CN112775265B - Automatic stamping and slitting equipment for stainless steel plates with high efficiency and intelligence - Google Patents

Abstract

The invention discloses efficient and intelligent automatic stainless steel plate stamping and slitting equipment which comprises a box body and transmission rollers arranged on two sides above the interior of the box body, wherein a double-crank shaft rotating stamping and slitting device is arranged on the box body, and an adjustable transmission device is arranged on one side of the box body. According to the invention, through the rotation of the lower crank shaft and the upper crank shaft, two pairs of stainless steel plates of the first stamping module and the first stamping module are stamped and separated, the device can be used for separating a thicker steel plate, through the extension and retraction of the electric telescopic rod, the adjustment can be carried out according to the thickness of the steel plate, the adjustment mode is simple and rapid, through the arc-shaped surfaces at the two ends of the first stamping module and the second stamping module, the stamping force applied to the stainless steel plate is reduced, the deformation of the steel plate is avoided, meanwhile, the burrs on the outer surface of the stamped and separated steel plate are less, the cleaning is convenient, and through the position-adjustable adjusting gear arranged on the triangular adjusting seat, the tightness of a transmission chain is ensured, and the power transmission of the device is more stable.

Description

Automatic stamping and slitting equipment for stainless steel plates with high efficiency and intelligence

Technical Field

The invention relates to the field of steel plate slitting related equipment, in particular to efficient and intelligent stainless steel plate automatic stamping slitting equipment.

Background

The stainless steel plate has smooth surface, high plasticity, toughness and mechanical strength, and high resistance to corrosion of acid, alkali gas, solution and other medium. It is an alloy steel which is not easy to rust, but is not absolutely rustless. Stainless steel sheets are steel sheets resistant to corrosion by weak media such as air, steam, and water, and acid-resistant steel sheets are steel sheets resistant to corrosion by chemically aggressive media such as acids, alkalis, and salts.

In the prior art, stainless steel products are divided into strips, most of the stainless steel products made of thin sheets such as stainless steel coiled materials are divided into strips, a thicker stainless steel plate strip dividing processing device is short, and meanwhile, when the existing stainless steel plate strip dividing device divides the thicker stainless steel plate into strips, the cutting knife is easily damaged, and the strip dividing efficiency of the steel plate is affected.

Disclosure of Invention

The invention aims to solve the problems and designs efficient and intelligent automatic stainless steel plate stamping and slitting equipment.

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

the efficient and intelligent automatic stamping and slitting equipment for the stainless steel plates comprises a box body and transmission rollers arranged on two sides above the interior of the box body, wherein the upper ends of the transmission rollers are exposed out of the upper surface of the box body;

the double-crank-shaft rotating, punching and slitting device comprises a lower crank shaft arranged on one side below the inner part of a box body, the two ends of the lower crank shaft are fixedly connected with the box body through a lower crank bearing, a lower gear is arranged at one end of the lower crank shaft, a plurality of movable sleeves I and a plurality of movable sleeves II are sleeved on the lower crank shaft, the movable sleeves I are uniformly distributed on the lower crank shaft, the movable sleeves II are uniformly distributed on the lower crank shaft, the movable sleeves I and the movable sleeves II are distributed in a staggered manner, crank connecting rods I are arranged on the movable sleeves I and the movable sleeves II, a plurality of punching modules I are arranged above the inner part of the box body, the punching modules I are uniformly distributed above the inner part of the box body, movable seats I are arranged on the lower surfaces of the punching modules I, the movable seats I are movably connected with the crank connecting rods I, and an upper crank shaft is arranged on one side above the box body, the crank shaft structure comprises an upper crank shaft, a box body, a plurality of movable sleeves, a plurality of stamping modules and a plurality of limiting sliding shafts, wherein the upper crank shaft is arranged at two ends of the upper crank shaft, the upper crank shaft is fixedly connected with the box body through an electric telescopic rod, an upper gear is arranged at one end of the upper crank shaft, the upper crank shaft is sleeved with the plurality of movable sleeves III and the plurality of movable sleeves IV, the plurality of movable sleeves III are uniformly distributed on the upper crank shaft, the plurality of movable sleeves IV are uniformly distributed on the upper crank shaft, the movable sleeves III and the movable sleeves IV are distributed in a staggered mode, a crank connecting rod II is arranged on the movable sleeves III and the movable sleeves IV, a plurality of stamping modules II are arranged above the upper surface of the box body, the stamping modules I correspond to the stamping modules II one by one, a movable seat II is arranged on the upper surface of the stamping modules II, the movable seat II is movably connected with the crank connecting rod II, and the limiting sliding shafts are arranged at the lower surface of the stamping module I and the upper surface of the stamping module II, the novel electric telescopic handle is characterized in that a crank type fixing frame is arranged inside the box body and between the two electric telescopic rods, a plurality of sliding sleeves are arranged on the crank type fixing frame and correspond to the limiting sliding shafts one to one, the limiting sliding shafts are inserted into the sliding sleeves and are connected with the sliding sleeves in a sliding mode.

Furthermore, drive arrangement includes driving motor is installed to inside below opposite side of box, the speed reducer is installed to one side of driving motor, driving motor's the rotatory end and the input fixed connection of speed reducer, the output of speed reducer stretches out the box outside, drive gear is installed to the output of speed reducer, the cover is equipped with drive chain on drive gear, lower gear and the last gear.

Further, regulation formula transmission includes triangle-shaped regulation seat, triangle-shaped regulation seat is located box one side, triangle-shaped regulation seat's the outside is equipped with three adjusting screw on the surface, three adjusting screw is located triangle-shaped regulation seat's three side surface center department respectively, adjusting screw and triangle-shaped regulation seat between through regulation bearing fixed connection, adjusting handle is installed to adjusting screw's one end, the cover is equipped with adjusting sleeve on the adjusting screw, adjusting sleeve and adjusting screw threaded connection, adjusting gear seat is installed to adjusting sleeve's one end, install regulation gear bearing on the regulation gear seat, install the regulation gear pivot in the regulation gear bearing, install adjusting gear in the regulation gear pivot, adjusting gear and drive chain interlock mutually.

Furthermore, two ends of the upper surface of the first stamping module and two ends of the lower surface of the second stamping module are arc-shaped.

Furthermore, the first stamping module and the second stamping module at the same position are lifted alternately.

Furthermore, the interval between the first stamping module and the second stamping module is the thickness of the stainless steel plate.

Further, the distance between the first movable sleeve and the second movable sleeve is the same as the distance between the third movable sleeve and the fourth movable sleeve.

Furthermore, the distance between the first movable sleeve and the second movable sleeve is twice of the maximum thickness of the stainless steel strip which can be divided by the device.

The efficient and intelligent automatic stainless steel plate stamping and slitting equipment manufactured by the technical scheme of the invention has the following beneficial effects:

this strip device is divided in punching press, through the rotation of lower crank axle and last crank axle, make punching press module one and punching press module two pairs of stainless steel plates carry out the punching press and divide the strip, can make the device can divide the strip operation to the steel sheet of thick a bit, simultaneously because punching press module one is higher with punching press module two's intensity, for driven strip circular knife that divides, this device can effectively avoid leading to the problem of device damage to take place because of the steel sheet is too thick, through electric telescopic handle's flexible, can make the device adjust the interval of punching press module one and punching press module two according to steel sheet thickness's difference, for driven strip machine that divides, this device is adjusted simply swiftly more.

This strip device is divided in punching press through the arc surface at punching press module one and two both ends of punching press module, can effectual reduction not the punching press that the stainless steel plate of cutting received, avoid the stainless steel plate to take place the condition emergence of warping because of the punching press, divide strip work to the stainless steel plate through the mode of punching press simultaneously, the production volume that can effectual reduction burr is convenient for clear up the stainless steel strip after dividing the strip.

This strip device is divided in punching press through the adjustable position's that sets up on the triangle-shaped regulation seat adjusting gear, can make the device when the stainless steel plate to different thickness divides the strip operation, can effectually guarantee the tension of drive chain, makes the more stable of device power transmission to guarantee going on smoothly of stainless steel plate branch strip work.

Drawings

FIG. 1 is a schematic diagram of an efficient and intelligent automatic stainless steel plate stamping and slitting device provided by the invention;

FIG. 2 is a schematic view of the double crank shaft rotary punching slitting device according to the present invention;

FIG. 3 is a schematic view of a stamping module according to the present invention during stamping;

FIG. 4 is a schematic view of a second stamping module according to the present invention;

FIG. 5 is an enlarged view of a portion of the double crank axle rotating punching slitting device according to the present invention;

FIG. 6 is a schematic view of a first stamping module and a second stamping module according to the present invention;

FIG. 7 is a top view of the crank mount of the present invention;

FIG. 8 is a schematic view of the adjustable drive of the present invention;

FIG. 9 is a rear view of the housing of the present invention;

in the figure, 1, a box body; 2. a driving roller; 3. a lower crank shaft; 4. a lower crank bearing; 5. a lower gear; 6. a first movable sleeve; 7. a second movable sleeve; 8. a first crank connecting rod; 9. stamping a first module; 10. a first movable seat; 11. an upper crankshaft; 12. an upper crank bearing; 13. an electric telescopic rod; 14. an upper gear; 15. a third movable sleeve; 16. a movable sleeve; 17. a crank connecting rod II; 18. a second stamping module; 19. a second movable seat; 20. limiting the sliding shaft; 21. a crank type fixing frame; 22. a sliding sleeve; 23. a drive motor; 24. a speed reducer; 25. a drive gear; 26. a drive chain; 27. a triangular adjusting seat; 28. adjusting the screw rod; 29. adjusting the bearing; 30. adjusting the handle; 31. an adjustment sleeve; 32. adjusting the gear seat; 33. adjusting the gear bearing; 34. a regulating gear rotating shaft; 35. an adjusting gear; 36. and (5) limiting plates made of steel plates.

Detailed Description

The invention is described in detail below with reference to the drawings, which are shown in fig. 1-9.

In the device, the device supplies power by being connected with an external power supply, and the external power supply is electrically connected with the electric telescopic rod 13 and the driving motor 23 through the control switch, so that the operation of the whole device is controlled.

The invention is characterized in that the structural design of the double-crank shaft rotating, stamping and splitting device is combined with an attached drawing 1, an attached drawing 2, an attached drawing 3, an attached drawing 4, an attached drawing 5, an attached drawing 6 and an attached drawing 7, the double-crank shaft rotating, stamping and splitting device comprises a box body 1, wherein a lower crank shaft 3 is arranged on one side below the inner part of the box body 1, two ends of the lower crank shaft 3 are fixedly connected with the box body 1 through a lower crank bearing 4, a lower gear 5 is arranged at one end of the lower crank shaft 3, a plurality of movable sleeves I6 and a plurality of movable sleeves II 7 are sleeved on the lower crank shaft 3, the movable sleeves I6 are uniformly distributed on the lower crank shaft 3, the movable sleeves I7 are uniformly distributed on the lower crank shaft 3, the movable sleeves I6 and the movable sleeves II 7 are distributed in a staggered manner, crank connecting rods I8 are arranged on the movable sleeves I6 and the movable sleeves II 7, a plurality of stamping modules I9 are arranged above the inner part of the box body 1, a plurality of first stamping modules 9 are uniformly distributed above the interior of a box body 1, a first movable seat 10 is arranged on the lower surface of the first stamping module 9, the first movable seat 10 is movably connected with a first crank connecting rod 8, an upper crank shaft 11 is arranged on one side above the box body 1, upper crank bearings 12 are arranged at two ends of the upper crank shaft 11, the upper crank bearings 12 are fixedly connected with the box body 1 through an electric telescopic rod 13, an upper gear 14 is arranged at one end of the upper crank shaft 11, a plurality of movable sleeves three 15 and a plurality of movable sleeves four 16 are sleeved on the upper crank shaft 11, the plurality of movable sleeves three 15 are uniformly distributed on the upper crank shaft 11, the movable sleeves three 15 and the movable sleeves four 16 are distributed in a staggered manner, a second crank connecting rod 17 is arranged on the movable sleeves three 15 and the movable sleeves four 16, and a plurality of second stamping modules 18 are arranged above the upper surface of the box body 1, the stamping module I9 corresponds to the stamping module II 18 one by one, the movable seat II 19 is mounted on the upper surface of the stamping module II 18, the movable seat II 19 is movably connected with the crank connecting rod II 17, the limiting sliding shafts 20 are mounted on the lower surface of the stamping module I9 and two ends of the upper surface of the stamping module II 18, a crank type fixing frame 21 is mounted inside the box body 1 and between the two electric telescopic rods 13, a plurality of sliding sleeves 22 are mounted on the crank type fixing frame 21, the sliding sleeves 22 correspond to the limiting sliding shafts 20 one by one, the limiting sliding shafts 20 are inserted into the sliding sleeves 22, and the limiting sliding shafts 20 are connected with the sliding sleeves 22 in a sliding manner; through the normal running fit of lower crank axle 3 and last crank axle 11, make punching press module 9 and punching press module two 18 be close to the steel sheet simultaneously, and through the punching press power of taking of lower crank axle 3 and last crank axle 11's rotation, carry out the punching press to the stainless steel sheet, can satisfy the slitting work of the stainless steel sheet of various thickness, for driven slitting machine, the effectual application range that improves the device, simultaneously through the cooperation of punching press module 9 and punching press module two 18, can make the stainless steel sheet at slitting in-process, the extrusion is comparatively stable, guarantee the high efficiency of stainless steel sheet punching press slitting, sliding fit through fibre sliding shaft 20 and sliding sleeve 22, can make punching press module 9 and punching press module two 18 can keep the straight-up and down removal, thereby guarantee going on smoothly of punching press slitting work, through electric telescopic handle 13's flexible, the height of crank axle 11 on can be quick regulation, thereby adjust the position of upper crank axle 11 according to different stainless steel sheet thicknesses, adjust simple swift convenient.

The invention of the present solution is characterized in that the structure design of the adjustable transmission device, with reference to fig. 1, fig. 8 and fig. 9, the adjustable transmission device includes a triangular adjusting seat 27, the triangular adjusting seat 27 is located on one side of the box body 1, three adjusting screws 28 are arranged on the outer surface of the triangular adjusting seat 27, the three adjusting screws 28 are respectively located at the centers of three side surfaces of the triangular adjusting seat 27, the adjusting screws 28 are fixedly connected with the triangular adjusting seat 27 through adjusting bearings 29, an adjusting handle 30 is installed at one end of the adjusting screws 28, an adjusting sleeve 31 is sleeved on the adjusting screws 28, the adjusting sleeve 31 is in threaded connection with the adjusting screws 28, an adjusting gear seat 32 is installed at one end of the adjusting sleeve 31, an adjusting gear bearing 33 is installed on the adjusting gear seat 32, an adjusting gear rotating shaft 34 is installed in the adjusting gear bearing 33, an adjusting gear 35 is installed on the adjusting gear rotating shaft 34, the adjusting gear 35 is engaged with the transmission chain 26, the adjusting screw 28 is engaged with the adjusting sleeve 31, the adjusting gear 35, the adjusting seat can be adjusted by the adjusting gear 35, and the adjusting chain can be tightened by the adjusting seat 27, thereby preventing the adjusting seat from being tightened by the adjusting chain 27, and preventing the adjusting seat from being quickly and preventing the adjusting chain from being tightened by the adjusting seat 27 from being suspended in the crankshaft 27, thereby.

In the device, the driving device drives the speed reducer 24 to work through the driving motor 23, so that the speed reducer 24 drives the driving gear 25 to rotate, the driving gear 25 drives the transmission chain 26 to rotate, the lower gear 5 and the upper gear 14 synchronously rotate, and the device performs the stainless steel plate striping work.

In the device, two ends of the upper surface of a first stamping module 9 and two ends of the lower surface of a second stamping module 18 are arc-shaped; can make stainless steel plate carry out the punching press and divide the strip in-process, the steel sheet of not punching press department can not take place to buckle firmly because of the position change of the steel sheet at punching press position to guarantee the integrality of steel sheet itself, avoid steel sheet self intensity to take place the problem.

In this device, the punching press module of one 9 and the punching press module of two 18 of same position department go up and down in turn, can make the punching press module of one 9 and the punching press module of two 18 of same position department be close to the stainless steel board simultaneously to accomplish the slitting work to the stainless steel board.

In this device, the interval between the first stamping module 9 and the second stamping module 18 is the thickness of stainless steel plate, can make stainless steel plate in the punching press slitting in-process, can be in the state that compresses tightly to stability when guaranteeing stainless steel plate slitting.

In the device, the distance between the first movable sleeve 6 and the second movable sleeve 7 is the same as the distance between the third movable sleeve 15 and the fourth movable sleeve 16, so that the distances between all the first stamping modules 9 and all the second stamping modules 18 are synchronously changed, and the smooth slitting operation of the stainless steel plate is ensured. .

In this device, the interval between activity sleeve pipe 6 and the activity sleeve pipe two 7 is the twice of the maximum thickness of the stainless steel plate that can divide the strip of device, can make the device satisfy under the condition of the maximum thickness of the stainless steel pipe steel plate that can divide the strip, the deformation degree of steel sheet punching press back self is in minimum state to guarantee the stainless steel plate and divide the strip quality.

In this device, steel sheet limiting plate 36 is installed to box 1 upper surface both sides, and punching press module one 9 can carry on spacingly to the stainless steel sheet with two 18 and the steel sheet limiting plate 36 sliding contact of punching press module, guarantees the stability of steel sheet when sliding on box 1.

The working principle is as follows:

when the device is required to be used, firstly, the steel plate conveying device is placed on one side of the box body, the steel plate strip winding device is placed on the other side of the box body, and the device is connected with an external power supply through a control switch;

at the moment, the worker starts to adjust the height of the upper crank shaft 11 according to the thickness of the stainless steel plate, controls the two electric telescopic rods 13 to synchronously extend and retract through the control switch, drives the upper crank bearing 12 to start to lift by the telescopic end of the electric telescopic rod 13, enables the two upper crank bearings 12 to drive the upper crank shaft 11 to start to lift, and controls the electric telescopic rods 13 to stop extending and retracting through the control switch when the shortest distance between the upper stamping module 9 and the lower stamping module 18 is the thickness of the plate;

at this time, the worker manually rotates the three adjusting handles 30 on the triangular adjusting base 27, the adjusting handles 30 drive the adjusting screw 28 to start rotating along with the rotation of the adjusting handles 30, while the adjusting handles 30 rotate, the worker holds the adjusting sleeve 31 with the other hand, at this time, along with the rotation of the adjusting screw 28 and through the threaded connection between the adjusting screw 28 and the adjusting sleeve 31, the adjusting screw 28 starts to retract or extend from the inside of the adjusting sleeve 31, so as to adjust the position of the adjusting gear 35, during the adjusting process, when the worker touches the transmission chain 26, when the transmission chain 26 is in a tight state, the worker stops rotating the adjusting handles 30, along with the tight state of the transmission chain 26, the three adjusting gears 35 are subjected to the elastic force of the transmission chain 26, so that the triangular adjusting base 27 is in a fixed state, and at this time, the device has been adjusted;

at the moment, the steel plate conveying device is controlled to start working, the steel plate conveying device conveys the stainless steel plate to the upper part of the box body 1, the stainless steel plate is positioned between the two steel plate limiting plates 36, meanwhile, the stainless steel plate is contacted with the transmission roller 2 on the box body 1 through self gravity, and the stainless steel plate moves on the box body 1 through rolling support of the transmission roller 2 along with the moving force of the stainless steel plate; ,

meanwhile, the driving motor 23 is controlled to start working through a control switch, the driving motor 23 drives the speed reducer 24 to start working, the speed reducer 24 drives the driving gear 25 to start rotating, the driving gear 25 drives the transmission chain 26 to start reciprocating rotation through meshing with the transmission chain 26, the movable sleeve I6 and the movable sleeve II 7 start rotating around the lower crank shaft 3 along with the rotation of the transmission chain 26 and the meshing of the transmission chain 26 with the lower gear 5 and the upper gear 14, the lower gear 5 and the upper gear 14 start rotating, the lower crank shaft 3 is driven by the rotation of the lower gear 5, the movable sleeve I6 and the movable sleeve II 7 start rotating around the lower crank shaft 3 along with the rotation of the movable sleeve I6 and the movable sleeve II 7, the movable sleeve I6 drives the punching module I9 at the position of the movable sleeve I6 to reciprocate up and down through the crank connecting rod I8, the movable sleeve II 7 drives the punching module I9 at the position of the movable sleeve II 7 to reciprocate up and down through the crank connecting rod I8, and the punching module I9 at the position of the movable sleeve I6 and the movable sleeve II 7 are opposite in reciprocating motion;

the rotation of the upper gear 14 drives the upper crankshaft 11 to rotate, the movable sleeve three 15 and the movable sleeve four 16 start to rotate around the upper crankshaft 11 along with the rotation of the upper crankshaft 11, the movable sleeve three 15 and the movable sleeve four 16 drive the punching module two 18 at the movable sleeve three 15 to move up and down in a reciprocating manner through the crank connecting rod two 17 along with the rotation of the movable sleeve three 15 and the movable sleeve four 16, the movable sleeve four 16 drives the punching module two 18 at the movable sleeve four 16 to move up and down in a reciprocating manner through the crank connecting rod two 17, meanwhile, the punching module two 18 at the movable sleeve three 15 and the punching module two 18 at the movable sleeve four 16 are opposite in the up and down reciprocating manner, when the punching module one 9 at the movable sleeve one 6 descends, the punching module two 18 at the movable sleeve three 15 and the punching module one 9 at the movable sleeve one 6 simultaneously ascend, so that the punching module one 9 at the movable sleeve two 7 and the punching module two 18 at the movable sleeve four 15 are close to the stainless steel plate, and the punching module one 9 at the movable sleeve four sleeve 16 is far away from the stainless steel plate;

when the stainless steel plate is conveyed to the box body 1, along with the movement of the stainless steel plate, the stainless steel plate moves to a position between the first stamping module 9 and the second stamping module 18, the stainless steel plate is close to and is in contact with the stainless steel plate through the first stamping module 9 at the first movable sleeve 6 position and the second stamping module 18 at the third movable sleeve 15 position, the stainless steel plate is stamped through the first stamping module 9 and the second stamping module 18, the stainless steel plate is clamped through the first stamping module 9 and the second stamping module 18, then the stainless steel plate is stamped and separated through the first stamping module 9 and the second stamping module 18, so that the separation work of the stainless steel plate is completed, along with the work of the driving motor 23, the first stamping module 9 at the first movable sleeve 6 position and the second stamping module 18 at the third movable sleeve 15 position start to be away from the stainless steel plate at the same time, but the first stamping module 9 at the second movable sleeve 7 position and the second stamping module 18 at the fourth movable sleeve 16 position start to be close to the stainless steel plate at the same time, along with the first stamping module 9 at the second movable sleeve 7 position and the fourth stamping module 18 at the fourth movable sleeve 16 position, the stainless steel plate contacts with the stainless steel plate, and the stainless steel plate is cut off, so that the stainless steel plate is cut off again, and the stainless steel plate is cut off;

the stainless steel plate is continuously conveyed by the steel plate conveying device, so that the stainless steel plate moves on the box body 1, the steel plate is punched and stripped through the cooperation of the first punching module 9 and the second punching module 18, and along with the high-speed rotation of the driving motor 23, although the speed reducer 24 is used for greatly reducing the speed, the rotating speeds of the lower crank shaft 3 and the upper crank shaft 11 are still higher, so that the stainless steel plate is clamped for a shorter time in the process of punching and stripping, and the conveying of the stainless steel plate is not greatly influenced;

after the stainless steel plate is punched and stripped, the stripped stainless steel plate strip continues to move through the conveying of the stainless steel plate, the stainless steel plate strip is removed from the box body 1 through the support of the transmission roller 2 at the rear end of the upper surface of the box body 1, and the stainless steel plate strip is coiled through the steel plate strip coiling device;

in this device, when punching press module 9 and punching press module 18 go on reciprocating lifting, punching press module 9 and punching press module 18 can drive spacing sliding shaft 20 and go up and down in step, and through the sliding fit of spacing sliding shaft 20 and sliding sleeve 22, carry out spacingly to punching press module 9 and punching press module 18, guarantee that punching press module 9 and punching press module 18 can not take place the condition of skew at reciprocating lifting in-process to make going on that punching press work can be smooth.

The technical solutions described above only represent the preferred technical solutions of the present invention, and some possible modifications to some parts of the technical solutions by those skilled in the art all represent the principles of the present invention, and fall within the protection scope of the present invention.

Claims (7)

1. The efficient and intelligent automatic stainless steel plate stamping and slitting equipment comprises a box body (1) and transmission rollers (2) arranged on two sides above the interior of the box body (1), wherein the upper ends of the transmission rollers (2) are exposed out of the upper surface of the box body (1), a driving device is arranged in the box body (1), and the efficient and intelligent automatic stainless steel plate stamping and slitting equipment is characterized in that a double-crank shaft rotating stamping and slitting device is arranged on the box body (1), and an adjusting type transmission device is arranged on one side of the box body (1);

the double-crank-shaft rotating, punching and slitting device comprises a lower crank shaft (3) arranged on one side of the inner lower side of a box body (1), two ends of the lower crank shaft (3) are fixedly connected with the box body (1) through a lower crank bearing (4), a lower gear (5) is installed at one end of the lower crank shaft (3), a plurality of movable sleeves I (6) and a plurality of movable sleeves II (7) are sleeved on the lower crank shaft (3), the movable sleeves I (6) are uniformly distributed on the lower crank shaft (3), the movable sleeves II (7) are uniformly distributed on the lower crank shaft (3), and the movable sleeves I (6) and the movable sleeves II (7) are distributed in a staggered manner, install crank connecting rod (8) on movable sleeve pipe (6) and movable sleeve pipe two (7), the inside top of box (1) is equipped with a plurality of punching press module (9), a plurality of punching press module (9) evenly distributed is in the inside top of box (1), install sliding seat (10) on punching press module (9) lower surface, sliding seat (10) and crank connecting rod (8) swing joint, box (1) top one side is equipped with crank axle (11), crank bearing (12) are installed to the both ends of going up crank axle (11), go up through electric telescopic handle (13) between crank bearing (12) and box (1) ) Fixed connection, go up the one end of crankshaft (11) and install gear (14), it is equipped with a plurality of movable sleeve pipe three (15) and a plurality of movable sleeve pipe four (16) to go up crankshaft (11) and go up the cover, a plurality of movable sleeve pipe three (15) evenly distributed are on last crankshaft (11), a plurality of movable sleeve pipe four (16) evenly distributed are on last crankshaft (11), movable sleeve pipe three (15) and movable sleeve pipe four (16) crisscross distribution, install crank connecting rod two (17) on movable sleeve pipe three (15) and movable sleeve pipe four (16), box (1) upper surface top is equipped with a plurality of punching press module two (18), punching press module one (9) and punching press module two (18) one-to-one, the upper surface mounting of punching press module two (18) has movable seat two (19), movable seat two (19) and crank connecting rod two (17) swing joint, spacing axle (20) are installed to the lower surface of punching press module one (9) and the upper surface both ends of punching press module two (18), install between box (1) inside and two electronic crank shaft (13) sliding support (21), telescopic link sliding shaft (21) one-to-by-one the telescopic link (21) is corresponding to telescopic link (22), the limiting sliding shaft (20) is inserted into the sliding sleeve (22), and the limiting sliding shaft (20) is connected with the sliding sleeve (22) in a sliding manner;

the driving device comprises a driving motor (23) mounted on the other side of the lower portion of the inner portion of the box body (1), a speed reducer (24) is mounted on one side of the driving motor (23), the rotating end of the driving motor (23) is fixedly connected with the input end of the speed reducer (24), the output end of the speed reducer (24) extends out of the box body (1), a driving gear (25) is mounted at the output end of the speed reducer (24), and a transmission chain (26) is sleeved on the driving gear (25), the lower gear (5) and the upper gear (14);

adjusting type transmission includes triangle-shaped regulation seat (27), triangle-shaped regulation seat (27) are located box (1) one side, the outside of triangle-shaped regulation seat (27) is equipped with three adjusting screw (28) on the surface, three adjusting screw (28) are located the three side surface center department that triangle-shaped regulated seat (27) respectively, adjust through adjusting bearing (29) fixed connection between screw (28) and triangle-shaped regulation seat (27), adjust handle (30) are installed to the one end of adjusting screw (28), the cover is equipped with adjusting sleeve (31) on adjusting screw (28), adjusting sleeve (31) and adjusting screw (28) threaded connection, adjusting gear seat (32) are installed to the one end of adjusting sleeve (31), install adjusting gear bearing (33) on adjusting gear seat (32), install adjusting gear pivot (34) in adjusting gear bearing (33), install adjusting gear (35) on adjusting gear pivot (34), adjusting gear (35) interlock mutually with drive chain (26).

2. The efficient and intelligent automatic stainless steel plate stamping and slitting equipment as claimed in claim 1, wherein two ends of the upper surface of the first stamping module (9) and two ends of the lower surface of the second stamping module (18) are arc-shaped.

3. An efficient and intelligent automatic stainless steel plate stamping and slitting device as claimed in claim 1, wherein the first stamping module (9) and the second stamping module (18) at the same position are lifted and lowered alternately.

4. An efficient and intelligent automatic stainless steel plate stamping and slitting device as claimed in claim 1, wherein the interval between the first stamping module (9) and the second stamping module (18) is the thickness of the stainless steel plate.

5. An efficient and intelligent automatic stainless steel plate stamping and slitting device as claimed in claim 1, wherein the distance between the first movable sleeve (6) and the second movable sleeve (7) is the same as the distance between the third movable sleeve (15) and the fourth movable sleeve (16).

6. An efficient and intelligent automatic stainless steel plate stamping and slitting device as claimed in claim 1, wherein the distance between the first movable sleeve (6) and the second movable sleeve (7) is twice as large as the maximum thickness of a stainless steel plate which can be slit by the device.

7. The efficient and intelligent automatic stainless steel plate stamping and slitting equipment as claimed in claim 1, wherein steel plate limiting plates (36) are mounted on two sides of the upper surface of the box body (1), and the first stamping module (9) and the second stamping module (18) are in sliding contact with the steel plate limiting plates (36).

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