CN111613701A - Angle cutter convenient for diode processing - Google Patents

Abstract

The invention discloses a corner cutting machine convenient for processing diodes, which comprises a frame, an electric controller, a feeding and conveying device, a corner cutting machine and a discharging device, wherein the corner cutting machine utilizes a side pressing and corner cutting mechanism to regularly press and cut diode pins, the corner cutting machine comprises a machine body, a first air cylinder, the side pressing and corner cutting mechanism, a positioning workbench, a material pushing plate, a second air cylinder and a first telescopic push-pull rod, the diode pins are pressed by a pressing plate through a deformable pressing pad, the diode pins are prevented from being deformed by the pressing plate, the passing of current is further influenced, the positioning workbench utilizes a buffer resistance band to reduce the inertia force for the diodes, the diodes are prevented from being collided, the positioning workbench controls the distance between a porous slot clamping strip and a cutter slot through a pin length adjusting mechanism to realize the length of the cut diode pins, and the material pushing plate utilizes a separating strip to separate and push the cut diodes and the cut pins after cutting is finished, and sending the cut pins into a corner collecting hopper for recycling.

Description

Angle cutter convenient for diode processing

Technical Field

The invention relates to the field of diode processing, in particular to a corner cutting machine convenient for processing a diode.

Background

Diodes, electronic components, a device having two electrodes, which only allows current to flow in a single direction, are used for many applications by applying their rectifying function; the varactor is used as an electronic adjustable capacitor; the current directivity of most diodes is generally called as rectification function; the most common function of a diode is to allow current to pass in only a single direction, but to block current in the reverse direction.

There are many problems in diode corner cut in-process, if present some diode corner cuts mostly carry out the corner cut for the manual work, very big increase worker's intensity of labour, waste time reduces worker's work efficiency, influences the use.

Disclosure of Invention

Aiming at the defects of the prior art, the invention is realized by the following technical scheme: a corner cutting machine convenient for processing diodes structurally comprises a rack, an electric controller, a feeding and conveying device, a corner cutting machine and a discharging device, wherein the corner cutting machine is arranged in the middle of the top end of the rack, the rack is connected with the corner cutting machine, the feeding and conveying device is arranged at the rear end of the corner cutting machine, the corner cutting machine is matched with the feeding and conveying device, the discharging device is arranged at the right end of the corner cutting machine, the corner cutting machine is movably connected with the discharging device, and the electric controller is arranged on the surface of the top end of the rack;

the angle cutting machine comprises a machine body, a first cylinder, a blank pressing angle cutting mechanism, a positioning workbench, a material pushing plate, a second cylinder and a first telescopic push-pull rod, wherein the first cylinder is installed at the top end of the machine body, the blank pressing angle cutting mechanism is arranged at the top end inside the machine body, the blank pressing angle cutting mechanism is mechanically connected with the bottom end of the first cylinder, the positioning workbench is arranged at the bottom end inside the machine body, the machine body is movably connected with the positioning workbench, the second cylinder is arranged on the surface of the left end of the machine body, the machine body is connected with the second cylinder, the first telescopic push-pull rod is arranged on the left side inside the machine body, one end of the first telescopic push-pull rod is mechanically connected with the second cylinder, and the material pushing plate is installed at the other end of the first telescopic push-pull rod.

As a further optimization of the technical scheme, the edge pressing and corner cutting mechanism consists of a second telescopic push-pull rod, a corner cutting knife, a foot pressing plate, a spring and a sliding rod, the bottom end of the second telescopic push-pull rod is provided with the corner cutting knife and the sliding rod side by side from front to back, the second telescopic push-pull rod is fixedly connected with the corner cutting knife, the second telescopic push-pull rod is in sliding fit with one end of the sliding rod, the foot pressing plate is arranged below the bottom end of the sliding rod, the sliding rod and the foot pressing plate are of an integrated structure, and the spring is installed on the surface of the sliding rod.

As a further optimization of the technical scheme, a deformable extrusion pad is arranged below the bottom end of the foot pressing plate, and the foot pressing plate is connected with the deformable extrusion pad in an adhesive mode.

As a further optimization of the technical scheme, the positioning workbench further comprises a cutter groove, a corner hopper, a fixed block, a threaded ring and a pin length adjusting mechanism, the cutter groove is formed in the surface of the positioning workbench, the corner hopper is arranged on the surface of the side edge of the positioning workbench, the positioning workbench is movably connected with the corner hopper, the fixed block is arranged on the right end of the positioning workbench, the positioning workbench and the fixed block are of an integrated structure, the pin length adjusting mechanism is arranged on the surface of the fixed block, and the fixed block and the pin length adjusting mechanism are connected through the threaded ring and the threads.

As a further optimization of the technical scheme, a buffer resistance belt is arranged on the surface of the positioning workbench, and the positioning workbench is connected with the buffer resistance belt through glue.

As a further optimization of the technical scheme, the pin length adjusting mechanism comprises a nut, a threaded push-pull shaft, a limiting moving plate and a porous clamping groove strip, wherein the nut is arranged at one end of the threaded push-pull shaft, one end of the threaded push-pull shaft is welded with the nut through electric welding, the limiting moving plate is arranged at the other end of the threaded push-pull shaft, the threaded push-pull shaft and the limiting moving plate are in clearance fit, the porous clamping groove strip is arranged on the limiting moving plate, and the limiting moving plate and the porous clamping groove strip are of an integrated structure.

As a further optimization of the technical scheme, the magnet strips are arranged on the inner sides of the porous clamping groove strips, and the porous clamping groove strips are connected with the magnet strips through glue.

As a further optimization of the technical scheme, the surface of the front end of the material pushing plate is provided with the separating strips, and the material pushing plate and the separating strips are of an integrated structure.

As a further optimization of the technical scheme, the buffer resistance belt is consistent with the horizontal plane of the top end of the positioning workbench.

As a further optimization of the technical scheme, the second telescopic push-pull rod is matched with the foot pressing plate through a spring.

As a further optimization of the technical scheme, the deformable extrusion pad is made of rubber materials, is not easy to damage and has strong flexibility.

As a further optimization of the technical scheme, the corner cutting knife is movably attached to the positioning workbench through a knife groove.

Advantageous effects

The invention relates to a corner cutting machine convenient for processing diodes, which is characterized in that a diode needing corner cutting is conveyed into a machine body from a feeding conveying device, the diode is conveyed to a positioning workbench by the inertia of the feeding conveying device, the positioning workbench reduces the inertia force of the diode by using a buffer resistance belt to avoid the diode from being collided, the diode is absorbed by a pin length adjusting mechanism, a first air cylinder is driven to drive a second telescopic push-pull rod to move downwards, the second telescopic push-pull rod drives a foot pressing plate to press the pin of the diode through a sliding rod, the foot pressing plate presses the pin of the diode by using a deformable pressing pad to avoid the pin of the diode from being deformed by the foot pressing plate so as to influence the passing of current, the second telescopic push-pull rod continuously drives a corner cutting knife to cut off redundant pins of the diode, the working efficiency and the cutting regularity are improved, the multi-hole clamping groove strip adsorbs built-in iron sheets of the diode by using a magnet strip, so that the diode is attached to the multi-hole clamping groove strip, the edge pressing and corner cutting of the diode by a edge pressing and corner cutting mechanism are facilitated, when the cutting length of the pin of the diode needs to be controlled, a screw cap is rotated to drive a screw thread push-pull shaft to rotate, the screw thread push-pull shaft is matched with a screw thread ring to push a limiting moving plate to move back and forth, the limiting moving plate controls the distance between the multi-hole clamping groove strip and a cutter groove to cut the pin of the diode, after the cutting is completed, a second cylinder drives a first telescopic push-pull rod to move forward, the first telescopic push-pull rod pushes the diode and the cut pin out through a material pushing plate, the material pushing plate utilizes a separation strip to separate and push the diode and the cut pin.

Compared with the prior art, the invention has the beneficial effects that: the angle cutting machine utilizes a blank pressing angle cutting mechanism to carry out orderly pressing and cutting on the diode pins, the blank pressing plate presses the diode pins through a deformable extrusion pad, the diode pins are prevented from being deformed due to the blank pressing plate, the passing of current is further influenced, the positioning workbench utilizes a buffer resistance band to reduce inertia force for the diodes, the diodes are prevented from being collided, the positioning workbench controls the distance between a porous clamping groove strip and a cutter groove through a pin length adjusting mechanism to achieve the length of the cut diode pins, after cutting is completed, the material pushing plate utilizes a separation strip to separate and push the diodes and the cut pins, and the cut pins are sent into an angle collecting hopper to be recycled.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a schematic structural diagram of a corner cutting machine for processing a diode according to the present invention.

FIG. 2 is a schematic view of a front cross-sectional structure of the corner cutting machine of the present invention.

FIG. 3 is a schematic structural diagram of the edge pressing and corner cutting mechanism according to the present invention.

FIG. 4 is a schematic top view of a positioning stage according to the present invention.

Fig. 5 is a schematic structural diagram of the material pushing plate of the invention.

In the figure: the automatic angle cutting machine comprises a rack-1, an electric controller-2, a feeding and conveying device-3, an angle cutting machine-4, a discharging device-5, a machine body-4 a, a first air cylinder-4 b, a side pressing and angle cutting mechanism-4 c, a positioning workbench-4 d, a material pushing plate-4 e, a second air cylinder-4 f, a first telescopic push-pull rod-4 g, a second telescopic push-pull rod-4 c1, an angle cutting knife-4 c2, a foot pressing plate-4 c3, a spring-4 c4, a sliding rod-4 c5, a deformable extrusion pad-4 c31, a knife groove-4 d1, an angle closing bucket-4 d2, a fixing block-4 d3, a thread ring-4 d4, a pin length adjusting mechanism-4 d5, a buffer resistance belt-h 1, a screw cap-4 d51, a thread push-4 d52, a limiting moving plate-4 d53, Porous card slot bar-4 d54, magnet bar-h 2, and separation bar-4 e 1.

Detailed Description

In order to make the technical means, the original characteristics, the achieved purposes and the effects of the invention easy to understand, the following description and the accompanying drawings further illustrate the preferred embodiments of the invention.

Example 1

Referring to fig. 1-3, the invention provides a corner cutting machine convenient for diode processing, which structurally comprises a frame 1, an electric controller 2, a feeding and conveying device 3, a corner cutting machine 4 and a discharging device 5, wherein the corner cutting machine 4 is arranged at the middle position of the top end of the frame 1, the frame 1 is connected with the corner cutting machine 4, the feeding and conveying device 3 is arranged at the rear end of the corner cutting machine 4, the corner cutting machine 4 is matched with the feeding and conveying device 3, the discharging device 5 is arranged at the right end of the corner cutting machine 4, the corner cutting machine 4 is movably connected with the discharging device 5, and the electric controller 2 is arranged on the surface of the top end of the frame 1;

the angle cutting machine 4 consists of a machine body 4a, a first air cylinder 4b, a blank pressing and angle cutting mechanism 4c, a positioning workbench 4d, a material pushing plate 4e, a second air cylinder 4f and a first telescopic push-pull rod 4g, wherein the first air cylinder 4b is installed at the top end of the machine body 4a, the blank pressing and angle cutting mechanism 4c is arranged at the top end inside the machine body 4a, the blank pressing and angle cutting mechanism 4c is mechanically connected with the bottom end of the first air cylinder 4b, the positioning workbench 4d is arranged below the bottom end inside the machine body 4a, the machine body 4a is movably connected with the positioning workbench 4d, the second air cylinder 4f is arranged on the surface of the left end of the machine body 4a, the machine body 4a is connected with the second air cylinder 4f, the first telescopic push-pull rod 4g is arranged on the left side inside the machine body 4a, one end of the first telescopic push-pull rod 4g is mechanically connected with the second air cylinder 4f, and a material pushing plate 4e is arranged at the other end of the first telescopic push-pull rod 4 g.

The edge pressing and corner cutting mechanism 4c comprises a second telescopic push-pull rod 4c1, a corner cutting knife 4c2, a foot pressing plate 4c3, a spring 4c4 and a sliding rod 4c5, the corner cutting knife 4c2 and the sliding rod 4c5 are arranged below the bottom end of the second telescopic push-pull rod 4c1 in a front-back side-by-side mode, the second telescopic push-pull rod 4c1 is fixedly connected with the corner cutting knife 4c2, the second telescopic push-pull rod 4c1 is in sliding fit with one end of the sliding rod 4c5, the foot pressing plate 4c3 is arranged below the bottom end of the sliding rod 4c5, the sliding rod 4c5 and the foot pressing plate 4c3 are of an integrated structure, and the spring 4c4 is arranged on the surface of the sliding rod 4c 5.

The bottom end of the foot pressing plate 4c3 is provided with a deformable extrusion pad 4c31, and the foot pressing plate 4c3 is connected with the deformable extrusion pad 4c31 through glue.

The principle of the embodiment: the diode needing corner cutting is conveyed into the machine body 4a from the feeding conveying device 3, after the diode is conveyed to the positioning workbench 4d by the inertia of the feeding conveying device 3, the positioning workbench 4d utilizes the buffer resistance belt h1 to reduce the inertia force for the diode and avoid the diode from being collided, after the diode is absorbed by the pin length adjusting mechanism 4d5, the first cylinder 4b is driven to drive the second telescopic push-pull rod 4c1 to move downwards, the second telescopic push-pull rod 4c1 drives the foot pressing plate 4c3 to press the diode pin through the sliding rod 4c5, the foot pressing plate 4c3 utilizes the deformable pressing pad 4c31 to press the diode pin to avoid the diode pin from being deformed by the foot pressing plate 4c3 and further influencing the passing of current, the second telescopic rod 4c1 continues to drive the corner cutting knife 4c2 to cut off the redundant pin of the diode, thereby improving the working efficiency, and the regularity of the excision.

The method for solving the problems in the embodiment is as follows: the angle cutting machine 4 utilizes the blank pressing and angle cutting mechanism 4c to carry out orderly pressing, excision to the diode pin, presses the diode pin through the pressfitting of deformable extrusion pad 4c31 on pressure foot board 4c3, avoids the diode pin to receive pressure foot board 4c3 and warp, and then influences the passing through of electric current, and positioning table 4d utilizes buffering resistance area h1 to reduce inertial force for the diode, avoids the diode to receive the collision.

Example 2

Referring to fig. 1-5, the invention provides a corner cutting machine convenient for diode processing, the positioning table 4d further includes a knife slot 4d1, a corner closing bucket 4d2, a fixing block 4d3, a thread ring 4d4 and a pin length adjusting mechanism 4d5, the surface of the positioning table 4d is provided with a knife slot 4d1, the surface of the side edge of the positioning table 4d is provided with a corner closing bucket 4d2, the positioning table 4d is movably connected with the corner closing bucket 4d2, the right end of the positioning table 4d is provided with a fixing block 4d3, the positioning table 4d and the fixing block 4d3 are of an integrated structure, the surface of the fixing block 4d3 is provided with a pin length adjusting mechanism 4d5, and the fixing block 4d3 is connected with the pin length adjusting mechanism 4d5 through a thread ring 4d 4.

The surface of the positioning workbench 4d is provided with a buffer resistance belt h1, and the positioning workbench 4d is connected with the buffer resistance belt h1 through glue.

The pin length adjusting mechanism 4d5 comprises a nut 4d51, a threaded push-pull shaft 4d52, a limiting moving plate 4d53 and a porous clamping groove strip 4d54, wherein a nut 4d51 is arranged at one end of the threaded push-pull shaft 4d52, one end of the threaded push-pull shaft 4d52 is welded with the nut 4d51 through electric welding, the limiting moving plate 4d53 is arranged at the other end of the threaded push-pull shaft 4d52, the threaded push-pull shaft 4d52 is in clearance fit with the limiting moving plate 4d53, the limiting moving plate 4d53 is provided with the porous clamping groove strip 4d54, and the limiting moving plate 4d53 and the porous clamping groove strip 4d54 are of an integrated structure.

The porous clamping groove strips 4d54 are provided with magnet strips h2 on the inner side, and the porous clamping groove strips 4d54 are connected with the magnet strips h2 through glue.

The front end surface of the material pushing plate 4e is provided with a separating strip 4e1, and the material pushing plate 4e and the separating strip 4e1 are of an integrated structure.

The buffering resistance belt h1 is consistent with the horizontal plane at positioning table 4d top, second flexible push-pull rod 4c1 with press foot board 4c3 to cooperate through spring 4c4, deformable extrusion pad 4c31 adopt the rubber material preparation, not fragile, and the pliability is strong, corner cut sword 4c2 with positioning table 4d pass through sword groove 4d1 activity laminating.

The principle of the embodiment: when the diode falls onto the porous clamping groove strip 4d54, the porous clamping groove strip 4d54 adsorbs a built-in iron sheet of the diode by using a magnet strip h2, so that the diode is attached to the porous clamping groove strip 4d54, the edge pressing and angle cutting mechanism 4c is convenient for edge pressing and angle cutting of the diode, when the length of the diode pin to be cut needs to be controlled, the threaded push-pull shaft 4d52 is driven to rotate by rotating the nut 4d51, the threaded push-pull shaft 4d52 is matched with the threaded ring 4d4 to push the limiting moving plate 4d53 to move back and forth, so that the limiting moving plate 4d53 controls the distance between the porous clamping groove strip 4d54 and the knife groove 4d1 to cut the length of the diode pin, after the cut is completed, the second air cylinder 4f drives the first telescopic push-pull rod 4g to move forward, the first telescopic push-pull rod 4g pushes the diode and the cut pin out through the material pushing plate 4e, and the material pushing plate 4e1 is used for separating and pushing, the cut pins are sent to the corner-closing bucket 4d2 for recycling.

The method for solving the problems in the embodiment is as follows: the positioning workbench 4d controls the distance between the porous card slot strips 4d54 and the knife grooves 4d1 through the pin length adjusting mechanism 4d5 to cut the length of the pins of the diodes, after cutting is completed, the material pushing plate 4e utilizes the separating strips 4e1 to separate and push the diodes and the cut pins, and the cut pins are sent into the corner collecting hopper 4d2 to be recycled.

While there have been shown and described what are at present considered the fundamental principles of the invention, the essential features and advantages thereof, it will be understood by those skilled in the art that the present invention is not limited by the embodiments described above, which are merely illustrative of the principles of the invention, but rather, is capable of numerous changes and modifications in various forms without departing from the spirit or essential characteristics thereof, and it is intended that the invention be limited not by the foregoing descriptions, but rather by the appended claims and their equivalents.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (8)

1. The utility model provides a corner cutter for diode processing convenient to, its structure includes frame (1), automatically controlled ware (2), material loading conveyor (3), corner cutter (4), discharge apparatus (5), frame (1) top intermediate position on be equipped with corner cutter (4), frame (1) and corner cutter (4) be connected, corner cutter (4) rear end on be equipped with material loading conveyor (3), corner cutter (4) and material loading conveyor (3) cooperate, corner cutter (4) right-hand member on be equipped with discharge apparatus (5), corner cutter (4) and discharge apparatus (5) swing joint, frame (1) top surface on install automatically controlled ware (2), its characterized in that:

the angle cutting machine (4) consists of a machine body (4a), a first cylinder (4b), a blank pressing angle cutting mechanism (4c), a positioning workbench (4d), a material pushing plate (4e), a second cylinder (4f) and a first telescopic push-pull rod (4g), wherein the first cylinder (4b) is installed at the top end of the machine body (4a), the blank pressing angle cutting mechanism (4c) is arranged at the top end inside the machine body (4a), the blank pressing angle cutting mechanism (4c) is mechanically connected with the bottom end of the first cylinder (4b), the positioning workbench (4d) is arranged below the bottom end inside the machine body (4a), the machine body (4a) is movably connected with the positioning workbench (4d), the second cylinder (4f) is arranged on the surface of the left end of the machine body (4a), the machine body (4a) is connected with the second cylinder (4f), and the first telescopic push-pull rod (4g) is arranged on the left side inside the machine body (4a), one end of the first telescopic push-pull rod (4g) is mechanically connected with the second cylinder (4f), and the other end of the first telescopic push-pull rod (4g) is provided with a material pushing plate (4 e).

2. The corner cutting machine for processing diodes as claimed in claim 1, wherein: the edge pressing and corner cutting mechanism (4c) is composed of a second telescopic push-pull rod (4c1), a corner cutting knife (4c2), a foot pressing plate (4c3), a spring (4c4) and a sliding rod (4c5), the corner cutting knife (4c2) and the sliding rod (4c5) are arranged at the bottom end of the second telescopic push-pull rod (4c1) in parallel from front to back, the second telescopic push-pull rod (4c1) is fixedly connected with the corner cutting knife (4c2), the second telescopic push-pull rod (4c1) is in sliding fit with one end of the sliding rod (4c5), the foot pressing plate (4c3) is arranged at the bottom end of the sliding rod (4c5), the sliding rod (4c5) and the foot pressing plate (4c3) are of an integrated structure, and the spring (4c4) is arranged on the surface of the sliding rod (4c 5).

3. The corner cutting machine for processing diodes as claimed in claim 2, wherein: the bottom end of the foot pressing plate (4c3) is provided with a deformable extrusion pad (4c31), and the foot pressing plate (4c3) is connected with the deformable extrusion pad (4c31) through glue.

4. The corner cutting machine for processing diodes as claimed in claim 1, wherein: positioning work platform (4d) still include sword groove (4d1), angle of narrowing fill (4d2), fixed block (4d3), screw ring (4d4), pin length adjustment mechanism (4d5), positioning work platform (4d) be equipped with sword groove (4d1) on the surface, positioning work platform (4d) side surface on be equipped with angle of narrowing fill (4d2), positioning work platform (4d) and angle of narrowing fill (4d2) swing joint, positioning work platform (4d) right-hand member on be equipped with fixed block (4d3), positioning work platform (4d) and fixed block (4d3) be the integrated structure, fixed block (4d3) on the surface be equipped with pin length adjustment mechanism (4d5), fixed block (4d3) and pin length adjustment mechanism (4d5) pass through screw ring (4d4) threaded connection.

5. The corner cutting machine for processing diodes as claimed in claim 1 or 4, wherein: the positioning workbench (4d) is provided with a buffer resistance belt (h1) on the surface, and the positioning workbench (4d) is connected with the buffer resistance belt (h1) in a gluing way.

6. The corner cutting machine for processing diodes as claimed in claim 4, wherein: the pin length adjusting mechanism (4d5) comprises a nut (4d51), a threaded push-pull shaft (4d52), a limiting moving plate (4d53) and a porous clamping groove strip (4d54), wherein one end of the threaded push-pull shaft (4d52) is provided with a nut (4d51), one end of the threaded push-pull shaft (4d52) is welded with the nut (4d51) through electric welding, the other end of the threaded push-pull shaft (4d52) is provided with the limiting moving plate (4d53), the threaded push-pull shaft (4d52) and the limiting moving plate (4d53) are in clearance fit, the limiting moving plate (4d53) is provided with the porous clamping groove strip (4d54), and the limiting moving plate (4d53) and the porous clamping groove strip (4d54) are of an integrated structure.

7. The corner cutting machine for processing diodes as claimed in claim 6, wherein: the magnet strip (h2) is arranged on the inner side of the porous clamping groove strip (4d54), and the porous clamping groove strip (4d54) is connected with the magnet strip (h2) through glue.

8. The corner cutting machine for processing diodes as claimed in claim 1, wherein: the front end surface of the material pushing plate (4e) is provided with a separating strip (4e1), and the material pushing plate (4e) and the separating strip (4e1) are of an integrated structure.

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