CN116037736B

CN116037736B - Coaxial cam double-drive edge pressing mechanism for steel belt ring forming

Info

Publication number: CN116037736B
Application number: CN202310209948.7A
Authority: CN
Inventors: 陆洪涛; 车福广
Original assignee: Cangzhou Hongtao Intelligent Equipment Co ltd
Current assignee: Cangzhou Hongtao Intelligent Equipment Co ltd
Priority date: 2023-03-07
Filing date: 2023-03-07
Publication date: 2023-05-30
Anticipated expiration: 2043-03-07
Also published as: CN116037736A

Abstract

The invention discloses a coaxial cam double-drive edge pressing mechanism for forming a steel belt ring, which comprises a frame, wherein a riding wheel and a first driving device for driving the riding wheel to rotate are arranged on the frame, a baffle disc for blocking the rear side of the steel belt ring is arranged on the rear side of the riding wheel on the frame, a first movable frame and a second movable frame are arranged on the frame, a pressing wheel and an edge pressing wheel are arranged on the first movable frame, a transverse shaft and a second driving device are arranged on the frame, a first cam and a second cam are arranged on the transverse shaft, and a rebound mechanism is arranged on the frame. The edge pressing wheel presses the side edge of the steel belt ring from the upper side of the steel belt ring, so that the axial force applied to the steel belt ring is small, and edge warping of the rear side of the steel belt ring is avoided; through second drive arrangement drive cross axle rotation, first cam and second cam can drive first removal frame and second respectively and remove the frame and reciprocate, and pinch roller and blank holder stable cooperation circulate the reciprocates, need not two solitary drive arrangement and cooperates, and convenience and stability are higher.

Description

Coaxial cam double-drive edge pressing mechanism for steel belt ring forming

Technical Field

The invention relates to the technical field of steel belt ring forming equipment, in particular to a coaxial cam double-drive edge pressing mechanism for steel belt ring forming.

Background

The processing of the steel belt ring comprises feeding, cutting, welding and other processes, automatic welding forming can be carried out through welding equipment, when the steel belt ring is used for making barrel bottoms and other conditions, one end of the steel belt ring is required to be subjected to edge pressing through an edge pressing mechanism, the current edge pressing mechanism works in a mode that the steel belt ring is clamped and rotated through two relatively rotating wheels, then an edge pressing wheel axially moves towards the steel belt ring at one end of the steel belt ring, the end of the steel belt ring is subjected to edge pressing, the edge pressing wheel axially moves to apply a large axial force to the steel belt ring, the edge curling phenomenon is easy to occur at one end of the steel belt ring, which is not subjected to edge pressing, and the quality of a finished product is influenced; the opening and closing actions of the two wheels clamping the steel belt ring and the feeding actions of the edge pressing wheels are driven by two independent driving devices, the actions of the two driving devices are matched by a singlechip, and convenience and stability are not high.

Disclosure of Invention

The invention aims to avoid the defects in the prior art and provides a coaxial cam double-drive edge pressing mechanism for forming a steel belt ring, so that the defects in the prior art are effectively overcome.

In order to achieve the above purpose, the technical scheme adopted by the invention is as follows: the utility model provides a coaxial cam double-drive blank holder for steel band ring shaping, includes the frame, is provided with the riding wheel and the first drive arrangement of drive riding wheel pivoted that are used for holding the steel band ring inboard in the frame, be provided with the fender dish that keeps off at the steel band ring rear side in the rear side of riding wheel in the frame, be provided with first removal frame and second in the upside of riding wheel in the frame, be provided with the pinch roller on the first removal frame that cooperates the riding wheel, be provided with the blank holder on the second removal frame that cooperates the riding wheel, be provided with cross axle and drive cross axle pivoted second drive arrangement in the upside of first removal frame and second removal frame in the frame, be provided with first cam on the cross axle cooperation second removal frame, first cam includes first push down section, first constant diameter section and first upward lift section, second cam includes second quick push down section and second upward lift section, be provided with in the frame and tend to force the rebound mechanism on first removal frame and the second removal frame.

Further, the outer fringe of blank holder wheel includes toper face of bending and arc shaping face, still is provided with the fender edge in the outside of toper face of bending on the blank holder wheel, be provided with first slow pressure section on the first cam between first section of pressing and first constant diameter section, be provided with the second constant diameter section on the second cam between second fast pressure section and second slow pressure section.

Further, a second pressing section is arranged between the second slow pressing section and the second lifting section on the second cam.

Further, a plurality of baffle shafts are rotatably arranged on the rear side of the steel belt ring on the frame.

Further, the baffle plate can be arranged on the rack in a back-and-forth moving way, the baffle plate and the baffle shaft are both rotatably arranged on the baffle plate, and the rack is provided with a baffle plate adjusting mechanism for driving the baffle plate to move back and forth.

Further, the plate adjusting mechanism comprises an adjusting screw rod which is rotatably arranged on the baffle plate, the adjusting screw rod is in threaded connection with the rack, the adjusting screw rods are transmitted through a synchronous belt, and a third driving device for driving the adjusting screw rod to rotate is arranged on the baffle plate.

Further, a stop lever capable of stopping at the front side of the steel belt ring and a fourth driving device for driving the stop lever to move back and forth are arranged on the frame.

Further, a push plate capable of pushing out the steel belt ring forwards and a fifth driving device for driving the push plate to move forwards and backwards are arranged on the frame.

Furthermore, two guide rods are arranged on the frame and matched with steel belt rings on two sides of the riding wheel.

Further, the both sides of first movable frame are provided with the depression bar, and rotatable being provided with the shockproof wheel on the depression bar, be provided with the lever mechanism of vertical regulation depression bar position on the first movable frame.

The technical scheme of the invention has the following beneficial effects: the edge pressing wheel presses the side edge of the steel belt ring from the upper side of the steel belt ring, so that the axial force applied to the steel belt ring is small, and edge warping of the rear side of the steel belt ring is avoided; through second drive arrangement drive cross axle rotation, first cam and second cam can drive first removal frame and second respectively and remove the frame and reciprocate, and pinch roller and blank holder stable cooperation circulate the reciprocates, need not two solitary drive arrangement and cooperates, and convenience and stability are higher.

Drawings

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

FIG. 2 is a perspective view of a steel belt loop according to an embodiment of the present invention placed on a riding wheel;

FIG. 3 is a perspective view of an embodiment of the present invention at a lateral axis, a first mobile carriage and a second mobile carriage;

FIG. 4 is a cross-sectional view of an embodiment of the present invention at a transverse axis, a first movable frame, and a second movable frame;

FIG. 5 is a perspective view of a bearing portion of a pair of steel belts on a frame according to an embodiment of the present invention;

FIG. 6 is a perspective view of the bearing portion of the steel belt loop in another angle on the frame of the present invention;

FIG. 7 is a cross-sectional view of an embodiment of the invention at the edge of a blank holder;

FIG. 8 is a schematic side view of a first cam according to an embodiment of the present invention;

FIG. 9 is a schematic side view of a second cam according to an embodiment of the present invention;

FIG. 10 is a diagram showing the positional relationship between the pinch roller and the edge roller and the riding wheel when the first cam and the second cam rotate 0 degrees;

FIG. 11 is a diagram showing the positional relationship between the pinch roller and the edge roller and the riding wheel when the first cam and the second cam rotate 90 degrees;

FIG. 12 is a diagram showing the positional relationship between the pinch roller and the edge roller and the riding wheel when the first cam and the second cam rotate 135 degrees;

FIG. 13 is a diagram showing the positional relationship between the pinch roller and the edge roller and the riding wheel when the first cam and the second cam rotate 270 degrees.

Detailed Description

Embodiments of the present invention are described in further detail below with reference to the accompanying drawings and examples. The following examples are illustrative of the invention but are not intended to limit the scope of the invention.

In the description of the present invention, unless otherwise indicated, the meaning of "a plurality" is two or more; the terms "upper," "lower," "left," "right," "inner," "outer," "front," "rear," "head," "tail," and the like are used as an orientation or positional relationship based on that shown in the drawings, merely to facilitate description of the invention and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the invention. In the description of the present invention, it should be noted that, unless explicitly specified and limited otherwise, the terms "connected," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art.

As shown in fig. 1-9, the coaxial cam double-drive edge pressing mechanism for forming the steel belt ring in this embodiment comprises a frame 1, a riding wheel 11 for supporting the inner side of the steel belt ring 0 and a first driving device 12 for driving the riding wheel 11 to rotate are arranged on the frame 1, the riding wheel 11 is used for supporting the inner ring of the steel belt ring 0, a baffle disc 13 which is blocked at the rear side of the steel belt ring 0 is arranged on the rear side of the riding wheel 11 on the frame 1, the baffle disc 13 is used for positioning and aligning the rear side of the steel belt ring 0, a first moving frame 2 and a second moving frame 3 are arranged on the upper side of the riding wheel 11 on the frame 1, the first moving frame 2 and the second moving frame 3 can respectively move on the frame 1 through a slide rail-slide block structure, a pinch roller 21 is arranged on the first moving frame 2 in cooperation with the riding wheel 11, the second movable frame 3 is provided with a blank holder 31 in cooperation with the riding wheel 11, the upper sides of the first movable frame 2 and the second movable frame 3 are provided with a transverse shaft 14 and a second driving device 15 for driving the transverse shaft 14 to rotate, the transverse shaft 14 is provided with a first cam 4 in cooperation with the first movable frame 2, the transverse shaft 14 is provided with a second cam 5 in cooperation with the second movable frame 3, the first cam 4 comprises a first pressing section 41, a first constant diameter section 43 and a first lifting section 44, the second cam 5 comprises a second quick pressing section 51, a second slow pressing section 53 and a second lifting section 55, and the frame 1 is provided with a rebound mechanism 16 tending to force the first movable frame 2 and the second movable frame 3 to move upwards; in this embodiment, the first driving device 12 is a motor, the second driving device 15 is a motor, the rebound mechanism 16 is a spring, springs are arranged between the first moving frame 2 and the frame 1, and between the second moving frame 3 and the frame 1, the surface of the pressing wheel 21 is made of rubber, and the upper ends of the first moving frame 2 and the second moving frame 3 can be provided with rotating wheels to be respectively matched with the first cam 4 and the second cam 5; in addition, a sliding block 32 which is adjusted left and right can be arranged on the lower side of the second movable frame 3, the sliding block 32 is fixed on the second movable frame 3 through bolts, the edge pressing wheel 31 is arranged on the sliding block 32, the sliding block 32 moves left and right to adjust the distance between the edge pressing wheel 31 and the riding wheel 11, and the edge pressing is performed by adapting to steel belt rings with different thicknesses;

after the steel belt is welded into the steel belt ring 0, the steel belt is clamped on the riding wheel 11 through a clamping mechanism, then the second driving device 15 drives the transverse shaft 14 to drive the first cam 4 and the second cam 5 to rotate, so that the first movable frame 2 and the second movable frame 3 vertically move, the pressing wheel 21 is pressed on the steel belt ring 0, then the edge pressing wheel 31 gradually performs edge pressing operation on the front end of the steel belt ring 0 from top to bottom, the axial force applied to the steel belt ring 0 is small, and edge curling on the rear side of the steel belt ring 0 is avoided; the pinch roller 21 and the edge pressing wheel 31 are stably matched to circularly move up and down, two independent driving devices are not needed for matching, and convenience and stability are high;

preferably, the outer edge of the edge pressing wheel 31 comprises a conical bending surface 312 and an arc forming surface 313, a blocking edge 311 is further arranged on the edge pressing wheel 31 outside the conical bending surface 312, a first slow pressing section 42 is arranged between the first lower pressing section 41 and the first equal diameter section 43 on the first cam 4, a second equal diameter section 52 is arranged between the second fast pressing section 51 and the second slow pressing section 53 on the second cam 5, the first cam 4 and the second cam 5 synchronously rotate, when the rotation angle reaches the first lower pressing section 41 and the second fast pressing section 51, both the pressing wheel 21 and the edge pressing wheel 31 are in a fast descending state, then the second cam 5 rotates to the second equal diameter section 52, at the moment, the blocking edge 311 of the edge pressing wheel 31 is blocked at the front end of the steel belt ring 0, the stability of the steel belt ring 0 is maintained, the steel belt ring 0 is prevented from being in an inclined state when the pressing wheel 21 presses the steel belt ring 0, the first cam 4 rotates to the first slow pressing section 42, and the pressing wheel 21 slowly descends until the pressing wheel 21 presses on the steel belt ring 0;

preferably, a second isobaric section 54 is arranged between the second slow pressing section 53 and the second lifting section 55 on the second cam 5, and when the second cam 5 rotates to the second isobaric section 54, the arc-shaped forming surface 313 of the edge pressing wheel 31 keeps pressing the edge-pressed steel belt ring 0, so that the rebound of the edge bending is reduced;

in this embodiment, the first pressing section 41 of the first cam 4 is 0 to 90 ° in the circumferential direction, the first slow pressing section 42 is 90 to 135 °, the first constant diameter section 43 is 135 to 285 °, and the first lifting section 44 is 285 to 0 °; the second quick-pressing section 51 of the second cam 5 is 0-90 degrees in the circumferential direction, the second constant diameter section 52 is 90-135 degrees, the second slow-pressing section 53 is 135-270 degrees, the second constant-pressing section 54 is 270-285 degrees, and the second lifting section 55 is 285-0 degrees;

preferably, a plurality of blocking shafts 17 are rotatably arranged on the frame 1 at the rear side of the steel belt ring 0, the blocking shafts 17 are radially arranged, the blocking shafts 17 can block the side surface of the steel belt ring 0, and the stability of the steel belt ring 0 is improved in the edge pressing process;

preferably, a baffle plate 6 is arranged on the frame 1 in a back and forth movable way, a baffle plate 13 and a baffle shaft 17 are both rotatably arranged on the baffle plate 6, a plate adjusting mechanism for driving the baffle plate 6 to move back and forth is arranged on the frame 1, after the steel belt ring 0 is placed on the riding wheel 11, the forward protruding part of the steel belt ring 0 is a part to be curled, wherein the distance between the baffle plate 13 and the front end of the riding wheel 11 is the width of the steel belt ring 0, when the widths of the steel belt rings 0 to be processed are different, the plate adjusting mechanism can drive the baffle plate 6 to move back and forth, the distance between the baffle plate 13 and the front end of the riding wheel 11 is adjusted, and the steel belt rings 0 with different widths are matched for edge pressing;

preferably, the plate adjusting mechanism comprises adjusting screws 61 rotatably arranged on the baffle plates 6, the adjusting screws 61 are in threaded connection with the frame 1, the adjusting screws 61 are driven by a synchronous belt 62, a third driving device 63 for driving the adjusting screws 61 to rotate is arranged on the baffle plates 6, the third driving device 63 is a motor, the motor drives the adjusting screws 61 to rotate, and the adjusting screws 61 are driven by the synchronous belt 62 to drive the baffle plates 6 to move on the frame 1 along the adjusting screws 61;

preferably, the frame 1 is provided with a stop lever 7 capable of stopping at the front side of the steel belt ring 0 and a fourth driving device 71 for driving the stop lever 7 to move back and forth, the fourth driving device 71 is an air cylinder, and after the steel belt ring 0 is placed on the riding wheel 11, the fourth driving device 71 can drive the stop lever 7 to stop at the front side of the steel belt ring 0, so that the steel belt ring 0 is abutted against the stop disc 13;

preferably, a push plate 8 capable of pushing out the steel belt ring 0 forwards and a fifth driving device 81 for driving the push plate 8 to move forwards and backwards are arranged on the frame 1, the fifth driving device 81 is an air cylinder, and after the edge pressing of the steel belt ring 0 is completed, the air cylinder drives the push plate 8 to push out the steel belt ring 0 forwards so as to prepare for the edge pressing work of the next steel belt ring 0; in this embodiment, the fifth driving device 81 is disposed on the baffle 6, and the fifth driving device 81 can adjust the position of the baffle 6 back and forth;

preferably, two guide rods 18 are arranged on the frame 1 on two sides of the riding wheel 11 in cooperation with the steel belt rings 0, when the steel belt rings 0 are placed on the riding wheel 11, the guide rods 18 play a guiding role, and the guide rods 18 are also pressed on the upper sides of the steel belt rings 0, so that vibration of the steel belt rings 0 during rotation is reduced;

preferably, two sides of the first movable frame 2 are provided with pressure rods 23, the pressure rods 23 are rotatably provided with shockproof wheels 24, the first movable frame 2 is provided with a rod adjusting mechanism for vertically adjusting the position of the pressure rods 23, the shockproof wheels 24 move up and down along with the first movable frame 2, and along with pressing wheels 21 pressing on the steel belt rings 0 together, the rod adjusting mechanism can adjust the height of the shockproof wheels 24 and can be matched with the steel belt rings 0 with different diameters;

in this embodiment, the lever adjusting mechanism is a rack 25, a gear 26 matched with the rack 25 is disposed on the pressure lever 23, a swinging disc 27 driving the gear 26 to rotate is disposed on the pressure lever 23, a swinging groove is disposed on the swinging disc 27, the swinging disc 27 is fastened on the pressure lever 23 through a bolt penetrating through the swinging groove, the swinging disc 27 can drive the gear 26 to rotate when rotating, the gear 26 is matched with the rack 25, the pressure lever 23 moves up and down along the rack 25, after the position is adjusted, the swinging disc 27 is fixed on the pressure lever 23 through the bolt, and the height adjustment of the shockproof wheel 24 is completed.

The working process of the embodiment is as follows:

the first stage: as shown in fig. 10, the second driving device 15 drives the transverse shaft 14 to rotate, the first cam 4 is an ascending section matched with the first moving frame 2, the second cam 5 is an ascending section matched with the second moving frame 3, after the steel belt is welded into the steel belt ring 0, the steel belt ring 0 is clamped between the riding wheel 11 and the guide rod 18 at this stage, and then the fourth driving device 71 drives the stop lever 7 to push the steel belt ring 0 backwards, so that the steel belt ring 0 is abutted against the stop disc 13;

and a second stage: as shown in fig. 11, the first cam 4 rotates to the first slow pressing section 42 to be matched with the first moving frame 2, the second cam 5 rotates to the second constant diameter section 52 to be matched with the second moving frame 3, the blocking edge 311 of the edge pressing wheel 31 is blocked on the front side of the steel belt ring 0, and the pressing wheel 21 slowly descends until pressing on the steel belt ring 0;

and a third stage: as shown in fig. 12, the first cam 4 rotates to the first constant diameter section 43 to be matched with the first moving frame 2, the second cam 5 rotates to the second slow pressing section 53 to be matched with the second moving frame 3, the pressing wheel 21 keeps pressing on the steel belt ring 0 at the moment, the first driving device 12 drives the riding wheel 11 to rotate to drive the steel belt ring 0 to rotate, and the conical bending surface 312 of the edge pressing wheel 31 gradually moves downwards to bend the front end of the steel belt ring 0;

fourth stage: as shown in fig. 13, the first cam 4 rotates to the first constant diameter section 43 to be matched with the first moving frame 2 in the interval of 270-285 degrees, the second cam 5 rotates to the second constant diameter section 52 to be matched with the second moving frame 3, the pressing wheel 21 still keeps pressing on the steel belt ring 0 at the moment, the edge pressing wheel 31 moves down to the arc forming surface 313 to be matched with the steel belt ring 0, and the steel belt ring 0 keeps a shaping state;

fifth stage: the first cam 4 rotates to the first lifting section 44 to be matched with the first movable frame 2, the second cam 5 rotates to the second lifting section 55 to be matched with the second movable frame 3, the first movable frame 2 and the second movable frame 3 are lifted upwards through springs, the pinch roller 21 and the edge pressing wheel 31 move upwards to be separated from the steel belt ring 0, the fifth driving device 81 drives the push plate 8 to push the steel belt ring 0 forwards, and the edge pressing work of the next steel belt ring 0 is ready to be circulated.

The embodiments of the invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims

1. Coaxial cam double-drive edge pressing mechanism for steel belt ring forming is characterized in that: the automatic lifting device comprises a frame, wherein a riding wheel used for supporting the inner side of a steel belt ring and a first driving device used for driving the riding wheel to rotate are arranged on the frame, a baffle disc which is blocked on the rear side of the steel belt ring is arranged on the rear side of the riding wheel on the frame, a first moving frame and a second moving frame are arranged on the upper side of the riding wheel on the frame, a pinch roller is arranged on the first moving frame in a matched mode, a blank holder is arranged on the second moving frame in a matched mode, a transverse shaft and a second driving device used for driving the transverse shaft to rotate are arranged on the upper side of the first moving frame and the upper side of the second moving frame, a first cam is arranged on the transverse shaft in a matched mode, a second cam is arranged on the transverse shaft in a matched mode, the first cam comprises a first pressing section, a first constant diameter section and a first lifting section, a second quick pressing section and a second lifting section, and a rebound mechanism which tends to force the first moving frame and the second moving frame to move upwards is arranged on the frame.

2. The coaxial cam double-drive edge pressing mechanism for forming a steel belt ring according to claim 1, wherein: the outer fringe of blank holder wheel includes toper face of bending and arc shaping face, still is provided with the fender edge in the outside of toper face of bending on the blank holder wheel, be provided with first slow pressure section on the first cam between first section of pressing and first constant diameter section, be provided with second constant diameter section on the second cam between second fast pressure section and second slow pressure section.

3. The coaxial cam double-drive edge pressing mechanism for forming a steel belt ring according to claim 2, wherein: and a second equal-pressure section is arranged between the second slow-pressure section and the second lifting section on the second cam.

4. The coaxial cam double-drive edge pressing mechanism for forming a steel belt ring according to claim 1, wherein: a plurality of baffle shafts are rotatably arranged on the rear side of the steel belt ring on the frame.

5. The coaxial cam double-drive edge pressing mechanism for forming a steel belt ring according to claim 4, wherein: the baffle plate is characterized in that a baffle plate which moves back and forth is arranged on the frame, the baffle plate and the baffle shaft are both rotatably arranged on the baffle plate, and a plate adjusting mechanism which drives the baffle plate to move back and forth is arranged on the frame.

6. The coaxial cam double-drive edge pressing mechanism for forming a steel belt ring according to claim 5, wherein: the plate adjusting mechanism comprises an adjusting screw rod arranged on the baffle plate, the adjusting screw rod is in threaded connection with the frame, the adjusting screw rods are transmitted through a synchronous belt, and a third driving device for driving the adjusting screw rod to rotate is arranged on the baffle plate.

7. The coaxial cam double-drive edge pressing mechanism for forming a steel belt ring according to claim 1, wherein: the frame is provided with a stop lever which is blocked at the front side of the steel belt ring and a fourth driving device which drives the stop lever to move back and forth.

8. The coaxial cam double-drive edge pressing mechanism for forming a steel belt ring according to claim 1, wherein: the frame is provided with a push plate for pushing out the steel belt ring forwards and a fifth driving device for driving the push plate to move forwards and backwards.

9. The coaxial cam double-drive edge pressing mechanism for forming a steel belt ring according to claim 1, wherein: two guide rods are arranged on the frame and matched with steel belt rings on two sides of the riding wheel.

10. The coaxial cam double-drive edge pressing mechanism for forming a steel belt ring according to claim 1, wherein: the two sides of the first movable frame are provided with pressure rods, the pressure rods are rotatably provided with shockproof wheels, and the first movable frame is provided with a rod adjusting mechanism for vertically adjusting the positions of the pressure rods.