handle, an embedded box, an air inlet, a connecting pipe I, a sliding chute I, a connecting rod, a spring, a piston, an inner cavity, a one-way valve I, a communicating pipeline, a spring I, a connecting column, an air outlet and a cutter with a shaft, wherein the convex groove is arranged on the fixed seat, the pulley seat is connected with the movable platform, the movable platform is connected with the tool rest, the tool rest, the belt is in friction connection with a belt pulley I, the belt pulley I is connected with a belt shaft cutting knife, the belt shaft cutting knife is rotationally connected with a knife rest, a sliding block is in sliding connection with a convex groove, the sliding block is hinged with a hinged arm, the hinged arm is hinged with a matching seat, the matching seat is in contact with a cam, the cam is connected with a connecting shaft, the connecting shaft is rotationally connected with a fixed box, the connecting shaft is connected with a belt pulley II, the connecting shaft is connected with a cam driving motor through a coupler, the cam driving motor is connected with a reinforcing support, the reinforcing support is connected with the fixed box, the fixed box is connected with a connecting pipe I, a filter plate with a handle is in sliding connection with an embedding box, an air inlet is arranged on the embedding box, the embedding box is communicated with the connecting pipe, the connecting pipe is communicated with a fixed seat, a sliding groove I is, piston and inner chamber sliding connection, the inner chamber setting is in connecting pipe I, the check valve setting is in the connecting pipe, check valve I sets up in the intercommunication pipeline, the intercommunication pipeline sets up in the fixing base, the intercommunication pipeline is linked together with communicating pipe, communicating pipe is linked together with the air outlet, on air outlet and the fixing base, spring I overlaps on communicating pipe, the spliced pole links to each other with the slider, spliced pole and fixing base sliding connection, the spliced pole links to each other with movable platform.

As a further optimization of the technical scheme, the polishing mechanism of the metal comprehensive processing equipment comprises a bearing seat, a supporting leg, a polishing motor, a coupling I, a supporting leg seat, a wheel with a convex, an embedded wheel, a polishing wheel with a sliding column, a connecting plate with a limiting column, a compression spring, a supporting seat, a pulling seat, a water spray pipe, a matching wheel with a seat, an upright post, a spring II, a push-pull box, a transfer box, a connecting bent pipe, a water tank inlet, a water spray check valve, a piston I, a water inlet check valve, a limiting hole, an embedded groove and a unthreaded hole, wherein the bearing seat is connected with the polishing motor, the supporting leg is connected with the water tank, the polishing motor is connected with the wheel with the convex through the coupling I, the wheel with the convex is rotatably connected with the bearing seat, the supporting leg seat is connected with the transfer box, the wheel with the convex is connected with the embedded wheel, the embedded wheel is slidably connected with the polishing wheel, the compression spring is sleeved on the limiting column, the limiting column is connected with the pulling seat, the pulling seat is abutted on the supporting seat, the supporting seat is connected with the embedding wheel, the water spraying pipe is connected with the transfer box and communicated with the transfer box, the seat-in cooperation wheel is connected with the stand column, the seat-in cooperation wheel is contacted with the protruding wheel, the spring II is sleeved on the stand column, the stand column is connected with the push-pull box in a sliding mode, the push-pull box is connected with the transfer box and communicated with the transfer box, the transfer box is communicated with the water tank through the connecting bent pipe, the water tank inlet is arranged on the water tank, the water spraying check valve is arranged in the water spraying pipe, the piston I is connected with the stand column, the piston I is connected with the push-pull box in a sliding mode, the water inlet check valve is arranged in the connecting bent pipe, the limiting hole is arranged on the sliding column polishing wheel, the limiting hole is connected with the connecting plate with the limiting.

As a further optimization of the technical scheme, the collecting platform mechanism of the metal comprehensive processing equipment comprises a base, a water gun seat, a spray pipe, a filter plate I, a discharge pipe, a platform, an exhaust pipeline, an air box, a belt pulley III, a transmission belt, an air inlet seat, an air inlet I, a negative pressure pipe, a water flowing groove, a hydraulic cylinder support, a connecting plate seat with a plug, a connecting rod I, a socket, a connecting channel, an air inlet, an inclined plate, a wind wheel with a shaft, a discharge pipe and a filter hole, wherein the base is connected with the water gun seat, the water gun seat is connected with the spray pipe, the filter plate I is connected with the discharge pipe in a sliding manner, the discharge pipe is connected with the platform, the discharge pipe is communicated with the water flowing groove arranged on the platform, the base is connected with the platform, the platform is connected with a fixed seat, the pulley seat is contacted with the, the other end of the exhaust pipeline is inserted into the exhaust pipe, the exhaust pipeline is connected with the platform, the belt pulley III is in friction connection with the transmission belt, the transmission belt is in friction connection with the belt pulley II, the air inlet seat is connected with the air box, the air inlet seat and the air box are respectively provided with an air inlet I, the negative pressure pipe penetrates into the air box and penetrates through the inclined plate, the hydraulic cylinder is connected with the hydraulic cylinder support, the hydraulic cylinder support is connected with the platform, the hydraulic cylinder is connected with the plug connection plate seat, the plug connection plate seat is connected with the connecting rod I, the socket is arranged on the exhaust pipe, the connecting rod I is in sliding connection with the exhaust pipe, the connecting rod I is connected with the filter I, the air inlet is arranged on the inclined plate, the inclined plate is connected with the air box, the wind wheel with the shaft is connected with the.

As a further optimization of the technical scheme, when the plug-in connection plate seat is communicated with the socket, the spray pipe sprays water, and the spray pipe is externally connected with high-pressure water.

The metal comprehensive processing equipment has the beneficial effects that:

according to the metal comprehensive processing equipment, the equipment can cut, the equipment can guide cutting scraps, the equipment can be polished by adding water, the equipment can collect water and scraps, and the equipment can clean a filter plate.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic structural diagram of a metal machining apparatus according to the present invention.

FIG. 2 is a schematic structural diagram of a metal machining apparatus according to the present invention.

FIG. 3 is a third schematic structural diagram of a metal machining apparatus according to the present invention.

FIG. 4 is a fourth schematic structural diagram of a metal machining apparatus according to the present invention.

FIG. 5 is a schematic structural diagram of a metal machining apparatus according to a fifth embodiment of the present invention.

Fig. 6 is a first structural schematic diagram of the cutting mechanism 1 of the metal machining apparatus of the present invention.

Fig. 7 is a second schematic structural diagram of the cutting mechanism 1 of the metal machining apparatus of the present invention.

Fig. 8 is a third schematic structural diagram of the cutting mechanism 1 of the metal machining apparatus of the present invention.

Fig. 9 is a first schematic structural diagram of the grinding mechanism 2 of the metal machining apparatus according to the present invention.

Fig. 10 is a second schematic structural diagram of the polishing mechanism 2 of the metal machining apparatus according to the present invention.

Fig. 11 is a third schematic structural diagram of the polishing mechanism 2 of the metal machining apparatus according to the present invention.

Fig. 12 is a first structural schematic diagram of the collecting platform mechanism 3 of the metal integrated processing equipment of the present invention.

Fig. 13 is a schematic structural diagram of a collecting platform mechanism 3 of the metal integrated processing equipment according to the present invention.

Fig. 14 is a third schematic structural diagram of the collecting platform mechanism 3 of the metal machining apparatus of the present invention.

In the figure: a cutting mechanism 1; a fixed seat 1-1; 1-2 of a pulley seat; 1-3 of a movable platform; 1-4 of a tool rest; 1-5 of a cutting motor; 1-6 of belt pulleys; 1-7 of a belt; 1-8 parts of wind wheel; pulley I1-9; 1-10 parts of convex groove; 1-11 of a slide block; articulated arms 1-12; 1-13 of a matching seat; cams 1 to 14; connecting shafts 1-15; 1-16 of a fixed box; pulley II 1-17; 1-18 of a coupler; cam drive motors 1-19; 1-20 parts of reinforcing support; a filter plate 1-21 with a handle; an insert box 1-22; air inlets 1-23; connecting pipes 1-24; connecting pipe I1-25; chutes I1-26; connecting rods 1-27; springs 1-28; pistons 1-29; 1-30 parts of inner cavity; 1-31 of a one-way valve; a one-way valve I1-32; connecting pipelines 1-33; the communication pipes 1 to 34; springs I1-35; connecting columns 1-36; air outlets 1 to 37; a cutter 1-38 with a shaft; a polishing mechanism 2; a bearing seat 2-1; 2-2 parts of supporting legs; polishing the motor 2-3; a coupler I2-4; 2-5 of a supporting leg seat; 2-6 parts of a cam; 2-7 of an embedding wheel; 2-8 of polishing wheels with sliding columns; 2-9 of a connecting plate with a limiting column; 2-10 parts of a limiting column; 2-11 parts of a compression spring; 2-12 parts of a supporting seat; 2-13 of a pull seat; 2-14 parts of a water spraying pipe; 2-15 of a matching wheel with a seat; 2-16 of upright post; spring II 2-17; 2-18 parts of a push-pull box; 2-19 of a transfer case; connecting bent pipes 2-20; 2-21 parts of a water tank; a water tank inlet 2-22; 2-23 of a water spraying one-way valve; piston I2-24; 2-25 of a water inlet one-way valve; 2-26 of a limiting hole; 2-27 of embedded groove; 2-28 of a light hole; a collection platform mechanism 3; a base 3-1; 3-2 of a water gun seat; 3-3 of a spray pipe; filter I3-4; a discharge pipe 3-5; 3-6 of a platform; 3-7 parts of an exhaust pipeline; 3-8 of an air box; pulley III 3-9; 3-10 parts of a transmission belt; 3-11 parts of an air inlet seat; the air inlet I3-12; 3-13 parts of a negative pressure pipe; 3-14 parts of a launder; 3-15 parts of a hydraulic cylinder; the hydraulic cylinder supports 3-16; connecting plate seats with plugs 3-17; connecting rods I3-18; 3-19 of the socket; 3-20 parts of connecting channel; 3-21 of an air inlet; 3-22 of an inclined plate; 3-23 of wind wheel with shaft; discharge pipes 3 to 24; 3-25 parts of filter holes.

Detailed Description

The first embodiment is as follows:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, and fig. 14, the invention relates to a processing device, more specifically to a metal comprehensive processing device, which comprises a cutting mechanism 1, a grinding mechanism 2, and a collecting platform mechanism 3, the device can cut, the device can guide cutting scraps, the device can add water for grinding, the device can collect water and scraps, and the device can clean a filter plate.

The cutting mechanism 1 is connected with the collecting platform mechanism 3, and the grinding mechanism 2 is connected with the collecting platform mechanism 3.

The second embodiment is as follows:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, and the embodiment further describes the embodiment, where the cutting mechanism 1 includes a fixed seat 1-1, a belt-pulley seat 1-2, a movable platform 1-3, a knife rest 1-4, a cutting motor 1-5, a belt pulley 1-6, a belt 1-7, a wind wheel 1-8, a belt pulley I1-9, a convex groove 1-10, a slide block 1-11, an articulated arm 1-12, a mating seat 1-13, a cam 1-14, a connecting shaft 1-15, a fixed box 1-16, a belt pulley II1-17, a coupling 1-18, a cam-driving motor 1-19, a reinforcing support 1-20, a hinge arm 1-13, 1-21 parts of filter plate with handle, 1-22 parts of embedded box, 1-23 parts of air inlet, 1-24 parts of connecting pipe, I1-25 parts of connecting pipe, I1-26 parts of chute, 1-27 parts of connecting rod, 1-28 parts of spring, 1-29 parts of piston, 1-30 parts of inner cavity, 1-31 parts of one-way valve, I1-32 parts of one-way valve, 1-33 parts of communicating pipe, 1-34 parts of communicating pipe, I1-35 parts of spring, 1-36 parts of connecting column, 1-37 parts of air outlet, 1-38 parts of cutter with shaft, 1-1 part of fixed seat, 1-10 parts of convex groove, 1-2 parts of pulley seat, 1-3 parts of movable platform, 1-4 parts of cutter frame, 1-4 parts of cutter motor, 1-5 parts of cutter motor, the belt pulley 1-6 is connected with the belt pulley 1-7 in a friction way, the belt pulley 1-7 is connected with the belt pulley I1-9 in a friction way, the belt pulley I1-9 is connected with the cutter with shaft 1-38, the cutter with shaft 1-38 is connected with the cutter frame 1-4 in a rotation way, the slide block 1-11 is connected with the convex groove 1-10 in a sliding way, the slide block 1-11 is hinged with the hinged arm 1-12, the hinged arm 1-12 is hinged with the matching seat 1-13, the matching seat 1-13 is contacted with the cam 1-14, the cam 1-14 is connected with the connecting shaft 1-15, the connecting shaft 1-15 is connected with the fixed box 1-16 in a rotation way, the connecting shaft 1-15 is connected with the belt pulley II1-17, the connecting shaft 1-15 is connected with the cam driving, the cam driving motor 1-19 is connected with the reinforced support 1-20, the reinforced support 1-20 is connected with the fixed box 1-16, the fixed box 1-16 is connected with the connecting pipe I1-25, the filter plate with the handle 1-21 is connected with the embedded box 1-22 in a sliding way, the embedded box 1-22 is provided with the air inlet 1-23, the embedded box 1-22 is communicated with the connecting pipe 1-24, the connecting pipe 1-24 is communicated with the fixed seat 1-1, the sliding chute I1-26 is arranged on the fixed box 1-16, the matching seat 1-13 is connected with the sliding chute I1-26 in a sliding way, the connecting rod 1-27 is connected with the matching seat 1-13, the spring 1-28 is sleeved on the connecting rod 1-27, the connecting rod 1-27 is connected with the piston 1-29, the piston 1-29 is connected with the, an inner cavity 1-30 is arranged in a connecting pipe I1-25, a one-way valve 1-31 is arranged in a connecting pipe 1-24, a one-way valve I1-32 is arranged in a communicating pipe 1-33, the communicating pipe 1-33 is arranged in a fixed seat 1-1, the communicating pipe 1-33 is communicated with the communicating pipe 1-34, the communicating pipe 1-34 is communicated with an air outlet 1-37, the air outlet 1-37 is communicated with the fixed seat 1-1, a spring I1-35 is sleeved on the communicating pipe 1-34, a connecting column 1-36 is connected with a sliding block 1-11, the connecting column 1-36 is connected with the fixed seat 1-1 in a sliding way, the connecting column 1-36 is connected with a movable platform 1-3, a cam driving motor 1-19 and a cutting motor 1-5 run synchronously, the cam driving motor 1-19 drives a coupler 1-18 to, the shaft coupling 1-18 drives the connecting shaft 1-15 to rotate, the connecting shaft 1-15 drives the cam 1-14 to rotate, the cam 1-14 drives the matching seat 1-13 to reciprocate up and down through matching with the spring 1-28, the matching seat 1-13 drives the sliding block 1-11 to reciprocate through the articulated arm 1-12, the sliding block 1-11 drives the movable platform 1-3 to reciprocate through the connecting column 1-36, the cutting motor 1-5 operates to drive the belt pulley 1-6 to rotate, the belt pulley 1-6 drives the belt pulley I1-9 to rotate through the belt 1-7, the belt pulley I1-9 drives the belt shaft cutting knife 1-38 to rotate, so that the movable platform 1-3 drives the rotating belt shaft cutting knife 1-38 to reciprocate, thereby cutting, the belt pulley I1-9 can drive the wind wheel 1-8 to rotate, the wind wheel 1-8 can conduct drainage to the direction close to the negative pressure pipe 3-13 for the chippings generated in the cutting process, meanwhile, the matching seat 1-13 drives the piston 1-29 to reciprocate up and down through the connecting rod 1-27, the reciprocating motion of the piston 1-29 can cause the air pressure in the inner cavity 1-30 to change, thus, the external air continuously enters from the air inlet 1-23, is filtered by the filter plate 1-21 with the handle, then rushes off the one-way valve 1-31, enters into the inner cavity 1-30, is pressurized, then rushes off the one-way valve I1-32, is communicated with the pipeline 1-33 and the communication pipe 1-34, and then is blown out from the air outlet 1-37, and plays a role in pressurizing and guiding the cutting spark.

The third concrete implementation mode:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, and the embodiment further describes the embodiment, wherein the grinding mechanism 2 comprises a bearing seat 2-1, a supporting leg 2-2, a grinding motor 2-3, a coupling I2-4, a supporting leg seat 2-5, a cam wheel 2-6, an embedded wheel 2-7, a grinding wheel with a sliding column 2-8, a connecting plate with a limiting column 2-9, a limiting column 2-10, a compression spring 2-11, a supporting seat 2-12, a pulling seat 2-13, a water spray pipe 2-14, a matching wheel with a seat 2-15, an upright column 2-16, a spring II2-17, a push-pull box 2-18, a transfer box 2-19, a push-pull box 2-19, a, 2-20 parts of connecting bent pipe, 2-21 parts of water tank, 2-22 parts of water tank inlet, 2-23 parts of water spraying one-way valve, I2-24 parts of piston, 2-25 parts of water inlet one-way valve, 2-26 parts of limiting hole, 2-27 parts of embedded groove and 2-28 parts of unthreaded hole, 2-1 parts of bearing seat is connected with 2-3 parts of grinding motor, 2-2 parts of supporting leg is connected with 2-21 parts of water tank, 2-3 parts of grinding motor is connected with 2-6 parts of wheel with projection through a coupling I2-4, 2-6 parts of wheel with projection are rotationally connected with 2-1 parts of bearing seat, 2-5 parts of supporting leg seat is connected with 2-19 parts of transfer box, 2-6 parts of wheel with projection is connected with 2-7 parts of embedded wheel, 2-7 parts of embedded wheel is connected with 2-8 parts of grinding wheel with sliding column, 2-9 parts of, the compression spring 2-11 is sleeved on the limit column 2-10, the limit column 2-10 is connected with the pull seat 2-13, the pull seat 2-13 is abutted against the support seat 2-12, the support seat 2-12 is connected with the embedded wheel 2-7, the spray pipe 2-14 is connected and communicated with the transit box 2-19, the matching wheel with a seat 2-15 is connected with the upright post 2-16, the matching wheel with a seat 2-15 is contacted with the wheel with a convex part 2-6, the spring II2-17 is sleeved on the upright post 2-16, the upright post 2-16 is connected with the push-pull box 2-18 in a sliding way, the push-pull box 2-18 is connected and communicated with the transit box 2-19, the transit box 2-19 is communicated with the water tank 2-21 through the connecting bent pipe 2-20, the water tank inlet 2-22 is arranged on the water tank 2-21, the water spraying one-way valve 2-23 is arranged in the water spraying pipe 2-14, the piston I2-24 is connected with the upright post 2-16, the piston I2-24 is connected with the push-pull box 2-18 in a sliding way, the water inlet one-way valve 2-25 is arranged in the connecting bent pipe 2-20, the limiting hole 2-26 is arranged on the grinding wheel 2-8 with the sliding post, the limiting hole 2-26 is connected with the connecting plate 2-9 with the limiting post in a sliding way, the embedded groove 2-27 is connected with the grinding wheel 2-8 with the sliding post in a sliding way, the unthreaded hole 2-28 is arranged on the supporting seat 2-12, the unthreaded hole 2-28 is connected with the limiting post 2-10 in a sliding way, before grinding, the water tank inlet 2-22 is externally connected with the water inlet pipe continuously adding water, the coupling I2-4 is driven to rotate by the operation of the grinding motor 2-3, the coupling I2, the belt seat matching wheel 2-6 is driven by the matching of the belt convex wheel 2-6 and the spring II2-17 to reciprocate up and down, the belt seat matching wheel 2-15 is driven by the upright post 2-16 to reciprocate up and down by the piston I2-24, the piston I2-24 can cause the pressure difference of the transfer box 2-19 to change, when the pressure in the transfer box 2-19 is reduced, the water in the water tank 2-21 can rush the water inlet one-way valve 2-25 to enter the transfer box 2-19, then rush the water spraying one-way valve 2-23 to spray from the water spraying pipe 2-14 after pressurization, the belt convex wheel 2-6 can drive the embedded wheel 2-7 to rotate, the embedded wheel 2-7 can drive the belt sliding column polishing wheel 2-8 to rotate, the belt sliding column polishing wheel 2-8 can perform wet polishing, the polishing wheel 2-8 with the sliding column can be replaced by pulling the pulling seat 2-13, the pulling seat 2-13 can drive the connecting plate 2-9 with the limiting column to move through the limiting column 2-10, the connecting plate 2-9 with the limiting column can slide out of the limiting hole 2-26, and therefore the polishing wheel 2-8 with the sliding column which loses limiting can be pulled out for replacement.

The fourth concrete implementation mode:

the following describes the present embodiment with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, and the present embodiment further describes the present embodiment, where the collecting platform mechanism 3 includes a base 3-1, a water gun base 3-2, a nozzle 3-3, a filter plate I3-4, a discharge pipe 3-5, a platform 3-6, an exhaust duct 3-7, a wind box 3-8, a belt pulley III3-9, a driving belt 3-10, a wind inlet base 3-11, a wind inlet I3-12, a negative pressure pipe 3-13, a water flowing tank 3-14, a hydraulic cylinder 3-15, a hydraulic cylinder support 3-16, a connecting plate base with a plug 3-17, a connecting rod I3-18, a socket 3-19, and a socket, 3-20 parts of connecting channel, 3-21 parts of upper air inlet, 3-22 parts of inclined plate, 3-23 parts of wind wheel with shaft, 3-24 parts of discharge pipe and 3-25 parts of filter hole, wherein base 3-1 is connected with water gun base 3-2, water gun base 3-2 is connected with 3-3 parts of spray pipe, filter plate I3-4 is connected with 3-5 parts of discharge pipe in sliding mode, 3-5 parts of discharge pipe is connected with 3-6 parts of platform, 3-5 parts of discharge pipe is communicated with 3-14 parts of water flowing groove arranged on 3-6 parts of platform, 3-1 parts of base is connected with 3-6 parts of platform, 3-6 parts of platform is connected with 1-1 parts of fixed base, 1-2 parts of pulley with 3-6 parts of platform, 2-1 parts of bearing base, 2-2 parts of supporting leg and 2-5 parts of, one end of an exhaust pipeline 3-7 is communicated with an air box 3-8, the other end of the exhaust pipeline 3-7 is inserted into an exhaust pipe 3-5, the exhaust pipeline 3-7 is connected with a platform 3-6, a belt pulley III3-9 is in friction connection with a transmission belt 3-10, the transmission belt 3-10 is in friction connection with a belt pulley II1-17, an air inlet seat 3-11 is connected with the air box 3-8, the air seat 3-11 and the air box 3-8 are respectively provided with an air inlet I3-12, a negative pressure pipe 3-13 extends into the air box 3-8 and passes through an inclined plate 3-22, a hydraulic cylinder 3-15 is connected with a hydraulic cylinder support 3-16, the hydraulic cylinder support 3-16 is connected with the platform 3-6, the hydraulic cylinder 3-15 is connected with a connecting plate seat 3-, the connecting plate seat 3-17 with the plug is connected with the connecting rod I3-18, the socket 3-19 is arranged on the discharge pipe 3-5, the connecting rod I3-18 is connected with the discharge pipe 3-5 in a sliding way, the connecting rod I3-18 is connected with the filter plate I3-4, the upper air inlet 3-21 is arranged on the inclined plate 3-22, the inclined plate 3-22 is connected with the air box 3-8, the wind wheel with the shaft 3-23 is connected with the belt pulley III3-9, the wind wheel with the shaft 3-23 is connected with the air box 3-8 in a rotating way, the discharge pipe 3-24 is arranged on the air box 3-8, the filter hole 3-25 is arranged on the filter plate I3-4, the belt pulley II1-17 is driven to rotate when the connecting shaft 1-15 rotates, the belt pulley II1-17 drives the belt pulley III3-9 to rotate, the pulley III3-9 can drive the wind wheel 3-23 with the shaft to rotate, the wind wheel 3-23 with the shaft can rotate to form negative pressure, firstly, heat and cutting chips drained in the cutting process are absorbed into the wind box 3-8, water and waste chips in wet grinding are absorbed in the direction of the connecting channel 3-20 by the negative pressure in the connecting channel 3-20, one part of the water and waste chips can directly enter the water flowing groove 3-14, the other part of the water and waste chips can enter the wind box 3-8 from the connecting channel 3-20, then the water and waste chips are blown to the inclined plate 3-22 and then flow into the water flowing groove 3-14 from the discharge pipe 3-24, so that the waste chips cut and ground can be prevented from flying randomly, then air continuously flows from the upper air inlet 3-21 and is mixed with air flow led in by the negative pressure pipe 3-13 and then is discharged into the discharge pipe 3-5 from the exhaust pipe 3-7, the water and the waste chips from the water flowing grooves 3-14 are mixed, the airflow can play a role of assisting the water flow to prevent blockage, the waste chips can be filtered by the filter holes 3-25, when the filter holes 3-25 are blocked, the hydraulic cylinders 3-15 push the plug-provided connecting plate bases 3-17, the plug-provided connecting plate bases 3-17 can push out the filter plates I3-4 through the connecting rods I3-18, the filter holes 3-25 are aligned with the spray pipes 3-3, when the plug-provided connecting plate bases 3-17 are communicated with the sockets 3-19, the spray pipes 3-3 spray water, and the spray pipes 3-3 are externally connected with high-pressure water, so that the high-pressure water can spray the blockage in the filter holes 3-25.

The fifth concrete implementation mode:

the present embodiment will be described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, and fig. 14, and the present embodiment further describes the present embodiment, in which when the plug-equipped connection plate base 3-17 is connected to the socket 3-19, the spray pipe 3-3 sprays water, and the spray pipe 3-3 is externally connected with high-pressure water.

The working principle of the device is as follows: the equipment can carry out cutting, the cam driving motors 1-19 and the cutting motors 1-5 synchronously run, the cam driving motors 1-19 can drive the couplers 1-18 to rotate, the couplers 1-18 can drive the connecting shafts 1-15 to rotate, the connecting shafts 1-15 can drive the cams 1-14 to rotate, the cams 1-14 can drive the matching seats 1-13 to reciprocate up and down through matching with the springs 1-28, the matching seats 1-13 can drive the sliding blocks 1-11 to reciprocate through the articulated arms 1-12, the sliding blocks 1-11 can drive the movable platforms 1-3 to reciprocate through the connecting columns 1-36, the cutting motors 1-5 can drive the belt pulleys 1-6 to rotate, and the belt pulleys 1-6 can drive the belt pulleys I1-9 to rotate through the belts 1-7, the belt pulley I1-9 drives the belt shaft cutting knife 1-38 to rotate, so that the movable platform 1-3 drives the rotating belt shaft cutting knife 1-38 to reciprocate, and cutting action is performed; the device can drain cutting chips, the belt pulley I1-9 can drive the wind wheel 1-8 to rotate, the wind wheel 1-8 can drain the chips generated in the cutting process to the direction close to the negative pressure pipe 3-13, meanwhile, the matching seat 1-13 drives the piston 1-29 to reciprocate up and down through the connecting rod 1-27, the reciprocating motion of the piston 1-29 can cause the air pressure in the inner cavity 1-30 to change, thus, the external air continuously enters from the air inlet 1-23, is filtered by the filter plate with the handle 1-21, then rushes off the one-way valve 1-31, enters into the inner cavity 1-30, is pressurized, then rushes off the one-way valve I1-32, is communicated with the pipeline 1-33 and the communication pipe 1-34, and then is blown out from the air outlet 1-37, and plays a role in pressurizing and guiding the cutting spark; the equipment can be polished by adding water, before polishing, a water inlet 2-22 of a water tank is externally connected with a water inlet pipe continuously adding water, a polishing motor 2-3 is operated to drive a coupler I2-4 to rotate, the coupler I2-4 can drive a wheel with a bulge 2-6 to rotate, the wheel with the bulge 2-6 can drive a wheel with a seat matching 2-15 to reciprocate up and down through matching with a spring II2-17, the wheel with the seat matching 2-15 can drive a piston I2-24 to reciprocate up and down through an upright post 2-16, the piston I2-24 can cause pressure difference change of a transfer case 2-19, when the internal pressure of the transfer case 2-19 is reduced, water in the water tank 2-21 can flush a water inlet one-way valve 2-25 to enter the transfer case 2-19 and then flush a water spray one-way valve 2-23 after pressurization to spray out from a water spray pipe 2-14, when the crowned wheels 2-6 rotate, the embedded wheels 2-7 are driven to rotate, the embedded wheels 2-7 drive the polishing wheels 2-8 with the sliding columns to rotate, the polishing wheels 2-8 with the sliding columns can carry out wet polishing, the polishing wheels 2-8 with the sliding columns can be replaced by pulling the pull seats 2-13, the pull seats 2-13 can drive the connecting plates 2-9 with the limiting columns to move through the limiting columns 2-10, and the connecting plates 2-9 with the limiting columns can slide out of the limiting holes 2-26, so that the polishing wheels 2-8 with the sliding columns which lose the limiting positions can be pulled out for replacement; the equipment can collect water and waste chips, the belt pulley II1-17 can be driven to rotate when the connecting shaft 1-15 rotates, the belt pulley II1-17 can drive the belt pulley III3-9 to rotate through the transmission belt 3-10, the belt pulley III3-9 can drive the shaft-carrying wind wheel 3-23 to rotate, the shaft-carrying wind wheel 3-23 can rotate to form negative pressure, firstly, heat and cutting chips drained in the cutting process are absorbed into the air box 3-8, the water and waste chips in wet grinding are absorbed to the connecting channel 3-20 direction by the negative pressure in the connecting channel 3-20, one part of the water and waste chips directly enters the water flowing groove 3-14, the other part of the water and waste chips enters the air box 3-8 from the connecting channel 3-20 and then is pumped to the inclined plate 3-22 and then flows into the water flowing groove 3-14 from the discharge pipe 3-24, therefore, the waste chips which are cut and polished can be prevented from flying in disorder, then air continuously flows from the upper air inlet 3-21, is mixed with air flow which is introduced by the negative pressure pipe 3-13 and then is discharged into the discharge pipe 3-5 from the exhaust pipeline 3-7, and is mixed with water and the waste chips which are from the water flowing groove 3-14, the air flow can play a role of assisting the water flow to prevent blockage, and the waste chips can be filtered by the filtering holes 3-25; the equipment can clean the filter plate, when the filter holes 3-25 are blocked, the hydraulic cylinders 3-15 push the plug connection plate bases 3-17, the plug connection plate bases 3-17 can push the filter plate I3-4 out through the connecting rods I3-18, the filter holes 3-25 are aligned to the spray pipes 3-3, when the plug connection plate bases 3-17 are communicated with the sockets 3-19, the spray pipes 3-3 spray water, and the spray pipes 3-3 are externally connected with high-pressure water, so that the high-pressure water can spray the blockage in the filter holes 3-25.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (5)

1. The utility model provides a metal integrated processing equipment, includes cutting mechanism (1), grinding machanism (2), collection platform mechanism (3), its characterized in that: the cutting mechanism (1) is connected with the collecting platform mechanism (3), and the grinding mechanism (2) is connected with the collecting platform mechanism (3).

2. The metal complex machining apparatus according to claim 1, wherein: the cutting mechanism (1) comprises a fixed seat (1-1), a pulley seat (1-2), a movable platform (1-3), a tool rest (1-4), a cutting motor (1-5), a belt pulley (1-6), a belt (1-7), a wind wheel (1-8), a belt pulley I (1-9), a convex groove (1-10), a sliding block (1-11), an articulated arm (1-12), a matching seat (1-13), a cam (1-14), a connecting shaft (1-15), a fixed box (1-16), a belt pulley II (1-17), a shaft coupling (1-18), a cam driving motor (1-19), a reinforcing support (1-20), a filter plate with a handle (1-21), an embedded box (1-22), An air inlet (1-23), a connecting pipe (1-24), a connecting pipe I (1-25), a sliding chute I (1-26), a connecting rod (1-27), a spring (1-28), a piston (1-29), an inner cavity (1-30), a one-way valve (1-31), a one-way valve I (1-32), a communicating pipeline (1-33), a communicating pipe (1-34), a spring I (1-35), a connecting column (1-36), an air outlet (1-37) and a cutter with a shaft (1-38), wherein a convex groove (1-10) is arranged on a fixed seat (1-1), a pulley seat (1-2) is connected with a movable platform (1-3), the movable platform (1-3) is connected with a cutter frame (1-4), and the cutter frame (1-4) is connected with a cutting motor (1-5), a cutting motor (1-5) is connected with a belt pulley (1-6), the belt pulley (1-6) is connected with a belt (1-7) in a friction way, the belt (1-7) is connected with a belt pulley I (1-9) in a friction way, the belt pulley I (1-9) is connected with a cutter (1-38) with a shaft, the cutter (1-38) with the shaft is rotationally connected with a tool rest (1-4), a slide block (1-11) is connected with a convex groove (1-10) in a sliding way, the slide block (1-11) is hinged with an articulated arm (1-12), the articulated arm (1-12) is hinged with a matching seat (1-13), the matching seat (1-13) is contacted with a cam (1-14), the cam (1-14) is connected with a connecting shaft (1-15), the connecting shaft (1-15) is rotationally connected with a fixed box (1-16), a connecting shaft (1-15) is connected with a belt pulley II (1-17), the connecting shaft (1-15) is connected with a cam driving motor (1-19) through a coupler (1-18), the cam driving motor (1-19) is connected with a reinforcing support (1-20), the reinforcing support (1-20) is connected with a fixed box (1-16), the fixed box (1-16) is connected with a connecting pipe I (1-25), a filter plate (1-21) with a handle is connected with an embedded box (1-22) in a sliding way, an air inlet (1-23) is arranged on the embedded box (1-22), the embedded box (1-22) is communicated with the connecting pipe (1-24), the connecting pipe (1-24) is communicated with a fixed seat (1-1), a sliding chute I (1-26) is arranged on the fixed box (1-16), the matching seat (1-13) is connected with the sliding chute I (1-26) in a sliding manner, the connecting rod (1-27) is connected with the matching seat (1-13), the spring (1-28) is sleeved on the connecting rod (1-27), the connecting rod (1-27) is connected with the piston (1-29), the piston (1-29) is connected with the inner cavity (1-30) in a sliding manner, the inner cavity (1-30) is arranged in the connecting pipe I (1-25), the one-way valve (1-31) is arranged in the connecting pipe (1-24), the one-way valve I (1-32) is arranged in the communicating pipe (1-33), the communicating pipe (1-33) is arranged in the fixing seat (1-1), the communicating pipe (1-33) is communicated with the communicating pipe (1-34), the communicating pipe (1-34) is communicated with the air outlet (1-37), the air outlet (1-37) is connected with the fixed seat (1-1), the spring I (1-35) is sleeved on the communicating pipe (1-34), the connecting column (1-36) is connected with the sliding block (1-11), the connecting column (1-36) is connected with the fixed seat (1-1) in a sliding mode, and the connecting column (1-36) is connected with the movable platform (1-3).

3. The metal complex machining apparatus according to claim 1, wherein: the polishing mechanism (2) comprises a bearing seat (2-1), supporting legs (2-2), a polishing motor (2-3), a coupler I (2-4), a supporting leg seat (2-5), a wheel with a boss (2-6), an embedded wheel (2-7), a polishing wheel with a sliding column (2-8), a connecting plate with a limiting column (2-9), a limiting column (2-10), a compression spring (2-11), a supporting seat (2-12), a pulling seat (2-13), a water spraying pipe (2-14), a matching wheel with a seat (2-15), an upright column (2-16), a spring II (2-17), a push-pull box (2-18), a transfer box (2-19), a connecting bent pipe (2-20), a water tank (2-21), a water tank inlet (2-22), A water spraying one-way valve (2-23), a piston I (2-24), a water inlet one-way valve (2-25), a limiting hole (2-26), an embedded groove (2-27) and a unthreaded hole (2-28), a bearing seat (2-1) is connected with a polishing motor (2-3), a supporting leg (2-2) is connected with a water tank (2-21), the polishing motor (2-3) is connected with a wheel with a convex (2-6) through a coupler I (2-4), the wheel with a convex (2-6) is rotationally connected with the bearing seat (2-1), the supporting leg seat (2-5) is connected with a transfer case (2-19), the wheel with a convex (2-6) is connected with an embedded wheel (2-7), the embedded wheel (2-7) is slidably connected with a polishing column wheel with a sliding (2-8), a connecting plate (2-9) with a limit column is connected with the limit column (2-10), a compression spring (2-11) is sleeved on the limit column (2-10), the limit column (2-10) is connected with a pull seat (2-13), the pull seat (2-13) is propped against a supporting seat (2-12), the supporting seat (2-12) is connected with an embedding wheel (2-7), a water spray pipe (2-14) is connected and communicated with a transit box (2-19), a matching wheel with a seat (2-15) is connected with an upright post (2-16), the matching wheel with a seat (2-15) is contacted with a cam wheel (2-6), a spring II (2-17) is sleeved on the upright post (2-16), the upright post (2-16) is connected with a push-pull box (2-18) in a sliding way, the push-pull box (2-18) is connected and communicated with the transit box (2-19), the transfer case (2-19) is communicated with the water tank (2-21) through a connecting bent pipe (2-20), a water tank inlet (2-22) is arranged on the water tank (2-21), a water spraying one-way valve (2-23) is arranged in a water spraying pipe (2-14), a piston I (2-24) is connected with an upright post (2-16), the piston I (2-24) is connected with a push-pull case (2-18) in a sliding way, a water inlet one-way valve (2-25) is arranged in the connecting bent pipe (2-20), a limiting hole (2-26) is arranged on a polishing wheel (2-8) with a sliding post, a limiting hole (2-26) is connected with a connecting plate (2-9) with a limiting post in a sliding way, an embedded groove (2-27) is connected with the polishing wheel (2-8) with a sliding post in a sliding way, a unthreaded hole (2-28) is arranged on a supporting seat (2-12), the unthreaded holes (2-28) are connected with the limiting columns (2-10) in a sliding way.

4. The metal complex machining apparatus according to claim 1, wherein: the collecting platform mechanism (3) comprises a base (3-1), a water gun seat (3-2), a spray pipe (3-3), a filter plate I (3-4), a discharge pipe (3-5), a platform (3-6), an exhaust pipeline (3-7), an air box (3-8), a belt pulley III (3-9), a transmission belt (3-10), an air inlet seat (3-11), an air inlet I (3-12), a negative pressure pipe (3-13), a water flowing groove (3-14), a hydraulic cylinder (3-15), a hydraulic cylinder support (3-16), a connecting plate seat with a plug (3-17), a connecting rod I (3-18), a socket (3-19), a connecting channel (3-20), an air inlet (3-21), an inclined plate (3-22), A wind wheel (3-23) with a shaft, a discharge pipe (3-24) and a filter hole (3-25), wherein a base (3-1) is connected with a water gun seat (3-2), the water gun seat (3-2) is connected with a spray pipe (3-3), a filter plate I (3-4) is connected with the discharge pipe (3-5) in a sliding way, the discharge pipe (3-5) is connected with a platform (3-6), the discharge pipe (3-5) is communicated with a water flowing groove (3-14) arranged on the platform (3-6), the base (3-1) is connected with the platform (3-6), the platform (3-6) is connected with a fixed seat (1-1), the pulley seat (1-2) is contacted with the platform (3-6), a bearing seat (2-1), a support leg (2-2) and a support leg seat (2-5) are all connected with the platform (3-6), one end of an exhaust pipeline (3-7) is communicated with an air box (3-8), the other end of the exhaust pipeline (3-7) is inserted into an exhaust pipe (3-5), the exhaust pipeline (3-7) is connected with a platform (3-6), a belt pulley III (3-9) is in friction connection with a transmission belt (3-10), the transmission belt (3-10) is in friction connection with a belt pulley II (1-17), an air inlet seat (3-11) is connected with the air box (3-8), the air seat (3-11) and the air box (3-8) are respectively provided with an air inlet I (3-12), a negative pressure pipe (3-13) extends into the air box (3-8) and passes through an inclined plate (3-22), a hydraulic cylinder (3-15) is connected with a hydraulic cylinder support (3-16), the hydraulic cylinder support (3-16) is connected with the platform (3-6), the hydraulic cylinder (3-15) is connected with a connecting plate seat (3-17) with a plug, the connecting plate seat (3-17) with the plug is connected with a connecting rod I (3-18), a socket (3-19) is arranged on a discharge pipe (3-5), the connecting rod I (3-18) is in sliding connection with the discharge pipe (3-5), the connecting rod I (3-18) is connected with a filter plate I (3-4), an air inlet (3-21) is arranged on an inclined plate (3-22), the inclined plate (3-22) is connected with an air box (3-8), a wind wheel (3-23) with a shaft is connected with a belt pulley III (3-9), the wind wheel (3-23) with the shaft is in rotating connection with the air box (3-8), the discharge pipe (3-24) is arranged on the air box (3-8), and a filter hole (3-25) is arranged on the filter plate I (3-4).

5. The metal complex machining apparatus according to claim 4, wherein: when the connecting plate seat (3-17) with the plug is communicated with the socket (3-19), the spray pipe (3-3) sprays water, and the spray pipe (3-3) is externally connected with high-pressure water.

Images