CN217799958U - Multi-station welding device for photoelectronic devices - Google Patents

Abstract

The utility model discloses a multistation photoelectronic device welding device, which relates to the field of welding devices and comprises a feeding unit and a welding unit; the feeding unit comprises a rotating platform with a power motor and a plurality of placing seats uniformly arranged on the periphery of the table top of the rotating platform; the welding unit comprises a welding installation seat arranged on one side of the rotating platform, a horizontal moving mechanism which is installed on the welding installation seat in a vertically movable mode and an adjustable welding mechanism which is installed on the horizontal moving mechanism in a horizontally movable mode; the adjustable welding mechanism comprises an adjusting clamping block and a welding head adjustably clamped on the adjusting clamping block through an adjusting shaft, and a handle is arranged at the end of the adjusting shaft. The utility model discloses a revolving stage and welding unit's ally oneself with usefulness can realize the continuous operation of the photoelectronic device on the revolving stage, under the condition that does not need newly-increased soldered connection, promotes machining efficiency.

Description

Multi-station welding device for photoelectronic devices

Technical Field

The utility model relates to a welding set field, in particular to multistation optoelectronic device welding set.

Background

Optoelectronic devices are functional devices that are fabricated using the electro-photon conversion effect. The design principle of the optoelectronic device is based on the change of the external field to the propagation mode of guided wave light. The photoelectronic device is a key and core component of photoelectronic technology, is the leading research field of modern photoelectronic technology and microelectronic technology, and is an important component of information technology. Because of the precise structure, the production and processing of the material are also required to precisely regulate and control the processing precision.

In order to improve the processing efficiency, the conventional welding equipment for optoelectronic devices generally adopts a mode of driving a plurality of welding heads to ascend and descend for welding through a movable sleeve as described in a chinese patent "a welding equipment for optoelectronic device coupling" with publication number CN 113814625A. The mode can realize the welding processing of a plurality of optoelectronic devices at the same time, but the cost is higher, the processing of the whole batch of products can be influenced when one welding head is damaged, and the maintenance cost is higher.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide a multistation photoelectronic device welding set, solve current photoelectronic device welding efficiency not good and maintenance cost scheduling problem.

In order to solve the technical problem, the utility model discloses a technical scheme does:

a multi-station welding device for photoelectronic devices comprises a feeding unit and a welding unit;

the feeding unit comprises a rotating platform with a power motor and a plurality of placing seats uniformly arranged on the periphery of the table top of the rotating platform;

the welding unit comprises a welding installation seat arranged on one side of the rotating platform, a horizontal moving mechanism which is installed on the welding installation seat in a vertically movable mode, and an adjustable welding mechanism which is installed on the horizontal moving mechanism in a horizontally movable mode;

the adjustable welding mechanism comprises an adjusting clamping block and a welding head adjustably clamped on the adjusting clamping block through an adjusting shaft, and a handle is arranged at the end of the adjusting shaft.

Preferably, the surface of the rotating platform is of a hollow structure.

Preferably, the placing seat is a hollow cylindrical structure.

Preferably, a loading sensor is arranged on the inner side of each placing seat.

Preferably, the jacking cylinder is installed to the vertical direction of welding mount pad, L type connecting seat is installed to the power take off end of jacking cylinder, L type connecting seat both sides are equipped with the jacking guide rail that is parallel to each other, L type connecting seat passes through slider slidable mounting on the jacking guide rail, horizontal migration mechanism installs on L type connecting seat.

Preferably, the horizontal moving mechanism comprises a horizontal moving cylinder and a horizontal guide rail, the adjustable welding mechanism is slidably mounted on the horizontal guide rail through a sliding block, and a power output end of the horizontal moving cylinder is connected with the adjustable welding mechanism.

By adopting the technical scheme, the utility model discloses a revolving stage and welding unit's antithetical couplet usefulness, can realize the continuous operation of the optoelectronic device on the revolving stage, under the condition that need not newly increase the soldered connection, promote machining efficiency; and the welding head can be adjusted vertically, horizontally and at different angles along the welding mounting seat, so that the use flexibility is greatly improved, and the welding head is convenient to be applied to photoelectronic devices of different models.

Drawings

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

FIG. 2 is a schematic structural view of the welding unit of the present invention in one direction;

fig. 3 is a schematic structural view of the welding unit in another direction according to the present invention.

In the figure, 1-a rotating platform, 2-a placing seat, 3-a power motor, 4-a feeding sensor, 5-a welding installation seat, 6-a jacking cylinder, 7-an L-shaped connecting seat, 8-a jacking guide rail, 9-a horizontal moving cylinder, 10-a horizontal guide rail, 11-an adjusting clamp block, 12-an adjusting shaft, 13-a welding head and 14-a handle.

Detailed Description

The following describes the present invention with reference to the accompanying drawings. It should be noted that the description of the embodiments is provided to help understanding of the present invention, but the present invention is not limited thereto. In addition, the technical features related to the embodiments of the present invention described below may be combined with each other as long as they do not conflict with each other.

As shown in fig. 1, a multi-station welding device for optoelectronic devices comprises a feeding unit and a welding unit;

continuing to be shown in fig. 1, the feeding unit comprises a rotating platform 1 with a power motor 3 and a plurality of placing seats 2 uniformly arranged on the periphery of the table top of the rotating platform 1, so that the optoelectronic devices to be welded can be placed on the placing seats 2 under the action of the external mechanical arm, and the optoelectronic devices at different stations are rotated and sent to the welding unit for welding under the driving of the power motor 3;

as shown in fig. 2 and 3, the welding unit includes a welding mount 5 provided at one side of the rotary table 1, a horizontal movement mechanism mounted on the welding mount 5 to be movable up and down, and an adjustable welding mechanism mounted on the horizontal movement mechanism to be movable horizontally, so that the adjustable welding mechanism can be moved back and forth in vertical and horizontal directions along the welding mount 5, facilitating flexible adjustment of the welding direction of the adjustable welding mechanism;

continuing as shown in fig. 2 and 3, adjustable welding mechanism includes adjusting clamp 11 and the soldered connection 13 of adjustable clamping on adjusting clamp 11 through regulating shaft 12, and regulating shaft 12 tip is equipped with handle 14, the angle modulation of the staff of being convenient for, and during the use, the staff adjusts the clamping angle of regulating shaft 12 in adjusting clamp 11 through handle 14, in order to guarantee the reliability of adjusting clamp 11 clamping, can use connecting piece such as bolt will adjust clamp 11 opening part and screw up, guarantee to adjust clamp 11 butt weld 13's installation stability.

When the adjustable welding mechanism is used, an external manipulator and the like send optoelectronic devices to be welded to the placing seat 2 of the feeding unit, the optoelectronic devices on the rotating platform 1 are driven by the motor 3 to be sent to the position below the welding head 13 of the welding unit for welding operation, and before welding, a worker adjusts the welding head 13 on the adjustable welding mechanism to a proper position to ensure the reliability of the welding operation.

The utility model can realize the continuous operation of the photoelectronic device on the rotary table 1 by the combination of the rotary table 1 and the welding unit, and improve the processing efficiency without newly adding a welding head 13; and the welding head 13 can be adjusted vertically, horizontally and at different angles along the welding mounting seat 5, so that the use flexibility is greatly improved, and the welding head is convenient to be applied to photoelectronic devices of different models.

In order to ensure that the power motor 3 drives the rotating reliability of the rotating platform 1, the self weight of the rotating platform 1 is reduced, the surface of the rotating platform 1 is of a hollow structure, the self weight of the rotating platform 1 can be effectively reduced, and the reliability that the power motor 3 drives the rotating reliability of the rotating platform 1 is ensured.

In order to facilitate stable placement of the photoelectronic device, the placing seat 2 is of a hollow cylindrical structure, the photoelectronic device is conveniently positioned and vertically inserted into the placing seat 2, one surface to be welded is limited at the top of the placing seat 2, and subsequent welding units are conveniently positioned and welded.

For optoelectronic device's material loading monitoring, guarantee that every places and has placed optoelectronic device on the seat 2, every is placed 2 inboards of seat and is equipped with material loading sensor 4, can carry out real-time supervision to the material loading condition of placing on the seat 2, guarantees optoelectronic device's material loading orderliness.

Specifically, jacking cylinder 6 is installed to 5 vertical directions of welding mount pad, L type connecting seat 7 is installed to the power take off end of jacking cylinder 6, L type connecting seat 7 both sides are equipped with the jacking guide rail 8 that is parallel to each other, L type connecting seat 7 passes through slider slidable mounting on jacking guide rail 8, horizontal migration mechanism installs on L type connecting seat 7, thereby can be under the jacking drive of jacking cylinder 6, drive L type connecting seat 7 and the horizontal migration mechanism on it along the vertical reciprocating of 8 directions of jacking guide rail.

Specifically, horizontal migration mechanism includes horizontal migration cylinder 9 and horizontal guide 10, and adjustable welding mechanism passes through slider slidable mounting on horizontal guide 10, and the power take off end of horizontal migration cylinder 9 is connected with adjustable welding mechanism to can drive adjustable welding mechanism along horizontal guide 10 direction round trip movement under the flexible promotion of horizontal migration cylinder 9.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the described embodiments. It will be apparent to those skilled in the art that various changes, modifications, substitutions and alterations can be made in the embodiments without departing from the principles and spirit of the invention, and these embodiments are still within the scope of the invention.

Claims (6)

1. A multistation optoelectronic device welding set which characterized in that: comprises a feeding unit and a welding unit;

the feeding unit comprises a rotating platform (1) with a power motor (3) and a plurality of placing seats (2) which are uniformly arranged on the periphery of the table top of the rotating platform (1);

the welding unit comprises a welding installation seat (5) arranged on one side of the rotating platform (1), a horizontal moving mechanism which can be installed on the welding installation seat (5) in a vertically moving mode, and an adjustable welding mechanism which can be installed on the horizontal moving mechanism in a horizontally moving mode;

the adjustable welding mechanism comprises an adjusting clamping block (11) and a welding head (13) adjustably clamped on the adjusting clamping block (11) through an adjusting shaft (12), and a handle (14) is arranged at the end part of the adjusting shaft (12).

2. The multi-station welding device for optoelectronic devices according to claim 1, wherein: the surface of the rotating platform (1) is of a hollow structure.

3. The multi-station welding device for optoelectronic devices according to claim 1, wherein: the placing seat (2) is of a hollow cylindrical structure.

4. The multi-station welding device for optoelectronic devices according to claim 1, wherein: and a feeding sensor (4) is arranged on the inner side of each placing seat (2).

5. The multi-station welding device for optoelectronic devices according to claim 1, wherein: jacking cylinder (6) are installed to welding mount pad (5) vertical direction, L type connecting seat (7) are installed to the power take off end of jacking cylinder (6), L type connecting seat (7) both sides are equipped with jacking guide rail (8) that are parallel to each other, L type connecting seat (7) are through slider slidable mounting on jacking guide rail (8), horizontal migration mechanism installs on L type connecting seat (7).

6. The multi-station welding device for optoelectronic devices according to claim 1, wherein: the horizontal moving mechanism comprises a horizontal moving cylinder (9) and a horizontal guide rail (10), the adjustable welding mechanism is slidably mounted on the horizontal guide rail (10) through a sliding block, and the power output end of the horizontal moving cylinder (9) is connected with the adjustable welding mechanism.

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