CN112974578A - High-speed full-automatic bending belt production equipment - Google Patents

Abstract

The invention discloses high-speed full-automatic bending belt production equipment which comprises a rack, wherein the rack is sequentially connected with a feeding hole, a feeding mechanism, a cutting mechanism, a bending mechanism and a discharging mechanism; the feeding mechanism comprises a first motor and two feeding wheels which are aligned up and down, the first motor drives the feeding wheels to rotate, a second motor is further arranged in the rack, the second motor drives the cutting mechanism to cut off and the bending mechanism to bend simultaneously through the conveying belt, the discharging mechanism comprises a cylinder and a pushing piece, the cylinder is arranged in the rack and connected to the pushing piece, and the cylinder drives the pushing piece to do linear reciprocating motion perpendicular to the plane where the bending mechanism is located. According to the automatic feeding device, automatic feeding is realized through the feeding mechanism, the cutting mechanism performs equal-length cutting on the raw materials, the bending mechanism performs stamping on the cut raw materials to enable the cut raw materials to be deformed into metal pieces with two bent ends, mechanical automation is realized in the machining process, manual machining is avoided, the production efficiency is improved, and the reject ratio is reduced.

Description

High-speed full-automatic bending belt production equipment

Technical Field

The invention relates to the technical field of bending processing, in particular to high-speed full-automatic bending belt production equipment.

Background

In machining, bending processing is often required to be performed on a strip-shaped metal part; the raw material for producing the strip-shaped metal part is a strip-shaped metal strip, the metal strip needs to be cut into a plurality of strip-shaped metal parts with equal length during processing, and then two ends of the strip-shaped metal parts are bent. The manual bending not only causes the radian of bending to be difficult to master, and the manual bending is inefficient, and some current bending devices can be used for punching and bending the two ends of the strip-shaped metal part, but can not be used for bending a plurality of strip-shaped metal parts in batches, so that the strip-shaped metal parts which are bent in batches can not be produced.

Disclosure of Invention

In order to solve the problems, the invention aims to provide high-speed full-automatic bending strip production equipment for batch processing of bending strip-shaped metal parts.

The purpose of the invention is realized by adopting the following technical scheme:

a high-speed full-automatic bending belt production device comprises a rack, wherein the rack is sequentially connected with a feeding hole, a feeding mechanism, a cutting mechanism, a bending mechanism and a discharging mechanism; the feeding mechanism comprises a first motor and two feeding wheels which are arranged in an up-and-down alignment mode, the first motor drives the feeding wheels to rotate, a second motor is further arranged in the rack and drives the cutting mechanism to perform cutting action and the bending mechanism to perform bending action at the same time through a conveying belt, the blanking mechanism comprises an air cylinder and a pushing piece, the air cylinder is arranged in the rack and connected to the pushing piece, and the air cylinder drives the pushing piece to perform linear reciprocating motion perpendicular to a plane where the bending mechanism is located.

Further, the cutting mechanism comprises a first transmission arm and a cutting head, the bending mechanism comprises a gear set, a second transmission arm and a stamping part, the cutting head is arranged on one side of the feeding wheel, the first transmission arm is arranged outside the rack, one end of the first transmission arm is connected with the cutting head, and the other end of the first transmission arm is connected with one end of the conveying belt; one end of the second transmission arm is provided with a toothed chain, the other end of the second transmission arm is connected with the other end of the transmission belt, and the toothed chain is meshed with the gear set; the second motor drives the transmission belt to rotate so as to drive the first transmission arm and the second transmission arm to reciprocate up and down; under the drive of the second motor, the first transmission arm drives the cutting head to do vertical linear reciprocating motion; the gear set drives the stamping part to rotate and the stamping part is arranged on one side of the cutting head.

Further, unloading mechanism still includes electronic guide rail and movable clamp plate, electronic guide rail is located the frame top and movable clamp plate can in electronic guide rail goes up to slide, the stamping workpiece with movable clamp plate aligns the setting.

Further, the feed inlet still is equipped with the feeding wheel, the feeding wheel horizontal alignment set up in the left and right sides of feed inlet.

Furthermore, the cutting mechanism also comprises a wire guide plate, the wire guide plate is provided with a through hole which penetrates through the wire guide plate from left to right, and the wire guide plate is arranged between the feeding wheel and the cutting head.

Further, the machine frame also comprises a material arranging mechanism, and the material arranging mechanism is arranged between the feeding hole and the feeding mechanism.

Further, the material arranging mechanism comprises two groups of material arranging wheels, and the two groups of material arranging wheels are arranged up and down and staggered with each other.

Further, still include the control box, the control box is located one side of frame.

Compared with the prior art, the invention has the beneficial effects that:

the invention discloses high-speed full-automatic bending belt production equipment, which realizes automatic feeding through a feeding mechanism, wherein a cutting mechanism cuts raw materials in equal length, and a bending mechanism punches the cut raw materials to enable the cut raw materials to be deformed into a strip-shaped metal part with two bent ends.

Drawings

FIG. 1 is a front view of the present invention;

FIG. 2 is a schematic view of the internal structure of the housing of the present invention;

FIG. 3 is a schematic connection diagram of the feeding port, the feeding mechanism, the cutting mechanism, the bending mechanism and the blanking mechanism of the present invention.

In the figure: 10. a frame; 20. a feed inlet; 21. a feed wheel; 30. a material distributing mechanism; 31. a material sorting wheel; 40. a feeding mechanism; 41. a first motor; 42. a feed wheel; 43. a wire guide plate; 50. a cutting mechanism; 51. a second motor; 52. a conveyor belt; 53. a first transmission arm; 54. cutting off the head; 60. a bending mechanism; 61. stamping parts; 62. a gear set; 63. a second drive arm; 70. a blanking mechanism; 71. a cylinder; 72. a guide rail; 73. a movable splint; 74. a pusher member; 80. and a control box.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the detailed description, and it should be noted that any combination of the embodiments or technical features described below can be used to form a new embodiment without conflict.

As shown in fig. 1, 2 and 3, the invention discloses a high-speed full-automatic bending strip production device, which comprises a frame 10, wherein the frame 10 is sequentially connected with a feeding hole 20, a feeding mechanism 40, a cutting mechanism 50, a bending mechanism 60 and a blanking mechanism 70. The raw materials for manufacturing the finished product are metal strips, the metal strips enter from the feeding hole 20, the feeding hole 20 is provided with feeding wheels 21 driven by a micro motor, the feeding wheels 21 are horizontally arranged on the left side and the right side of the feeding hole 20 in an aligned mode, and the feeding wheels 21 push the metal strips to the feeding mechanism 40. A material arranging mechanism 30 can be arranged between the feed inlet 20 and the feeding mechanism 40 and is used for assisting the feeding mechanism 40 to carry out flatness arrangement on the metal strips. The material arranging mechanism 30 comprises two material arranging wheels 31, and the two material arranging wheels 31 are arranged up and down and are mutually staggered. The metal strip is fed to pass around each material arranging wheel 31 in turn, and the material arranging wheels 31 keep the metal strip in a stretched state while pushing the metal strip to be transported so as to ensure that the cut shape keeps straight and straight.

The feeding mechanism 40 includes a first motor 41 and two feeding wheels 42 aligned up and down, and the first motor 41 drives the material shaping wheel 31 and the feeding wheels 42 to rotate simultaneously through a belt. The distance between the two feeding wheels 42 is the thickness of the metal strip, and the metal strip passes through the feeding wheels 42 and extends to the cutting mechanism under the pushing action and is extruded by the feeding wheels 42 to achieve the straightening purpose. The frame 10 is further provided with a second motor 51, and the second motor 51 drives the cutting mechanism 50 to perform a cutting operation and the bending mechanism 60 to perform a bending operation simultaneously via the conveyor 52. The cutting mechanism 50 includes a first transmission arm 53 and a cutting head 54, the bending mechanism 60 includes a gear set 62, a second transmission arm 63 and a stamping part 61, the stamping part 61 is arranged on one side of the feeding wheel 42 in the feeding direction, and the cutting head 54 is arranged between the feeding wheel 42 and the stamping part 61. A first transmission arm 53 is arranged outside the frame 10, one end of the first transmission arm 53 is connected with the cutting head 54 and the other end of the first transmission arm 53 is connected with one end of the transmission belt 52; the second transmission arm 63 is located inside the frame 10, one end of the second transmission arm 63 is provided with a toothed chain and the other end of the second transmission arm 63 is connected with the other end of the transmission belt, and the toothed chain is meshed with the gear set 62 to drive the stamping part 61 to rotate. The second motor 51 drives the transmission belt to rotate so as to drive the first transmission arm 53 and the second transmission arm 63 to reciprocate up and down. Under the driving of the second motor 51, the first transmission arm 53 drives the cutting head 54 to reciprocate linearly up and down, and the gear set 62 drives the stamping part 61 to rotate. The feeding wheel 42 pushes the metal strip to extend towards the stamping parts 61, when the metal strip is spanned between the two stamping parts 61, the second motor 51 rotates the conveyor belt 52, the first transmission arm 53 drives the cutting head 54 to move upwards, and a section of the metal strip extending from the feeding wheel 42 is cut off; meanwhile, the second driving arm 63 at the other end of the transmission belt 52 moves downward and rotates the gears to rotate the two stamping parts 61 respectively. The lengths of the metal strips pushed by the feeding wheel 42 at each time are equal, so that the lengths of the materials cut by the cutting head 54 at each time are consistent. The stamping part 61 is a semicircular metal piece, and the edge of the stamping part extrudes the cut metal strip when rotating, so that the cut metal strip is changed into a metal piece with two bent ends. The formed metal piece is pushed out of the rack 10 through the blanking mechanism 70, the blanking mechanism 70 comprises an air cylinder 71 and a pushing piece 74, the air cylinder 71 is arranged in the rack 10 and connected to the pushing piece 74, and the pushing piece 74 and the stamping piece 61 are coaxially arranged. The cylinder 71 drives the pushing piece 74 to do linear reciprocating motion perpendicular to the plane of the stamping parts 61, and after the metal strip is bent and formed, the pushing piece 74 extends out of the space between the two stamping parts 61 and pushes out the formed metal piece from the space between the stamping parts 61. In addition, in order to facilitate counting the produced metal parts during blanking, the blanking mechanism 70 further includes an electric rail 72 and a movable clamping plate 73, the electric rail 72 is disposed above the rack 10, the movable clamping plate 73 can slide on the electric rail 72, and the stamping part 61 and the movable clamping plate 73 are aligned. The metal parts pushed out by the pushing member 74 are accommodated in the movable clamping plate 73, the movable clamping plate 73 can accommodate a certain number of metal parts, when the number of the metal parts accommodated in the movable clamping plate 73 reaches the number, the movable clamping plate 73 slides to a specified position through the electric guide rail 72 for blanking, and meanwhile, a manufacturer can deduce the yield of the metal parts according to the sliding times of the movable clamping plate 73.

In the present invention, the cutting mechanism 50 further includes a wire guide 43, the wire guide 43 is provided with a through hole passing through the wire guide 43 from left to right, and the wire guide 43 is provided between the feed roller 42 and the cutting head 54. The width of the through hole is equal to the width of the metal strip, the metal strip can be effectively limited in moving direction when passing through the wire guide plate 43, deviation is avoided, and the cut surface of the metal strip after being cut by the cutting head 54 is guaranteed to be in a straight shape.

In the present invention, one side of the frame 10 further includes a control box 80, and the PLC program is performed through the control box 80 to control the operating efficiency of all the mechanisms.

The above embodiments are only preferred embodiments of the present invention, and the protection scope of the present invention is not limited thereby, and any insubstantial changes and substitutions made by those skilled in the art based on the present invention are within the protection scope of the present invention.

Claims (8)

1. The utility model provides a high-speed full-automatic bending strip production facility, includes the frame, its characterized in that: the machine frame is sequentially connected with a feeding hole, a feeding mechanism, a cutting mechanism, a bending mechanism and a discharging mechanism; the feeding mechanism comprises a first motor and two feeding wheels which are arranged in an up-and-down alignment mode, the first motor drives the feeding wheels to rotate, a second motor is further arranged in the rack and drives the cutting mechanism to perform cutting action and the bending mechanism to perform bending action at the same time through a conveying belt, the blanking mechanism comprises an air cylinder and a pushing piece, the air cylinder is arranged in the rack and connected to the pushing piece, and the air cylinder drives the pushing piece to perform linear reciprocating motion perpendicular to a plane where the bending mechanism is located.

2. The high-speed full-automatic bending strip production equipment according to claim 1, characterized in that: the cutting mechanism comprises a first transmission arm and a cutting head, the bending mechanism comprises a gear set, a second transmission arm and a stamping part, the cutting head is arranged on one side of the feeding wheel, the first transmission arm is arranged outside the rack, one end of the first transmission arm is connected with the cutting head, and the other end of the first transmission arm is connected with one end of the conveying belt; one end of the second transmission arm is provided with a toothed chain, the other end of the second transmission arm is connected with the other end of the transmission belt, and the toothed chain is meshed with the gear set; the second motor drives the transmission belt to rotate so as to drive the first transmission arm and the second transmission arm to reciprocate up and down; under the drive of the second motor, the first transmission arm drives the cutting head to do vertical linear reciprocating motion; the gear set drives the stamping part to rotate and the stamping part is arranged on one side of the cutting head.

3. The high-speed full-automatic bending strip production equipment according to claim 1, characterized in that: the blanking mechanism further comprises an electric guide rail and a movable clamping plate, the electric guide rail is arranged above the rack, the movable clamping plate can slide on the electric guide rail, and the stamping part and the movable clamping plate are arranged in an aligned mode.

4. The high-speed full-automatic bending strip production equipment according to claim 1, characterized in that: the feed inlet still is equipped with the feeding wheel, feeding wheel horizontal alignment set up in the left and right sides of feed inlet.

5. The high-speed full-automatic bending strip production equipment according to claim 1, characterized in that: the cutting mechanism further comprises a wire guide plate, the wire guide plate is provided with a through hole penetrating through the wire guide plate from left to right, and the wire guide plate is arranged between the feeding wheel and the cutting head.

6. The high-speed full-automatic bending strip production equipment according to claim 1, characterized in that: the rack also comprises a material arranging mechanism, and the material arranging mechanism is arranged between the feeding hole and the feeding mechanism.

7. The high-speed full-automatic bending strip production equipment according to claim 6, characterized in that: the material arranging mechanism comprises two groups of material arranging wheels which are arranged up and down and staggered with each other.

8. The high-speed full-automatic bending strip production equipment according to claim 1, characterized in that: still include the control box, the control box is located one side of frame.

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