CN211711780U - Diode production that avoids diode to drop is with transporting mechanism - Google Patents

Abstract

The utility model provides a diode production is with transporting mechanism who avoids diode to drop, the utility model relates to the transportation equipment technical field; the device comprises a baffle, an upright post, a supporting seat, a first motor, a first guide roller, a second guide roller, a first bearing seat, a second bearing seat, a protective guard, an outer layer conveying belt, an inner layer conveying belt, a magnetic suction block and a box body; an inner layer conveying belt is wound between the first guide roller and the second guide roller, an outer layer conveying belt is arranged on the outer side of the inner layer conveying belt, a gap is formed between the inner layer conveying belt and the outer layer conveying belt, a plurality of magnetic suction blocks are clamped in the gap, a brush head is fixed on an output shaft of the second motor, and the left ends of the baffles on the front side and the rear side are hinged with stop levers; the magnetic suction blocks are arranged on the outer side edge of the conveyor belt, so that the diodes can be effectively prevented from falling off from the side edge of the conveyor belt during transportation; meanwhile, the baffle is matched with the brush head, so that the conveying efficiency of the two production lines during connection can be improved; has the advantages of simple structure, reasonable design, easy operation and the like.

Description

Diode production that avoids diode to drop is with transporting mechanism

Technical Field

The utility model relates to a transportation equipment technical field, concretely relates to avoid diode production that diode dropped with transporting mechanism.

Background

The belt conveyor is also called as a rubber belt conveyor and is widely applied to various industries such as household appliances, electronics, electric appliances, machinery, tobacco, injection molding, post and telecommunications, printing, food and the like.

At present belt conveyor among the prior art because there is the problem that outer factors such as gap and transmission shaft radian lead to the material to drop between the assembly line body in transportation process, influence the normal transportation of material, reduce conveying efficiency, the incident that leads to the material to drop often takes place, causes unnecessary extravagant, and the problem is especially outstanding when producing tiny parts such as diode, and the personnel of dispatching a special function watch on then greatly lost manpower resources, await urgent need to improve.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a transportation mechanism for producing diodes, which has reasonable design and can avoid the diodes from falling off from the side edge of a transportation belt, by arranging a magnetic suction block at the outer side edge of the transportation belt, the diodes can be effectively prevented from falling off from the side edge of the transportation belt during transportation; meanwhile, the baffle is matched with the brush head, so that the conveying efficiency of the two production lines during connection can be improved; has the advantages of simple structure, reasonable design, easy operation and the like.

In order to achieve the above purpose, the utility model adopts the following technical proposal: the device comprises a baffle, an upright post, a supporting seat, a first motor, a first guide roller, a second guide roller, a first bearing seat, a second bearing seat, a protective guard, an outer layer conveying belt, an inner layer conveying belt, a magnetic suction block and a box body; the first guide roller is positioned on the left side of the second guide roller, the front side and the rear side of the first guide roller and the rear side of the second guide roller are respectively provided with a baffle plate, the left side and the right side below the baffle plate are respectively provided with an upright post, the left side and the right side of the baffle plate are respectively provided with a second bearing seat and a first bearing seat, the front end and the rear end of the first guide roller are inserted into the two second bearing seats on the left side, and the front end and the rear end of the second guide roller are inserted into the two first bearing seats; the front end of a first guide roller penetrates through a second bearing seat and then is fixedly connected with an output shaft of a first motor, the first motor is fixed on an upright post below the left side of a front side baffle, an inner layer conveying belt is wound between the first guide roller and the second guide roller, an outer layer conveying belt is arranged on the outer side of the inner layer conveying belt, a gap is arranged between the inner layer conveying belt and the outer layer conveying belt, a plurality of magnetic suction blocks are clamped in the gap, fixing holes are formed in the outer side edges of the inner layer conveying belt and the outer layer conveying belt, the outer layer conveying belt is connected with the inner layer conveying belt through screws, and the magnetic suction blocks are sleeved on the screws; guard rails are arranged on the outer side surfaces of the front and rear side baffles, the box body is fixed above the left side of the guard rails, a second motor is arranged on the top surface in the box body, a brush head is fixed on an output shaft of the second motor and positioned above the outer layer conveying belt, and the left ends of the front and rear side baffles are hinged with stop rods which are positioned above the outer layer conveying belt; the left end below of the baffle that is located the rear side is equipped with infrared emission box, and the left end below of the baffle that is located the front side is equipped with infrared receiving box, a motor, No. two motors, infrared emission box, infrared receiving box all be connected with external power source electricity.

Furthermore, the upper surface of the outer layer conveying belt is provided with oblique line grains.

Further, the stand on all seted up the several regulation hole, the lower extreme of stand all is fixed with the supporting seat through fastening screw.

Further, a collecting box is arranged on the bottom surface of the baffle plate positioned on the front side.

Furthermore, an alarm is arranged at the left end of the rear side face of the baffle at the rear side and is electrically connected with the infrared receiving box, and the alarm is electrically connected with an external power supply.

After the structure is adopted, the beneficial effects of the utility model are that: the utility model discloses a diode production conveying mechanism for preventing diodes from falling, which prevents the diodes from falling from the side edge of a conveying belt during the transportation by arranging a magnetic suction block at the outer side edge of the conveying belt; the baffle is matched with the brush head, so that the conveying efficiency of the two production lines during connection is improved; and utilize infrared photoelectric switch to realize the blanking monitoring of two assembly lines when plugging into, have advantages such as simple structure, reasonable in design, easy operation.

Description of the drawings:

fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a front view of the present invention.

Fig. 3 is a left side view of fig. 2.

Fig. 4 is a schematic structural diagram of the outer layer conveying belt and the inner layer conveying belt in the present invention.

Fig. 5 is a schematic structural view of the magnetic attraction block of the present invention.

Fig. 6 is a schematic structural view of the brush head and the stop lever of the present invention.

Description of reference numerals:

baffle 1, stand 2, supporting seat 3, No. one motor 4, No. one deflector roll 5, No. two deflector rolls 6, No. one bearing frame 7, No. two bearing frames 8, rail guard 9, outer conveyer belt 10, inlayer conveyer belt 11, slash line 12, magnetism piece 13, fixed orifices 13-1, screw 13-2, box 14, No. two motor 15, brush head 16, pin 17, infrared emission box 18, infrared receiving box 19, regulation hole 20, fastening screw 21, collect box 22.

The specific implementation mode is as follows:

the present invention will be further described with reference to the accompanying drawings.

Referring to fig. 1 to 6, the technical solution adopted by the present embodiment is: the device comprises a baffle 1, an upright post 2, a supporting seat 3, a first motor 4, a first guide roller 5, a second guide roller 6, a first bearing seat 7, a second bearing seat 8, a protective guard 9, an outer layer conveying belt 10, an inner layer conveying belt 11, a magnetic suction block 13 and a box body 14; the first guide roller 5 is positioned on the left side of the second guide roller 6, the baffle plates 1 are arranged on the front side and the rear side of the first guide roller 5 and the second guide roller 6, the upright posts 2 are welded on the left side and the right side below the baffle plates 1, the upright posts 2 are provided with a plurality of adjusting holes 20, and the lower ends of the upright posts 2 are fixed with the supporting seats 3 through fastening screws 21; the left side and the right side of the baffle plate 1 are respectively provided with a second bearing seat 8 and a first bearing seat 7, the front end and the rear end of the first guide roller 5 are inserted into the two second bearing seats 8 on the left side, and the front end and the rear end of the second guide roller 6 are inserted into the two first bearing seats 7 on the right side; the front end of a first guide roller 5 penetrates through a second bearing seat 8 and then is fixedly connected with an output shaft of a first motor 4 (the model is 5D90GN-RV30), the first motor 4 is fixedly welded on an upright post 2 below the left side of a front side baffle 1, an inner layer conveying belt 11 is wound between the first guide roller 5 and the second guide roller 6, an outer layer conveying belt 10 is arranged on the outer side of the inner layer conveying belt 11, a gap is formed between the inner layer conveying belt 11 and the outer layer conveying belt 10, a plurality of magnetic absorption blocks 13 are clamped in the gap, fixing holes 13-1 are formed in the outer side edges of the inner layer conveying belt 11 and the outer layer conveying belt 10, the outer layer conveying belt 10 is connected with the inner layer conveying belt 11 through screws 13-2, and the magnetic absorption blocks 13 are all sleeved on the screws 13-2; guard rails 9 are fixed on the outer side surfaces of the front and rear side baffles 1 through screws, a box body 14 is fixedly welded above the left side of the guard rails 9, a second motor 15 (model: M3AA71A6) is fixedly welded on the top surface in the box body 14, a brush head 16 is fixed on an output shaft of the second motor 15, the brush head 16 is positioned above the outer layer conveying belt 10, the left ends of the front and rear side baffles 1 are hinged with stop rods 17, and the stop rods 17 are positioned above the outer layer conveying belt 10; an infrared emission box 18 (model: EW-T61) is fixed below the left end of the baffle plate 1 at the rear side through screws, an infrared receiving box 19 (model: EW-T61) is fixed below the left end of the baffle plate 1 at the front side through screws, and the infrared receiving box 19 is electrically connected with the alarm 23; a collecting box 22 is adsorbed on the bottom surface of the baffle plate 1 positioned at the front side through magnetic paste, and an alarm 23 is fixed at the left end of the rear side surface of the baffle plate 1 positioned at the rear side through a screw; the first motor 4, the second motor 15, the infrared transmitting box 18, the infrared receiving box 19 and the alarm 23 are all electrically connected with an external power supply.

The working principle of the specific embodiment is as follows: when the device is used for transporting diodes, the diodes to be transported are firstly placed on the outer layer conveyor belt 10 from the right side, then the first motor 4 supplies power to start working, the outer layer conveyor belt 10 starts to do circular reciprocating motion under the mutual matching of the inner layer conveyor belt 11, the first guide roller 5 and the second guide roller 6, so that the diodes are transported to the left side from the right side, in the transporting process, the diodes can deviate from the center of the outer layer conveyor belt 10 to the two sides due to the shaking of the device, and are adsorbed by the magnetic adsorption blocks 13 on the two sides when the diodes deviate to the sides, so that the diodes are prevented from falling off from the two sides, when the diodes are transported to the tail end of the right side, the adsorbed diodes on the two sides are scraped by the baffle plates 17 on the two sides and are collected to the center of the outer layer conveyor belt 10 again, then the second motor 15 drives the brush head 16 to work, so that, the terminal radian of assembly line is great, leads to the condition that the diode drops appearing when two assembly lines are plugged into, and when the diode drops from the clearance between two assembly lines this moment, the diode can block infrared receiving box 19 and normally receive the infrared light of infrared emission box 18, just can detect the blanking to send the instruction and give siren 23, remind the producers to inspect, can place collection box 22 in the below of two assembly lines, avoid the diode to drop and cause the damage.

After adopting above-mentioned structure, this embodiment's beneficial effect is as follows:

1. by adopting the structural design of the oblique line grains 12, the friction between the diode and the outer layer conveying belt 10 during transportation can be increased, the offset caused by equipment vibration is reduced, and the transportation stability is ensured;

2. the structural design of the magnetic blocks 13 is adopted, so that the diodes can be prevented from falling from the two side edges of the outer layer conveyor belt 10;

3. due to the adoption of the structural design of the brush head 16 and the stop lever 17, the diodes gathered at the tail end of the conveyer belt can be quickly conveyed to the conveyer belt of the other assembly line, so that the conveying efficiency is improved.

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 modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims (5)

1. A diode production conveying mechanism capable of preventing diodes from falling comprises a baffle (1), an upright post (2), a supporting seat (3), a first motor (4), a first guide roller (5), a second guide roller (6), a first bearing seat (7), a second bearing seat (8), a protective guard (9), an outer layer conveying belt (10), an inner layer conveying belt (11), a magnetic suction block (13) and a box body (14); the first guide roller (5) is positioned on the left side of the second guide roller (6), the baffle plates (1) are arranged on the front side and the rear side of the first guide roller (5) and the front side and the rear side of the second guide roller (6), the stand columns (2) are arranged on the left side and the right side below the baffle plates (1), the second bearing seat (8) and the first bearing seat (7) are respectively arranged on the left side and the right side of the baffle plates (1), the front end and the rear end of the first guide roller (5) are inserted into the two second bearing seats (8) on the left side, and the front end and the rear end of the second guide roller (6) are inserted into the two first bearing seats (7); the front end of a deflector roll (5) passes No. two bearing frames (8) back, and with the output shaft fixed connection of a motor (4), a motor (4) is fixed on stand (2) of preceding side shield (1) left side below, its characterized in that: an inner-layer conveying belt (11) is wound between the first guide roller (5) and the second guide roller (6), an outer-layer conveying belt (10) is arranged on the outer side of the inner-layer conveying belt (11), a gap is formed between the inner-layer conveying belt (11) and the outer-layer conveying belt (10), a plurality of magnetic suction blocks (13) are clamped in the gap, fixing holes (13-1) are formed in the outer side edges of the inner-layer conveying belt (11) and the outer-layer conveying belt (10), the outer-layer conveying belt (10) is connected with the inner-layer conveying belt (11) through screws (13-2), and the magnetic suction blocks (13) are sleeved on the screws (13-2); guard rails (9) are arranged on the outer side surfaces of the baffles (1) on the front side and the rear side, the box body (14) is fixed above the left side of the guard rails (9), a second motor (15) is arranged on the top surface in the box body (14), a brush head (16) is fixed on an output shaft of the second motor (15), the brush head (16) is positioned above the outer layer conveying belt (10), the left ends of the baffles (1) on the front side and the rear side are hinged with stop rods (17), and the stop rods (17) are positioned above the outer layer conveying belt (10); the left end below of the baffle (1) that is located the rear side is equipped with infrared emission box (18), and the left end below of the baffle (1) that is located the front side is equipped with infrared receiving box (19), a motor (4), No. two motor (15), infrared emission box (18), infrared receiving box (19) all be connected with external power source electricity.

2. The diode production conveying mechanism for preventing the diodes from falling off as claimed in claim 1, wherein: the upper surface of the outer layer conveying belt (10) is provided with oblique line grains (12).

3. The diode production conveying mechanism for preventing the diodes from falling off as claimed in claim 1, wherein: the stand (2) on all seted up several regulation hole (20), the lower extreme of stand (2) all is fixed with supporting seat (3) through fastening screw (21).

4. The diode production conveying mechanism for preventing the diodes from falling off as claimed in claim 1, wherein: the bottom surface of the baffle (1) positioned at the front side is provided with a collecting box (22).

5. The diode production conveying mechanism for preventing the diodes from falling off as claimed in claim 1, wherein: the left end of the rear side surface of the baffle (1) positioned at the rear side is provided with an alarm (23), the alarm (23) is electrically connected with the infrared receiving box (19), and the alarm (23) is electrically connected with an external power supply.

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