CN219313938U - Single-piece welding receiving and discharging mechanism for electronic element - Google Patents

Abstract

The utility model discloses a single-piece welding receiving and discharging mechanism for electronic components, which belongs to the technical field of electronic component processing and comprises a box body, a first conveying belt and a second conveying belt, wherein an induction block is uniformly embedded and installed on the first conveying belt, an induction probe matched with the induction block is fixedly installed in the box body, a first motor, a second motor, a welding plate, an electric telescopic rod and a welding control frame are fixedly installed in the box body, the output end of the first motor is fixedly connected with the driving end of the first conveying belt, the output end of the second motor is fixedly connected with the driving end of the second conveying belt, the two welding plates are positioned on two sides of the tail end of the second conveying belt, a pushing plate is fixedly installed at the lower end of the electric telescopic rod, and a welding machine is fixedly installed on the welding control frame.

Description

Single-piece welding receiving and discharging mechanism for electronic element

Technical Field

The utility model belongs to the technical field of electronic component processing, and particularly relates to a single-piece welding receiving and discharging mechanism for electronic components.

Background

The electronic component is the basis of the electronic product, along with the wider application of the electronic product, the production and manufacture of various electronic components in the electronic product become more important, and the welding processing speed, feeding speed and discharging speed of the traditional electronic component are difficult to synchronize, if the speeds are not uniform, the production of the welded electronic component is influenced, the situation of welding errors is easy to occur, and finally the generation efficiency is reduced.

Disclosure of Invention

Aiming at the problem that the welding processing speed, feeding speed and discharging speed of the existing electronic components are difficult to synchronize, the utility model provides a single-piece welding, receiving and discharging mechanism of the electronic components.

In order to solve the problems, the utility model adopts the following technical scheme:

the utility model provides an electronic component single piece welds and receives blowing mechanism, includes box, first conveyer belt and second conveyer belt, first conveyer belt with the second conveyer belt stretches into in the box, the head end of first conveyer belt with the tail end of second conveyer belt offsets, evenly inlay on the first conveyer belt and install the response piece, fixed mounting in the box with response piece assorted inductive probe, fixed mounting has first motor, second motor, welding plate, electric telescopic handle and welding control frame in the box, the output of first motor with the drive end fixed connection of first conveyer belt, the output of second motor with the drive end fixed connection of second conveyer belt, two welding plates are located the both sides of second conveyer belt tail end, electric telescopic handle lower extreme fixed mounting has three push plates, fixed mounting has the welding machine on the welding control frame.

In order to accurately move the electronic component, it is preferable that the width of the soldering plate is the same as the width of the second conveyor belt, and the pushing plate is located above a gap between the soldering plate and the second conveyor belt and above a side end of the soldering plate.

In order to enable the welding machine to move in multiple directions, preferably, the welding control frame comprises a bottom plate, a first sliding plate, a second sliding plate, a third sliding plate and a fixed support plate, wherein the first sliding plate is slidably mounted on the bottom plate, the second sliding plate is slidably mounted on the first sliding plate, the third sliding plate is slidably mounted on the second sliding plate, the fixed support plate is fixedly mounted on the third sliding plate, and the welding machine is fixedly mounted at the bottom end of the fixed support plate.

In order to control the movement of the first sliding plate, further, a first steering engine is fixedly installed on the first sliding plate, the output end of the first steering engine penetrates through the first sliding plate and is fixedly provided with a first gear, and a gear strip matched with the first gear is arranged on the bottom plate.

In order to control the movement of the second sliding plate, further, a second steering engine is fixedly installed on the second sliding plate, the output end of the second steering engine penetrates through the second sliding plate and is fixedly provided with a second gear, and a gear strip matched with the second gear is arranged on the first sliding plate.

In order to control the movement of the third sliding plate, further, a third steering engine is fixedly installed on the third sliding plate, the output end of the third steering engine penetrates through the third sliding plate and is fixedly provided with a third gear, and a gear strip matched with the third gear is arranged on the second sliding plate.

In order to prevent the welded smoke from corroding the device for a long time, furthermore, the fixed support plate is fixedly provided with a suction pump, the box body is fixedly provided with a smoke treatment box, and the suction pump is communicated with the smoke treatment box through a soft air pipe.

In order to be able to check the running condition in the box, preferably, a camera is fixedly installed in the box, and a control display screen is fixedly installed on the box.

In order to regulate and limit the electronic components on the box body, preferably, a plurality of bolts are arranged in the box body in a threaded manner, and limit plates are rotatably arranged on the bolts.

In order to accurately collect and pay-off the electronic component, the induction probe is preferably directed to the head end of the first conveyor belt.

Compared with the prior art, the utility model provides the electronic element single-piece welding receiving and discharging mechanism, which has the following beneficial effects:

the utility model carries out feeding and discharging of electronic elements through a first conveyor belt and a second conveyor belt, so that the electronic elements are placed between induction blocks, when the electronic elements are conveyed onto the second conveyor belt from the first conveyor belt, the induction probes induce the induction blocks, an electric telescopic rod is started, a second motor is stopped, the electronic elements are pushed onto a welding plate, after the electric telescopic rod is operated, the second motor is started again, the welding machine carries out welding processing, thus the electronic elements conveyed onto the second conveyor belt are continuously pushed onto the welding plate to be welded by the welding machine, each new electronic element is pushed onto the welding plate, and the electronic elements after one processing are pushed onto the second conveyor belt from the other welding plate, are discharged by the second conveyor belt, so that the welding speed of the electronic elements is ensured to be matched with the feeding and discharging speeds of the conveyor belt, and the welding processing efficiency of the electronic elements is improved.

Drawings

Fig. 1 is a schematic diagram of an external structure of a single-piece solder receiving and discharging mechanism for electronic components according to the present utility model;

fig. 2 is a schematic diagram of a conveyor belt structure of a single-piece solder receiving and discharging mechanism for electronic components according to the present utility model;

fig. 3 is a schematic diagram of an internal structure of a single-piece solder receiving and discharging mechanism for electronic components according to the present utility model;

fig. 4 is a schematic diagram of a welding control frame of a single-piece welding receiving and discharging mechanism for electronic components.

In the figure: 1. a case; 2. a first conveyor belt; 3. a second conveyor belt; 4. an induction block; 5. an inductive probe; 6. a first motor; 7. a second motor; 8. welding plates; 9. an electric telescopic rod; 10. a push plate; 11. welding a control frame; 12. a bottom plate; 13. a first sliding plate; 14. a second sliding plate; 15. a third sliding plate; 16. fixing the support plate; 17. a welding machine; 18. the first steering engine; 19. the second steering engine; 20. the third steering engine; 21. a first gear; 22. a second gear; 23. a third gear; 24. a getter pump; 25. a flue gas treatment box; 26. a camera; 27. controlling a display screen; 28. and a limiting plate.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments.

In the description of the present utility model, it should be understood that the terms "upper," "lower," "front," "rear," "left," "right," "top," "bottom," "inner," "outer," and the like indicate or are based on the orientation or positional relationship shown in the drawings, merely to facilitate description of the present utility model and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

Examples:

referring to fig. 1-4, an electronic component single-piece welding receiving and discharging mechanism comprises a box body 1, a first conveying belt 2 and a second conveying belt 3, wherein the first conveying belt 2 and the second conveying belt 3 extend into the box body 1, the head end of the first conveying belt 2 abuts against the tail end of the second conveying belt 3, an induction block 4 is uniformly embedded and installed on the first conveying belt 2, an induction probe 5 matched with the induction block 4 is fixedly installed in the box body 1, a first motor 6, a second motor 7, a welding plate 8, an electric telescopic rod 9 and a welding control frame 11 are fixedly installed in the box body 1, the output end of the first motor 6 is fixedly connected with the driving end of the first conveying belt 2, the output end of the second motor 7 is fixedly connected with the driving end of the second conveying belt 3, the two welding plates 8 are positioned on two sides of the tail end of the second conveying belt 3, three push plates 10 are fixedly installed at the lower end of the electric telescopic rod 9, and a welding machine 17 is fixedly installed on the welding control frame 11.

The width of the welding plate 8 is the same as that of the second conveyor belt 3, and the pushing plates 10 are positioned above the gap between the welding plate 8 and the second conveyor belt 3 and above the side ends of the welding plate 8, so that the width of the welding plate 8 is the same as that of the second conveyor belt 3, and the electronic components can be accurately moved while the same spacing between the three pushing plates 10 is ensured.

The welding control frame 11 comprises a bottom plate 12, a first sliding plate 13, a second sliding plate 14, a third sliding plate 15 and a fixed support plate 16, wherein the first sliding plate 13 is slidably arranged on the bottom plate 12, the second sliding plate 14 is slidably arranged on the first sliding plate 13, the third sliding plate 15 is slidably arranged on the second sliding plate 14, the fixed support plate 16 is fixedly arranged on the third sliding plate 15, the welding machine 17 is fixedly arranged at the bottom end of the fixed support plate 16, the first sliding plate 13 is fixedly provided with a first steering engine 18, the output end of the first steering engine 18 passes through the first sliding plate 13 and is fixedly provided with a first gear 21, the bottom plate 12 is provided with a gear strip matched with the first gear 21, the second sliding plate 14 is fixedly provided with a second steering engine 19, the output end of the second steering engine 19 passes through the second sliding plate 14 and is fixedly provided with a second gear 22, the third sliding plate 15 is fixedly provided with a third steering engine 20, the output end of the third steering engine 20 passes through the third sliding plate 15 and is fixedly provided with a gear 23, the third sliding plate 15 can be accurately controlled to move through the third sliding plate 13 and the third sliding plate 17, the third sliding plate 13 can be accurately controlled to move through the third sliding plate 17, and the third sliding plate 13 can be accurately controlled to move, and the third sliding plate 17 can be accurately controlled to move, and the third sliding plate 13 can move through the third sliding plate 13 is controlled.

The fixed support plate 16 is fixedly provided with the suction pump 24, the box body 1 is fixedly provided with the smoke treatment box 25, the suction pump 24 is communicated with the smoke treatment box 25 through a soft air pipe, smoke generated by welding is absorbed by the suction pump 24, and the smoke treatment box 25 is used for collecting and treating, so that the device is prevented from being corroded for a long time by the welded smoke.

The camera 26 is fixedly installed in the box body 1, the control display screen 27 is fixedly installed on the box body 1, the camera 26 shoots the interior of the box body 1, and the control display screen 27 is used for watching, so that the running condition in the box body 1 is watched.

The box 1 internal thread installs a plurality of bolts, rotates on the bolt and installs limiting plate 28, rotates the bolt, adjusts the interval between the limiting plate 28, lets electronic component adjust when passing between the limiting plate 28, prevents that electronic component from appearing inclining, lets the welding appear the error.

The inductive probe 5 is directed to the head end of the first conveyor belt 2, and each electronic component is fed onto the second conveyor belt 3, so that signal transmission can be performed through the second conveyor belt 3 and the inductive block 4.

The utility model is applied to the technical field of electronic component processing, an electronic component is placed on a first conveyor belt 2, an electronic component is placed between every two induction blocks 4, a first motor 6 and a second motor 7 are started, the first conveyor belt 2 and the second conveyor belt 3 are started, the induction probe 5 senses the lower side, when the induction blocks 4 pass through from the lower side of the induction probe 5, the induction probe 5 emits control signals, the second motor 7 stops running, an electric telescopic rod 9 is extended, a push plate 10 above the side end of a welding plate 8 is moved to the upper side of a gap between the second conveyor belt 3 and the welding plate 8, after the electric telescopic rod 9 extends, the second motor 7 continues to start, when the electronic component is conveyed to the second conveyor belt 3 by the first conveyor belt 2, the induction probe 5 senses the induction blocks 4, the second motor 7 stops, the push plate 10 pushes the electronic component to the welding plate 8, after the shrinkage of the electric telescopic rod 9 is finished, the second motor 7 is started again, each steering engine and each electronic component on a welding control frame 11 are started, when the electronic component is conveyed to the second conveyor belt 3 again, the electronic component is welded to the other after the electronic component is conveyed to the second conveyor belt 8, the electronic component is welded to the second conveyor belt 3, the electronic component is welded to the other after the electronic component is conveyed to the second conveyor belt 9, and the electronic component is welded to the other after the electronic component is conveyed to the second conveyor belt 9, and the electronic component is conveyed to the electronic component, and the electronic component is welded to the electronic component.

The present utility model is not limited to the above-mentioned embodiments, and any person skilled in the art, based on the technical solution of the present utility model and the inventive concept thereof, can be replaced or changed within the scope of the present utility model.

Claims (10)

1. The utility model provides an electronic component single piece welds and receives blowing mechanism, includes box (1), first conveyer belt (2) and second conveyer belt (3), its characterized in that, first conveyer belt (2) with second conveyer belt (3) stretch into in box (1), the head end of first conveyer belt (2) with the tail end of second conveyer belt (3) offsets, evenly inlay on first conveyer belt (2) and install induction block (4), fixed mounting in box (1) have with induction block (4) assorted inductive probe (5), fixed mounting has first motor (6), second motor (7), welded plate (8), electric telescopic handle (9) and welding control frame (11) in box (1), the output of first motor (6) with the drive end fixed connection of first conveyer belt (2), the output of second motor (7) with the drive end fixed connection of second conveyer belt (3), welded plate (8) have two end fixed mounting in two ends of welded plate (8), welded plate (8) have both sides welded plate (3) together, welded plate (9) welded plate (17).

2. An electronic component single-piece solder receiving and discharging mechanism according to claim 1, characterized in that the width of the solder plate (8) is the same as the width of the second conveyor belt (3), and the push plate (10) is located above the gap between the solder plate (8) and the second conveyor belt (3) and above the side end of the solder plate (8).

3. An electronic component single-piece welding receiving and discharging mechanism according to claim 1, characterized in that the welding control frame (11) comprises a bottom plate (12), a first sliding plate (13), a second sliding plate (14), a third sliding plate (15) and a fixed support plate (16), wherein the first sliding plate (13) is slidably mounted on the bottom plate (12), the second sliding plate (14) is slidably mounted on the first sliding plate (13), the third sliding plate (15) is slidably mounted on the second sliding plate (14), the fixed support plate (16) is fixedly mounted on the third sliding plate (15), and the welding machine (17) is fixedly mounted at the bottom end of the fixed support plate (16).

4. A single-piece electronic component welding receiving and discharging mechanism according to claim 3, wherein a first steering engine (18) is fixedly installed on the first sliding plate (13), an output end of the first steering engine (18) penetrates through the first sliding plate (13) and is fixedly provided with a first gear (21), and a gear strip matched with the first gear (21) is arranged on the bottom plate (12).

5. A single-piece electronic component welding receiving and discharging mechanism according to claim 3, wherein a second steering engine (19) is fixedly installed on the second sliding plate (14), an output end of the second steering engine (19) penetrates through the second sliding plate (14) and is fixedly provided with a second gear (22), and a gear strip matched with the second gear (22) is arranged on the first sliding plate (13).

6. A single-piece electronic component welding receiving and discharging mechanism according to claim 3, wherein a third steering engine (20) is fixedly installed on the third sliding plate (15), an output end of the third steering engine (20) penetrates through the third sliding plate (15) and is fixedly provided with a third gear (23), and a gear strip matched with the third gear (23) is arranged on the second sliding plate (14).

7. A single-piece welding receiving and discharging mechanism for electronic components according to claim 3, wherein a suction pump (24) is fixedly arranged on the fixing support plate (16), a flue gas treatment box (25) is fixedly arranged on the box body (1), and the suction pump (24) is communicated with the flue gas treatment box (25) through a soft air pipe.

8. An electronic component single-piece welding receiving and discharging mechanism according to claim 1, wherein a camera (26) is fixedly arranged in the box body (1), and a control display screen (27) is fixedly arranged on the box body (1).

9. An electronic component single-piece welding receiving and discharging mechanism according to claim 1, characterized in that a plurality of bolts are mounted on the internal threads of the box body (1), and a limiting plate (28) is rotatably mounted on the bolts.

10. An electronic component single piece solder receiving and feeding mechanism according to claim 1, characterized in that the inductive probe (5) is directed towards the head end of the first conveyor belt (2).

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