CN114275503A - Bidirectional material shifting and spacing device for 3C electronic welding - Google Patents

Abstract

The invention belongs to the technical field of 3C electronic installation, in particular to a bidirectional material shifting and spacing device for 3C electronic welding, which comprises a rack and a support piece positioned in the rack, wherein the top of the support piece is fixedly provided with a motor, the top of the rack is uniformly distributed with a plurality of feeding conveyor belts along the width direction of the rack, one side surface of one end of each feeding conveyor belt is provided with a spacing conveyor belt, one side of the overlapping part of each spacing conveyor belt and each feeding conveyor belt is provided with a material shifting and spacing component at the middle position of the top of the rack, the bottom of each material shifting and spacing component is fixedly connected with the rack through a mounting plate, and the output end of the motor is rotatably connected with the material shifting and spacing component; the structure design of two-way material shifting is adopted, so that the transmission speed of the electronic element is improved, meanwhile, the structure is suitable for a high-frequency transmission scene, the situation of material blocking and material blocking can be effectively avoided compared with the traditional conveyor belt arrangement structure, the material shifting efficiency of the material shifting and distance dividing component is also improved, and ineffective work is reduced.

Description

Bidirectional material shifting and spacing device for 3C electronic welding

Technical Field

The invention belongs to the technical field of 3C electronic installation, and particularly relates to a bidirectional material shifting and spacing device for 3C electronic welding.

Background

The 3C product is a general name of computer products, communication products and consumer electronics products, and is also called information appliance. Such as a computer, a tablet computer, a cell phone, or a digital audio player, etc. Since the volume of 3C products is generally not large, in the assembly line for manufacturing, various small electronic components need to be welded on the motherboard by using a welding machine or a welding robot, and therefore, in the process, the electronic components need to be conveyed to the welding operation surface by a feeding device through the electronic components, and in order to facilitate the picking up of the electronic components by the welding surface, a differential conveyor belt is used at present, and in the position close to the welding operation surface, the electronic components are equidistantly distributed by using the speed difference between the conveyor belts, so that the electronic components can be picked up in the subsequent process.

Therefore, the bidirectional material shifting and separating device for 3C electronic welding is designed to solve the problems.

Disclosure of Invention

To solve the problems set forth in the background art described above. The invention provides a bidirectional material shifting and spacing device for 3C electronic welding, which can effectively avoid the situation of material blocking compared with the traditional conveying belt arrangement structure.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a 3C electron welding is with two-way material of dialling is apart from device, include the frame and be located the inside support piece of frame, the fixed motor that is provided with in support piece top, the top of frame has a plurality of material loading conveyer belts along its width direction evenly distributed, the one end side of material loading conveyer belt is provided with the branch apart from conveyer belt, the branch apart from conveyer belt and material loading conveyer belt coincidence portion one side and be located the top intermediate position of frame are provided with dials the material and divide apart from the subassembly, and dial the material and divide apart from the bottom of subassembly and pass through mounting panel and frame fixed connection, the output of motor and dial the material and divide apart from the subassembly rotation to be connected, the transmission rate of material loading conveyer belt is greater than the transmission rate that divides apart from the conveyer belt.

Preferably, the bidirectional material shifting and spacing device for 3C electronic welding is characterized in that special-shaped guard plates are further mounted on two sides of the feeding conveyor belt, a notch is formed in one end, close to the material shifting and spacing assembly, of each special-shaped guard plate, and the bottom end of each special-shaped guard plate is fixedly connected with the top end of the rack.

Preferably, the bidirectional material shifting and spacing device for 3C electronic welding is provided with a material blocking roller for blocking an electronic element at one end between the two special-shaped guard plates and close to the material shifting and spacing component.

Preferably, the bidirectional material shifting and spacing device for 3C electronic welding is characterized in that a spacing pin is rotatably connected between end plates on two sides of one end, far away from the rack, of the spacing conveyor belt.

Preferably, the bidirectional material shifting and spacing device for 3C electronic welding comprises a connecting seat, an electromagnetic reset kit, sliding rods, a material shifting piece and a driving piece, wherein the connecting seat is fixedly arranged on the top surface of a mounting plate through bolts, the electromagnetic reset kit is arranged on one side of the top of the connecting seat, the inner side of the electromagnetic reset kit is connected with the sliding rods in a sliding manner, the material shifting pieces are arranged at two ends of the sliding rods and positioned on two sides of the electromagnetic reset kit, one side of the connecting seat is connected with the driving piece through an inclined plate, and the top of the driving piece is movably connected with the material shifting piece through bolts.

Preferably, the electromagnetic reset kit comprises an installation block fixedly arranged on one side of the connecting seat, a through hole matched with the sliding rod is formed in the installation block in the vertical direction, sliding sleeves are arranged at two ends of the through hole, a coil is arranged on the inner side of the installation block around the through hole, photoelectric sensors are symmetrically arranged on one side of the top of the installation block, and the photoelectric sensors are electrically connected with the line timing relay.

Preferably, the bidirectional material shifting and spacing device for 3C electronic welding is provided with a cylindrical permanent magnet as the slide rod.

Preferably, the bidirectional shifting and spacing device for 3C electronic welding is characterized in that the shifting piece comprises a stop block fixedly connected with the sliding rod, shifting rods are arranged on the sides, away from the sliding rod, of the stop block, and the other ends of the shifting rods are connected with shifting plates through bolts.

Preferably, the driving piece comprises a double-layer cam, a crank, a following wheel and a track retaining piece, the crank is rotatably connected to the inclined plate of the connecting seat through a rotating shaft, the top of the crank is in sliding connection with the stop block through a bolt, the following wheel is arranged on one side of the bottom of the crank through the rotating shaft, the track retaining piece is arranged below the following wheel and located on one side of the bottom end of the crank through a bolt, and the rotating shaft of the double-layer cam is connected with the output end of the motor through a coupler.

Preferably, the bidirectional material shifting and spacing device for 3C electronic welding is provided with a double-layer cam, the outer circular surface of the double-layer cam is tangent to the outer circle of the following wheel, and the inner circular surface of the double-layer cam is in rolling contact with the inner surface of the track maintaining piece.

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

the material shifting and distance dividing component is used for shifting the electronic elements on the feeding conveyor belt to the distance dividing conveyor belt, so that the structural design of bidirectional material shifting is adopted in the 3C electronic production process, the conveying speed of the electronic elements is improved on the one hand, and meanwhile, the structure is suitable for high-frequency conveying scenes.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is an exploded view of FIG. 1 in accordance with the present invention;

FIG. 3 is a cross-sectional view of FIG. 2A-A of the present invention;

FIG. 4 is a schematic view of the track holder of the present invention;

FIG. 5 is a schematic view of the structure of the frame according to the present invention;

in the figure:

1. a frame;

2. a support member;

3. a motor;

4. a feeding conveyor belt; 41. a special-shaped guard plate; 42. a notch; 43. a material blocking roller;

5. a pitch conveyor belt; 51. a spacing pin;

6. a material shifting and spacing component; 61. a connecting seat;

62. an electromagnetic reset kit; 621. mounting blocks; 622. a through hole; 623. a sliding sleeve; 624. a coil; 625. a photosensor;

63. a slide rod;

64. material stirring parts; 641. a stopper; 642. a deflector rod; 643. a kick-out plate;

65. a drive member; 651. a double-layer cam; 652. a crank; 653. a follower wheel; 654. a track holder;

7. and (7) mounting the plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1 and 5;

the utility model provides a 3C electron welding is with two-way material of dialling divides apart from device, include frame 1 and the support piece 2 that is located frame 1 inside, the fixed motor 3 that is provided with in 2 tops of support piece, the top of frame 1 has a plurality of material loading conveyer belts 4 along its width direction evenly distributed, the one end side of material loading conveyer belt 4 is provided with apart from conveyer belt 5, it is provided with to dial material apart from subassembly 6 to divide apart from conveyer belt 5 and material loading conveyer belt 4 coincidence portion one side and be located the top intermediate position of frame 1, and dial material apart from subassembly 6 bottom through mounting panel 7 and frame 1 fixed connection, the output of motor 3 with dial material apart from subassembly 6 and rotate and be connected, the transmission rate of material loading conveyer belt 4 is greater than the transmission rate of part apart from conveyer belt 5.

It should be noted that: the frame 1 is formed by combining aluminum alloy or stainless steel section bars, and the bottom of the frame 1 is also provided with a lower margin which can be used for leveling.

In this embodiment: the material shifting and distance dividing component 6 is used for shifting the electronic elements on the feeding conveyor belt 4 to the distance dividing conveyor belt 5, so that the structural design of bidirectional material shifting is adopted in the 3C electronic production process, the conveying speed of the electronic elements is improved, the structure is suitable for high-frequency conveying scenes, the material blocking and material blocking can be effectively avoided through the traditional conveyor belt arrangement structure, the material shifting and distance dividing component 6 is also improved in material shifting efficiency, and invalid work is reduced.

As shown in fig. 2;

in an alternative embodiment: special-shaped guard plates 41 are further mounted on two sides of the feeding conveyor belt 4, a notch 42 is formed in one end, close to the material shifting and spacing assembly 6, of each special-shaped guard plate 41, and the bottom end of each special-shaped guard plate 41 is fixedly connected with the top end of the rack 1.

It should be noted that: a material blocking roller 43 for blocking the electronic element is further arranged between the two special-shaped guard plates 41 and at one end close to the material shifting and spacing component 6, so that a stable blocking can be formed at the tail end of the feeding conveyor belt 4, and the electronic element on the feeding conveyor belt 4 can be effectively prevented from sliding down.

In this embodiment: through installing special-shaped backplate 41 in the both sides of material loading conveyer belt 4 to form the protection in the both sides of special-shaped backplate 41, and then at the in-process of carrying electronic component, can prevent effectively that electronic component from taking place the condition of landing and appearing.

As shown in fig. 2;

in an alternative embodiment: spacing pins 51 are rotatably connected between the end plates at two sides of one end of the spacing conveyor belt 5 far away from the rack 1.

In this embodiment: the spacing pin 51 is arranged at the tail end of the spacing conveyor belt 5, so that the electronic components which are missed to be picked up by a manipulator or a welding operation surface can be effectively prevented from falling and causing loss.

As shown in fig. 2;

in an alternative embodiment: dial material and divide apart from subassembly 6 including connecting seat 61, electromagnetism reset external member 62, litter 63, dial material 64 and driving piece 65, connecting seat 61 passes through bolt fixed mounting at the top surface of mounting panel 7, top one side of connecting seat 61 is provided with electromagnetism reset external member 62, the inboard sliding connection of electromagnetism reset external member 62 has a plurality of litter 63, the both ends of litter 63 and the both sides that are located electromagnetism reset external member 62 all set up and dial material 64, one side of connecting seat 61 is connected with driving piece 65 through the hang plate, the top of driving piece 65 is passed through the bolt and is dialled material 64 swing joint.

It should be noted that: the material shifting and spacing component 6 adopts a bidirectional material shifting design, so that the working efficiency of the material shifting and spacing component 6 can be improved.

In this embodiment: the driving part 65 is driven by the motor 3 to rotate, and the driving part 65 drives the material stirring part 64 to reciprocate under the guiding action of the electromagnetic resetting external member 62 and the sliding rod 63, so that the electronic components are stirred and delivered from the feeding conveyor belt 4 to the distance-dividing conveyor belt 5.

As shown in fig. 3 and 2;

in an alternative embodiment: the electromagnetic reset kit 62 includes the fixed installation piece 621 that sets up in connecting seat 61 one side, install the piece 621 and go up along vertical direction offer with the through-hole 622 of litter 63 looks adaptation, the both ends of through-hole 622 all are provided with the sliding sleeve 623, the inboard of installation piece 621 encircles through-hole 622 and is provided with coil 624, be connected for the electricity between coil 624 and the line body, thereby form a magnetic force field at the through-hole 622 excircle, the top one side symmetry of installation piece 621 is provided with photoelectric sensor 625, and photoelectric sensor 625 is connected with line body timing relay electricity.

It should be noted that: the slide rod 63 is a cylindrical permanent magnet, the direction of the magnetic force of the slide rod 63 is opposite to that of the coil 624, and therefore when the driving member 65 drives the slide rod 63 to move to the other side of the mounting block 621, under the common effect of the magnetic force of the slide rod 63 itself and the electromagnetic force of the coil 624, the slide rod 63 drives the material poking member 64 to reset, and since the material poking members 64 are symmetrically arranged on the two sides of the mounting block 621, the material poking member 64 on one side of the mounting block 621 resets while the material poking member 64 on the other side does work to poke the electronic component onto the pitch conveyor belt 5.

In this embodiment: in the process that the driving member 65 drives the sliding rod 63 and the material shifting member 64 to reciprocate, since the back grid block piece of the stop block 641 is matched with the photoelectric sensor 625, and the photoelectric sensor 625 is electrically connected with the line timing relay, the back grid block piece of the stop block 641 is monitored by the photoelectric sensor 625 for a long time to monitor whether the front end of the material shifting member 64 is blocked, namely the back grid block piece of the stop block 641 is monitored by the photoelectric sensor 625 for a long time, and the material shifting member 64 is considered to be blocked at the front end.

As shown in fig. 2;

in an alternative embodiment: the material poking piece 64 comprises a stop 641 fixedly connected with the sliding rod 63, a poking rod 642 is arranged on one side of the stop 641, which is far away from the sliding rod 63, a poking plate 643 is connected to the other end of the poking rod 642 through a bolt, a grid blocking sheet used for matching with the photoelectric sensor 625 is further arranged on the back of the stop 641, and a space can be provided for the poking plate 643 to slide through the poking plate 643 and the notch 42.

As shown in fig. 4 and 2;

in an alternative embodiment: the driving member 65 includes a double-layer cam 651, a crank 652, a following wheel 653 and a track holder 654, the crank 652 is rotatably connected to the inclined plate of the connecting base 61 through a rotating shaft, the top of the crank 652 is slidably connected to the stopper 641 through a bolt, the following wheel 653 is arranged on one side of the bottom of the crank 652 through a rotating shaft, the track holder 654 is arranged below the following wheel 653 and on one side of the bottom end of the crank 652 through a bolt, and the rotating shaft of the double-layer cam 651 is connected to the output end of the motor 3 through a coupling.

It should be noted that: the outer circle surface of the double-layer cam 651 is tangent to the outer circle of the following wheel 653, the inner circle surface of the double-layer cam 651 is in rolling contact with the inner surface of the track holding piece 654, and the top of the crank 652 is provided with a waist groove matched with the bolt.

In this embodiment: the double-layer cam 651 is driven to rotate through the motor 3, and the excircle surface of the double-layer cam 651 is tangent to the excircle of the following wheel 653, so that the crank 652 rotates around the joint of the crank and the inclined plate of the connecting seat 61 under the action of the double-layer cam 651, the top of the crank 652 swings, and the stop block 641 is driven to reciprocate.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A bidirectional material shifting and spacing device for 3C electronic welding comprises a frame (1) and a supporting piece (2) positioned in the frame (1), the top of the supporting piece (2) is fixedly provided with a motor (3), the top of the frame (1) is uniformly distributed with a plurality of feeding conveyor belts (4) along the width direction, it is characterized in that a spacing conveyor belt (5) is arranged on the side surface of one end of the feeding conveyor belt (4), a material shifting and distance dividing component (6) is arranged on one side of the overlapping part of the distance dividing conveyor belt (5) and the feeding conveyor belt (4) and is positioned in the middle of the top of the rack (1), the bottom of the material shifting and spacing component (6) is fixedly connected with the frame (1) through a mounting plate (7), the output end of the motor (3) is rotationally connected with the material poking and distance dividing component (6), the transmission speed of the feeding conveyor belt (4) is greater than that of the separating conveyor belt (5).

2. The bidirectional material shifting and separating device for 3C electronic welding according to claim 1, characterized in that: the special-shaped guard plates (41) are further mounted on two sides of the feeding conveyor belt (4), a notch (42) is formed in one end, close to the material shifting and distance dividing assembly (6), of each special-shaped guard plate (41), and the bottom ends of the special-shaped guard plates (41) are fixedly connected with the top end of the rack (1).

3. The bidirectional material shifting and separating device for 3C electronic welding according to claim 2, characterized in that: and a material blocking roller (43) for blocking an electronic element is further arranged between the two special-shaped guard plates (41) and at one end close to the material shifting and spacing assembly (6).

4. The bidirectional material shifting and separating device for 3C electronic welding according to claim 1, characterized in that: spacing conveyer belt (5) are kept away from rotate between the one end both sides end plate of frame (1) and are connected with spacer pin (51).

5. The bidirectional material shifting and separating device for 3C electronic welding according to claim 2 or 3, characterized in that: dial material and divide apart from subassembly (6) including connecting seat (61), electromagnetism reset external member (62), litter (63), group material spare (64) and driving piece (65), connecting seat (61) are in through bolt fixed mounting the top surface of mounting panel (7), top one side of connecting seat (61) is provided with electromagnetism reset external member (62), electromagnetism reset external member (62) inboard sliding connection has a plurality of litter (63), the both ends of litter (63) just are located the both sides of electromagnetism reset external member (62) all set up group material spare (64), one side of connecting seat (61) is connected with through the hang plate driving piece (65), the top of driving piece (65) pass through the bolt with group material spare (64) swing joint.

6. The bidirectional material shifting and separating device for 3C electronic welding according to claim 5, wherein: the electromagnetic reset kit (62) comprises an installation block (621) fixedly arranged on one side of the connecting seat (61), a through hole (622) matched with the sliding rod (63) is formed in the installation block (621) in the vertical direction, sliding sleeves (623) are arranged at two ends of the through hole (622), a coil (624) is arranged on the inner side of the installation block (621) in a surrounding mode around the through hole (622), photoelectric sensors (625) are symmetrically arranged on one side of the top of the installation block (621), and the photoelectric sensors (625) are electrically connected with a line timing relay.

7. The bidirectional material shifting and separating device for 3C electronic welding according to claim 5, wherein: the slide rod (63) is a cylindrical permanent magnet.

8. The bidirectional material shifting and separating device for 3C electronic welding according to claim 7, characterized in that: the material poking piece (64) comprises a stop block (641) fixedly connected with the sliding rod (63), one side of the stop block (641) departing from the sliding rod (63) is provided with a poking rod (642), and the other end of the poking rod (642) is connected with a poking plate (643) through a bolt.

9. The bidirectional material shifting and separating device for 3C electronic welding according to claim 8, wherein: the driving piece (65) comprises a double-layer cam (651), a crank (652), a following wheel (653) and a track retaining piece (654), the crank (652) is rotatably connected to the inclined plate of the connecting seat (61) through a rotating shaft, the top of the crank (652) is in sliding connection with the stopper (641) through a bolt, the following wheel (653) is arranged on one side of the bottom of the crank (652) through the rotating shaft, the track retaining piece (654) is arranged below the following wheel (653) and on one side of the bottom end of the crank (652) through a bolt, and the rotating shaft of the double-layer cam (651) is connected with the output end of the motor (3) through a coupler.

10. The bidirectional material shifting and separating device for 3C electronic welding according to claim 9, wherein: the outer circular surface of the double cam (651) is tangent to the outer circular surface of the following wheel (653), and the inner circular surface of the double cam (651) is in rolling contact with the inner surface of the track holder (654).

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