CN214518405U - Upper supporting arm machining production line - Google Patents

Abstract

The utility model discloses an upper bracket processing lines, including feeding mechanism, first welding unit and second welding unit, first welding unit includes first welding robot, two first hold-down mechanism and sets up two first location layer boards on dual conveyer belt ring conveyer, two first location layer board and two first hold-down mechanism sets up relatively, two be provided with first welding robot between the first hold-down mechanism, second welding unit includes second hold-down mechanism, second location layer board and two second welding robots, second location layer board one side is provided with second hold-down mechanism, second welding unit with one side of feeding mechanism sets up relatively. Adopt an upper bracket processing lines of above-mentioned structure for production line rational layout reduces the robot quantity simultaneously, improves production efficiency, reduces use cost, practices thrift the space.

Description

Upper supporting arm machining production line

Technical Field

The utility model belongs to the technical field of the machining technique and specifically relates to an upper supporting arm machining production line is related to.

Background

The existing upper support arm machining production line usually needs to go through a plurality of welding processes, operators need to wait for the completion of welding of workpieces at an operation window, and the workpieces which are welded are placed on a positioning supporting plate of the next process for welding, so that time waste is caused, and the work efficiency is reduced. And in the course of working, still need the cooperation of a plurality of robots just workable completion, the robot use quantity is closely related with manufacturing cost, and a plurality of robots participate in processing production, can lead to the production and processing cost to increase, and a plurality of robots carry out the during operation, still can occupy a large amount of spaces, do not utilize space rational utilization.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an upper bracket machining production line reduces welded latency, improves work efficiency, has reduced the use quantity of robot simultaneously, reduces use cost, practices thrift the space.

In order to achieve the purpose, the utility model provides an upper support arm processing production line, which comprises a feeding mechanism, a first welding unit and a second welding unit, wherein the first welding unit comprises a first welding robot, two first pressing mechanisms and two first positioning support plates arranged on a double-conveying-belt annular conveyor, the two first positioning support plates and the two first pressing mechanisms are oppositely arranged, and the first welding robot is arranged between the two first pressing mechanisms;

the second welding unit comprises a second pressing mechanism, a second positioning supporting plate and two second welding robots, the two second welding robots are arranged at two ends of the second positioning supporting plate, and the second pressing mechanism is arranged on one side of the second positioning supporting plate;

the second welding unit is arranged opposite to one side of the feeding mechanism, and one end of the feeding mechanism is arranged opposite to the first welding unit.

Preferably, the pressing mechanism comprises an air cylinder support, a pressing air cylinder and a pressing plate, the pressing plate is arranged above the double-conveying-belt annular conveyor, the pressing plate is connected with the telescopic end of the pressing air cylinder, and the pressing air cylinder is arranged on the air cylinder support.

Preferably, the feeding mechanism comprises a conveyor belt and a conveying motor, the conveying motor is connected with a conveying shaft below the conveyor belt through a chain, and baffles are arranged on two sides of the conveyor belt.

Preferably, the double-conveyor-belt annular conveyor comprises a first driving motor, a second driving motor, a first conveyor belt and a second conveyor belt, the first conveyor belt is connected with the first driving motor, the first conveyor belt is fixedly connected with one of the first positioning supporting plates through a fixing plate, the second conveyor belt is connected with the second driving motor, and the second conveyor belt is fixedly connected with the other first positioning supporting plate through a fixing plate.

Preferably, the first positioning supporting plate and the second positioning supporting plate are both provided with positioning grooves, and positioning blocks are arranged on two sides of each positioning groove.

Therefore, the utility model aims at providing an upper bracket processing lines sets up first location layer board on dual conveyer belt ring conveyor, has reduced welded latency, improves work efficiency, has reduced the use quantity of robot simultaneously, reduces use cost, practices thrift the space.

The technical solution of the present invention is further described in detail by the accompanying drawings and examples.

Drawings

FIG. 1 is a schematic structural view of an upper support arm processing production line of the present invention;

fig. 2 is the utility model relates to an upper bracket processing lines location layer board schematic diagram.

Reference numerals

1. A first welding unit; 11. a first positioning pallet; 111. positioning blocks; 112. a positioning groove; 12. a first welding robot; 13. a double conveyor belt endless conveyor; 131. a first conveyor belt; 132. a second conveyor belt; 14. a first hold-down mechanism; 141. a pressing cylinder; 142. a cylinder support; 143. a compression plate; 2. a second welding unit; 21. a second welding robot; 22. a second positioning pallet; 23. a second hold-down mechanism; 3. a feeding mechanism.

Detailed Description

Examples

Fig. 1 is the utility model relates to an upper arm processing lines structure schematic diagram, fig. 2 is the utility model relates to an upper arm processing lines location layer board structure schematic diagram, as shown in the figure, including first welding unit 1, second welding unit 2 and feeding mechanism 3.

In this embodiment, the first welding unit 1 includes two first pressing mechanisms 14, a first welding robot 12, and two first positioning support plates 11 disposed on the dual-conveying-belt endless conveyor 13, a positioning groove 112 is disposed on the first positioning support plate 11, the positioning groove 112 is matched with a workpiece to be welded, and positioning blocks 111 are disposed on two sides of the positioning groove 112, so as to position the workpiece and prevent the workpiece from moving on the positioning support plate 11. One of the two first positioning support plates 11 is fixedly connected with the first conveyor belt 131 in the dual-conveyor belt endless conveyor 13 through a fixing plate. The other of the two first positioning pallets 11 is fixedly connected with the second conveyor belt 132 of the dual-conveyor endless conveyor 13 through a fixing plate. The first conveyor belt 131 is fixedly connected with the first driving motor, and the second conveyor belt 132 is fixedly connected with the second driving motor. When the first driving motor is started, the positioning blade fixed to the first conveyor belt 131 moves along with the first conveyor belt. When the second drive motor is activated, the positioning pallet fixed to the second conveyor belt 132 moves with the second conveyor belt. When the welding machine is used, the first conveying belt 131 and the second conveying belt 132 are opened simultaneously, when one of the first positioning supporting plates 11 on the first conveying belt 131 completes the first welding, the positioning supporting plate moves forwards to perform the second welding, and at the moment, the other positioning supporting plate in the first positioning supporting plate 11 reaches the position of the just positioning supporting plate to wait for the first welding, so that the time can be saved, and the working efficiency is improved. The two first positioning supporting plates 11 are arranged opposite to the two first pressing mechanisms 14, so that the workpieces on the first positioning supporting plates 11 can be pressed conveniently. A first welding robot 12 is arranged between the two first pressing mechanisms 14, so that different positions of the same workpiece can be welded conveniently. The first pressing mechanism 14 comprises an air cylinder bracket 142, a pressing air cylinder 142 and a pressing plate 143, and the pressing plate 143 is arranged above the double-conveyor-belt annular conveyor 13, so as to press the workpiece on the first positioning pallet on the double-conveyor-belt annular conveyor 13 conveniently. The pressing plate 143 is connected to the telescopic end of the pressing cylinder 141, so that the position of the pressing plate 143 can be moved. The pressing cylinder 141 is disposed on the cylinder bracket 142 and is fixedly connected to the cylinder bracket 142 to prevent movement. The second welding unit 2 comprises two second welding robots 21 and a second positioning supporting plate 22, the second welding robots 21 are arranged at two ends of the second positioning supporting plate 22, the two second welding robots 21 can weld workpieces on the second positioning supporting plate 22 conveniently, and work efficiency is improved. The second positioning pallet 22 is structurally identical to the first positioning pallet 11. The second positioning supporting plate 22 and the second pressing mechanism 23 are arranged oppositely, so that the workpiece on the second positioning supporting plate 22 can be conveniently pressed, and the second welding robot 21 can be conveniently welded. The second pressing mechanism 23 has the same structure as the first pressing mechanism 14. The second welding unit 2 is arranged opposite to one side of the feeding mechanism 3, one end of the feeding mechanism 3 is arranged opposite to the first welding unit, and workpieces welded by the first welding unit can be conveniently conveyed to the second welding unit for processing. The feeding structure 3 comprises a conveying belt and a conveying motor, the conveying motor is connected with a conveying shaft below the conveying belt through a chain, and baffles are arranged on two sides of the conveying belt. After the workpieces on the first positioning supporting plate 11 are welded, an operator can take out the welded workpieces to be placed on the conveying belt, a second welding group can weld conveniently, time is saved, and efficiency is improved.

Therefore, the utility model aims at providing an upper bracket processing lines sets up first location layer board on dual conveyer belt ring conveyor, has reduced welded latency, improves work efficiency, has reduced the use quantity of robot simultaneously, reduces use cost, practices thrift the space.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solutions of the present invention and not for limiting the same, and although the present invention is described in detail with reference to the preferred embodiments, those skilled in the art should understand that: the technical solution of the present invention can still be modified or replaced by other equivalent means, and the modified technical solution can not be separated from the spirit and scope of the technical solution of the present invention.

Claims (5)

1. The utility model provides an upper bracket machining production line which characterized in that: the automatic welding device comprises a feeding mechanism, a first welding unit and a second welding unit, wherein the first welding unit comprises a first welding robot, two first pressing mechanisms and two first positioning support plates arranged on a double-conveying-belt annular conveyor, the two first positioning support plates are arranged opposite to the two first pressing mechanisms, and the first welding robot is arranged between the two first pressing mechanisms;

the second welding unit comprises a second pressing mechanism, a second positioning supporting plate and two second welding robots, the two second welding robots are arranged at two ends of the second positioning supporting plate, and the second pressing mechanism is arranged on one side of the second positioning supporting plate;

the second welding unit is arranged opposite to one side of the feeding mechanism, and one end of the feeding mechanism is arranged opposite to the first welding unit.

2. The upper arm processing line of claim 1, wherein: the pressing mechanism comprises an air cylinder support, a pressing air cylinder and a pressing plate, the pressing plate is arranged above the double-conveying-belt annular conveyor, the pressing plate is connected with the telescopic end of the pressing air cylinder, and the pressing air cylinder is fixedly installed on the air cylinder support.

3. The upper arm processing line of claim 1, wherein: the feeding mechanism comprises a conveying belt and a conveying motor, the conveying motor is connected with a conveying shaft below the conveying belt through a chain, and baffles are arranged on two sides of the conveying belt.

4. The upper arm processing line of claim 1, wherein: the double-conveying-belt annular conveyor comprises a first driving motor, a second driving motor, a first conveying belt and a second conveying belt, wherein the first conveying belt is connected with the first driving motor, the first conveying belt is fixedly connected with one of the first positioning supporting plates through a fixing plate, the second conveying belt is connected with the second driving motor, and the second conveying belt is fixedly connected with the other first positioning supporting plate through a fixing plate.

5. The upper arm processing line of claim 1, wherein: and the first positioning supporting plate and the second positioning supporting plate are both provided with positioning grooves, and positioning blocks are arranged on two sides of each positioning groove.

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