CN113245480A - Automatic shaping device of deciding of electronic component - Google Patents

Abstract

The invention relates to the technical field of electronic element processing, in particular to an automatic cutting and shaping device for an electronic element, which comprises a rack, a material guide mechanism, a driving mechanism, a material cutting mechanism, a pin bending mechanism and a material receiving mechanism, wherein the material guide mechanism is arranged on the rack; the cutting mechanism comprises a cutting shaft arranged on the rack and a cutter assembly pressed on the cutting shaft, and the bent foot mechanism comprises a bent foot driving seat, a bent foot sliding block connected with the bent foot driving seat and a bent foot guide block arranged on the cutting shaft and corresponding to the bent foot sliding block; the automatic material guide mechanism is adopted, the driving mechanism is used for driving the electronic element to feed materials, the connecting position of the pins and the coil materials is cut off when the electronic element enters the material cutting mechanism, and the bent pins are shaped through the bent pin mechanism after the cutting, so that the whole automation degree is high, and the working efficiency is high.

Description

Automatic shaping device of deciding of electronic component

Technical Field

The invention relates to the technical field of electronic component processing, in particular to an automatic cutting and shaping device for an electronic component.

Background

Automation technology is widely used in industry, agriculture, military, scientific research, transportation, commerce, medical treatment, services, and home. The automatic technology can not only liberate people from heavy physical labor, partial mental labor and severe and dangerous working environments, but also expand the functions of human organs, greatly improve the labor productivity and enhance the ability of human to know the world and transform the world. Large plants in automation systems are also referred to as automation devices. Refers to a process in which a machine or apparatus automatically operates or controls according to a prescribed program or instruction without human intervention.

Various automatic structures are applied to automatic production processes of some electronic components, wherein electronic components need to be subjected to pin cutting and pin bending in the production process, the existing process is a semi-automatic structure or manual operation, the work efficiency of the semi-automatic process is too low, and manual operation is needed, so that the automatic structure can be further designed aiming at the automatic pin cutting and pin bending, and the aim is to improve the production efficiency.

Disclosure of Invention

In order to solve the problems, the invention provides the automatic cutting and shaping device for the electronic component, which adopts an automatic material guiding structure, is used for driving the electronic component to feed materials through a driving mechanism, cutting off the connecting position of pins and coil materials when the electronic component enters a material cutting mechanism, and shaping bent pins through a bent pin mechanism after the electronic component is cut off, and has high integral automation degree and high working efficiency.

The technical scheme adopted by the invention is as follows: an automatic cutting and shaping device for electronic components comprises a rack, a material guide mechanism arranged on the rack, a driving mechanism arranged on the rack and used for conveying the electronic components, a material cutting mechanism arranged on the rack, a pin bending mechanism arranged on the rack and positioned behind the material cutting mechanism, and a material collecting mechanism arranged on the rack and positioned below the pin bending mechanism; the drive mechanism comprises a drive motor, a drive shaft connected with the drive motor and a drive wheel arranged on the drive shaft and used for driving the electronic element to convey, the material cutting mechanism comprises a material cutting shaft arranged on the frame and a cutter assembly arranged on the material cutting shaft, and the bent foot mechanism comprises a bent foot drive seat, a bent foot slide block connected with the bent foot drive seat and a bent foot guide block arranged on the material cutting shaft and corresponding to the bent foot slide block.

The improved structure of the feeding mechanism comprises a rack, a feeding mechanism and a feeding mechanism, wherein the rack comprises a bottom plate and side plates arranged on two sides of the bottom plate, the feeding mechanism comprises a feeding chute and a discharging frame connected to the feeding chute, and the feeding chute is arranged at the top end of each side plate.

The further improvement of the scheme is that the driving motor is connected with a linkage module, and the linkage module comprises a first synchronizing wheel connected with the driving motor, a second synchronizing wheel connected with the driving shaft, a third synchronizing wheel connected with the rack and a synchronous belt for synchronously driving and connecting the first synchronizing wheel, the second synchronizing wheel and the third synchronizing wheel.

The further improvement of the scheme is that the driving shaft is provided with an induction disc close to the second synchronizing wheel, a plurality of groups of induction grooves are uniformly distributed on the induction disc in a circumferential direction, and the rack is provided with an inductor corresponding to the induction disc.

The further improvement of the scheme is that one side of the third synchronizing wheel is connected with a driving gear, the driving gear is meshed with a driven wheel, and the driven wheel is connected with a material receiving mechanism.

The further improvement of the scheme is that the driving wheels are arranged in two groups, the two groups of driving wheels are symmetrically arranged, and the outer diameter of each driving wheel is provided with a conveying tooth socket for driving the electronic element to convey.

The further improvement of the scheme is that the cutter assemblies are symmetrically provided with two groups, each cutter assembly comprises a limiting shaft sleeve and a cutter wheel positioned on one side of the limiting shaft sleeve, and each cutter wheel is provided with an annular cutter edge.

The further improvement of the scheme is that the bent foot driving seat is an air cylinder, the driving end of the bent foot driving seat is connected with an adjusting mounting seat, two groups of bent foot sliding blocks are symmetrically arranged on the adjusting mounting seat, and the bent foot sliding blocks are close to the bent foot guide block and provided with bent foot supporting grooves.

The technical scheme is further improved in that the two groups of the bent foot guide blocks are symmetrically arranged on the cutting shaft, the bent foot positioning grooves are formed in the bottom surfaces, close to the bent foot supporting grooves, of the bent foot guide blocks, bent foot guide grooves are formed in the inner wall surfaces of the bent foot guide blocks, and the bent foot guide grooves are communicated to the bent foot positioning grooves.

The receiving mechanism comprises a receiving guide plate positioned below the bent-foot sliding block, a receiving conveying belt positioned on the receiving guide plate and a conveying baffle arranged on the receiving conveying belt, wherein the receiving conveying belt is provided with a receiving driving shaft, and the receiving driving shaft is connected with a driven wheel.

The invention has the beneficial effects that:

compared with the traditional electronic component cutting and shaping device, the automatic material guide structure is adopted, the driving mechanism is used for driving the electronic component to feed materials, the connecting positions of pins and coil materials are cut off when the electronic component enters the material cutting mechanism, and the bent pins are shaped through the bent pin mechanism after the pin and coil materials are cut off, so that the whole automation degree is high, and the working efficiency is high. The electronic component feeding device comprises a rack, a material guide mechanism arranged on the rack, a driving mechanism arranged on the rack and used for conveying electronic components, a material cutting mechanism arranged on the rack, a pin bending mechanism arranged on the rack and positioned behind the material cutting mechanism, and a material collecting mechanism arranged on the rack and positioned below the pin bending mechanism; the drive mechanism comprises a drive motor, a drive shaft connected with the drive motor and a drive wheel arranged on the drive shaft and used for driving the electronic element to convey, the material cutting mechanism comprises a material cutting shaft arranged on the frame and a cutter assembly arranged on the material cutting shaft, and the bent foot mechanism comprises a bent foot drive seat, a bent foot slide block connected with the bent foot drive seat and a bent foot guide block arranged on the material cutting shaft and corresponding to the bent foot slide block. Make the drive shaft drive wheel transmission through driving motor effect down, drive the coil stock electronic component pay-off in the drive wheel transmission process, when getting into blank mechanism, carry out the blank through cutter unit to electronic component's pin, accomplish after the blank through the cooperation of bent foot drive seat drive curved foot slider and curved foot guide block down to the electronic component's after the cutting pin carry out the plastic, degree of automation is high, and it is efficient to cut the foot.

Drawings

Fig. 1 is a schematic perspective view of an automatic cutting and shaping device for electronic components according to the present invention;

fig. 2 is an exploded view of the automatic cutting and shaping device of the electronic component of fig. 1;

fig. 3 is a schematic perspective view of the automatic cutting and shaping device for removing the rack of the electronic component in fig. 2;

FIG. 4 is a schematic perspective view of the automatic cutting and shaping device of FIG. 2 with another view angle of the frame removed;

fig. 5 is a schematic perspective view of a pin bending mechanism of the automatic cutting and shaping device for electronic components in fig. 1;

fig. 6 is an enlarged schematic view of a portion a in fig. 5.

Description of reference numerals: the automatic feeding device comprises a rack 1, a bottom plate 11, a side plate 12, a feeding mechanism 2, a feeding chute 21, a discharging frame 22, a driving mechanism 3, a driving motor 31, a driving shaft 32, a sensing disc 321, a sensing groove 321a, a sensor 322, a driving wheel 33, a conveying tooth space 331, a linkage module 34, a first synchronizing wheel 341, a second synchronizing wheel 342, a third synchronizing wheel 343, a driving gear 343a, a driven wheel 343b, a synchronous belt 344, a cutting mechanism 4, a cutting shaft 41, a cutter assembly 42, a limit shaft sleeve 421, a cutter wheel 422, an annular knife edge 422a, a bent foot mechanism 5, a bent foot driving seat 51, an adjusting and mounting seat 511, a bent foot sliding block 52, a bent foot bracket 521, a bent foot guide block 53, a bent foot positioning groove 531, a bent foot guide groove 532, a receiving mechanism 6, a receiving guide plate 61, a receiving conveying belt 62, a conveying baffle 63 and a receiving driving shaft 64.

Detailed Description

To facilitate an understanding of the invention, the invention will now be described more fully with reference to the accompanying drawings. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

As shown in fig. 1 to 6, an automatic cutting and shaping device for electronic components includes a frame 1, a material guiding mechanism 2 installed on the frame 1, a driving mechanism 3 installed on the frame 1 and used for conveying electronic components, a material cutting mechanism 4 installed on the frame 1, a pin bending mechanism 5 installed on the frame 1 and located behind the material cutting mechanism 4, and a material receiving mechanism 6 installed on the frame 1 and located below the pin bending mechanism 5; the driving mechanism 3 comprises a driving motor 31, a driving shaft 32 connected to the driving motor 31, and a driving wheel 33 arranged on the driving shaft 32 and used for driving the electronic element to convey, the material cutting mechanism 4 comprises a material cutting shaft 41 arranged on the rack 1, and a cutter assembly 42 arranged on the material cutting shaft 41, and the bent foot mechanism 5 comprises a bent foot driving seat 51, a bent foot slide block 52 connected to the bent foot driving seat 51, and a bent foot guide block 53 arranged on the material cutting shaft 41 and corresponding to the bent foot slide block 52.

Referring to fig. 2, the rack 1 includes a bottom plate 11 and side plates 12 disposed on two sides of the bottom plate 11, the material guiding mechanism 2 includes a material guiding chute 21 and a material placing frame 22 connected to the material guiding chute 21, the material guiding chute 21 is mounted on the top end of the side plate 12, a supporting frame is formed by the bottom plate 11 and the side plates 12, the material guiding chute 21 is mounted on the top end of the supporting frame for guiding materials, the stability is good, and the material placing frame 22 is used for placing rolled electronic components.

Referring to fig. 3, in the present embodiment, the driving motor 31 is connected to the linkage module 34, the linkage module 34 includes a first synchronous wheel 341 connected to the driving motor 31, a second synchronous wheel 342 connected to the driving shaft 32, a third synchronous wheel 343 connected to the frame 1, and a synchronous belt 344 for synchronously driving and connecting the first synchronous wheel 341, the second synchronous wheel 342, and the third synchronous wheel 343, and the synchronous wheels of the three groups are synchronously driven by the synchronous belt 344, so that the driving stability is good, and the structure is stable and reliable.

Drive shaft 32 is close to second synchronizing wheel 342 and is equipped with response dish 321, response dish 321 hoop equipartition has the induction tank 321a of multiunit, inductor 322 is installed to the response dish 321 that corresponds to frame 1, under the cooperation through response dish 321 and inductor 322, makes things convenient for motor drive to realize intelligent transmission to the assurance is cut the foot and is bent the foot to single electronic component.

One side of the third synchronizing wheel 343 is connected with a driving gear 343a, the driving gear 343a is meshed with a driven wheel 343b in a transmission manner, the driven wheel 343b is connected with the material receiving mechanism 6, the third synchronizing wheel 343 drives the driving gear 343a to drive the material receiving mechanism 6 to transmit from the driven wheel 343b, and then the feeding and discharging driving can be realized under the driving action of one motor, so that the cost is saved, and the practicability is high.

The driving wheels 33 are provided with two groups, two groups of the driving wheels 33 are symmetrically arranged, the outer diameter of each driving wheel 33 is provided with a conveying tooth socket 331 used for driving the electronic element to convey, the electronic element is driven to convey through the conveying tooth sockets 331, feeding stability is good, and consistency is strong.

Two sets of cutter unit 42 symmetry are equipped with, cutter unit 42 includes spacing axle sleeve 421 and the cutter wheel 422 that is located spacing axle sleeve 421 one side, cutter wheel 422 sets up annular edge of a knife 422a, is used for cutting off electronic component and coil stock separation under the cooperation through spacing axle sleeve 421 and annular edge of a knife 422a, because carry under the effect of conveying tooth's socket 331 and drive the transport, carry annular edge of a knife 422a position and can cut off the pin.

Referring to fig. 5 to 6, the bent foot driving seat 51 is an air cylinder, the driving end of the bent foot driving seat 51 is connected with an adjusting mounting seat 511, two groups of bent foot sliders 52 are symmetrically mounted on the adjusting mounting seat 511, the bent foot sliders 52 are provided with bent foot brackets 521 near the bent foot guide block 53, the adjusting mounting seat 511 is used for mounting the bent foot sliders 52, the mounting is convenient, the structure is stable and reliable, and meanwhile, the bent foot brackets 521 are arranged for supporting the pins of the electronic component in the bending process, so that the pins can be conveniently bent and shaped by the bent foot guide block 53.

The two groups of bent foot guide blocks 53 are symmetrically arranged on the cutting shaft 41, the bent foot positioning grooves 531 are formed in the bottom surfaces, close to the bent foot bracket 521, of the bent foot guide blocks 53, the bent foot guide grooves 532 are formed in the inner wall surfaces of the bent foot guide blocks 53, the bent foot guide grooves 532 are communicated with the bent foot positioning grooves 531, specifically, after pins of an electronic element are cut off through the annular knife edge 422a, the electronic element is sent into the bent foot bracket 521 under the action of the driving wheel 33 to position the pins, then the bent foot driving seat 51 drives the bent foot sliding block 52 to ascend, the pins are supported through the bent foot bracket 521 in the ascending process, the pins are placed in the bent foot positioning grooves 531, then enter the bent foot guide grooves 532 to guide the bent feet, the rear bent foot driving seat 51 resets, and the electronic element after the bent feet falls into the material collecting assembly to be collected.

The receiving mechanism 6 comprises a receiving guide plate 61 located below the curved-foot sliding block 52, a receiving conveying belt 62 located on the receiving guide plate 61, and a conveying baffle 63 located on the receiving conveying belt 62, the receiving conveying belt 62 is provided with a receiving driving shaft 64, the receiving driving shaft 64 is connected with a driven wheel 343b, the receiving driving shaft 64 drives the receiving conveying belt 62 to receive materials through the receiving driving shaft 64, and the electronic component falling into the receiving guide plate 61 is guided to enter the receiving conveying belt 62.

The automatic material guide mechanism is adopted, the driving mechanism 3 is used for driving an electronic element to feed materials, the connecting position of pins and coil materials is cut off when the electronic element enters the material cutting mechanism 4, and the bent pins are shaped through the bent pin mechanism 5 after the pin and coil materials are cut off, so that the whole automation degree is high, and the working efficiency is high. Specifically, the device is provided with a rack 1, a material guide mechanism 2 arranged on the rack 1, a driving mechanism 3 arranged on the rack 1 and used for conveying electronic elements, a material cutting mechanism 4 arranged on the rack 1, a pin bending mechanism 5 arranged on the rack 1 and behind the material cutting mechanism 4, and a material receiving mechanism 6 arranged on the rack 1 and below the pin bending mechanism 5; the driving mechanism 3 comprises a driving motor 31, a driving shaft 32 connected to the driving motor 31, and a driving wheel 33 arranged on the driving shaft 32 and used for driving the electronic element to convey, the material cutting mechanism 4 comprises a material cutting shaft 41 arranged on the rack 1, and a cutter assembly 42 arranged on the material cutting shaft 41, and the bent foot mechanism 5 comprises a bent foot driving seat 51, a bent foot slide block 52 connected to the bent foot driving seat 51, and a bent foot guide block 53 arranged on the material cutting shaft 41 and corresponding to the bent foot slide block 52. Make drive shaft 32 drive wheel 33 transmission through driving motor 31 down, drive the coil of strip electronic component pay-off in the drive of drive wheel 33 transmission, when getting into blank mechanism 4, carry out the blank through cutter unit 42 to electronic component's pin, accomplish after the blank through the cooperation of bent foot drive seat 51 drive curved foot slider 52 and bent foot guide block 53 to the electronic component's after the cutting pin carry out the plastic, degree of automation is high, the cutting pin is efficient.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. The utility model provides an automatic shaping device of deciding of electronic component which characterized in that: the electronic component feeding device comprises a rack, a material guide mechanism arranged on the rack, a driving mechanism arranged on the rack and used for conveying electronic components, a material cutting mechanism arranged on the rack, a pin bending mechanism arranged on the rack and behind the material cutting mechanism, and a material collecting mechanism arranged on the rack and below the pin bending mechanism; the drive mechanism comprises a drive motor, a drive shaft connected with the drive motor and a drive wheel arranged on the drive shaft and used for driving the electronic element to convey, the material cutting mechanism comprises a material cutting shaft arranged on the frame and a cutter assembly arranged on the material cutting shaft, and the bent foot mechanism comprises a bent foot drive seat, a bent foot slide block connected with the bent foot drive seat and a bent foot guide block arranged on the material cutting shaft and corresponding to the bent foot slide block.

2. The automatic cutting and shaping device for electronic components of claim 1, wherein: the frame includes the bottom plate, and locates the curb plate of bottom plate both sides, guide mechanism includes the baffle box, connects in the blowing frame of baffle box, the baffle box is installed in the curb plate top.

3. The automatic cutting and shaping device for electronic components of claim 2, wherein: the driving motor is connected with a linkage module, and the linkage module comprises a first synchronizing wheel connected with the driving motor, a second synchronizing wheel connected with the driving shaft, a third synchronizing wheel connected with the rack, and a synchronous belt for synchronously driving and connecting the first synchronizing wheel, the second synchronizing wheel and the third synchronizing wheel.

4. The automatic cutting and shaping device for electronic components of claim 3, wherein: the driving shaft is provided with an induction disc close to the second synchronizing wheel, a plurality of groups of induction grooves are uniformly distributed in the induction disc in the circumferential direction, and the rack is provided with an inductor corresponding to the induction disc.

5. The automatic cutting and shaping device for electronic components of claim 4, wherein: one side of the third synchronizing wheel is connected with a driving gear, the driving gear is meshed with a driven wheel in a transmission mode, and the driven wheel is connected with a material receiving mechanism.

6. The automatic cutting and shaping device for electronic components of claim 1, wherein: the driving wheels are arranged in two groups, the two groups of driving wheels are symmetrically arranged, and the outer diameter of each driving wheel is provided with a conveying tooth socket for driving the electronic element to convey.

7. The automatic cutting and shaping device for electronic components of claim 1, wherein: the cutter components are symmetrically provided with two groups, each cutter component comprises a limiting shaft sleeve and a cutter wheel located on one side of the limiting shaft sleeve, and the cutter wheels are provided with annular cutter edges.

8. The automatic cutting and shaping device for electronic components of claim 1, wherein: the bent foot driving seat is an air cylinder, the driving end of the bent foot driving seat is connected with an adjusting mounting seat, two groups of bent foot sliding blocks are arranged on the adjusting mounting seat and symmetrically arranged on the adjusting mounting seat, and the bent foot sliding blocks are close to the bent foot guide blocks and provided with bent foot supporting grooves.

9. The automatic cutting and shaping device for electronic components of claim 8, wherein: the material cutting device is characterized in that the two groups of bent foot guide blocks are symmetrically arranged on the material cutting shaft, bent foot positioning grooves are formed in the bottom surfaces, close to the bent foot supporting grooves, of the bent foot guide blocks, bent foot guide grooves are formed in the inner wall surfaces of the bent foot guide blocks, and the bent foot guide grooves are communicated to the bent foot positioning grooves.

10. The automatic cutting and shaping device for electronic components of claim 5, wherein: the receiving mechanism comprises a receiving guide plate located below the bent-foot sliding block, a receiving conveying belt located on the receiving guide plate, and a conveying baffle arranged on the receiving conveying belt, wherein the receiving conveying belt is provided with a receiving driving shaft, and the receiving driving shaft is connected with a driven wheel.

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