CN219402926U - Positioning spot welding device for aluminum template machining - Google Patents

Abstract

The positioning spot welding device for aluminum template machining comprises a frame, a spot welding station for placing an aluminum template for spot welding, a positioning mechanism for positioning the spot welding position of the aluminum template and a control device for controlling the positioning spot welding device to work, wherein the spot welding station and the positioning mechanism are both arranged on the frame, the control device is in circuit connection with the positioning mechanism, the positioning mechanism comprises a swing arm, a swing mechanism for driving the swing arm to swing in and out of the spot welding station and a moving mechanism for driving the swing arm to move along the length direction of the spot welding station, one end of the swing arm extending to the spot welding station is provided with an attaching surface for attaching and positioning with a spot welding workpiece, the other end of the swing arm is connected with the swing mechanism, the swing mechanism is arranged on the moving mechanism, and the moving mechanism is arranged on the frame; the quick positioning of the spot welding position can be realized, the spot welding efficiency is greatly accelerated, the processing cost can be reduced, and the manpower resources of advanced technicians are saved.

Description

Positioning spot welding device for aluminum template machining

Technical Field

The utility model belongs to the technical field of assembly type buildings, and particularly relates to a positioning spot welding device for aluminum template processing.

Background

The aluminum template is a concrete engineering building template made of aluminum alloy, and as shown in fig. 7, the aluminum template comprises a template main body A, a front sealing plate B, a rear sealing plate C and supporting ribs D, when the aluminum template is processed, the front sealing plate B and the rear sealing plate C are required to be welded at the front end and the rear end of the template main body A, and then a plurality of supporting ribs D are welded at the bottom of the template main body A at intervals. In the process of aluminum template welding processing, the front sealing plate B, the rear sealing plate C and the supporting rib D are required to be subjected to spot welding positioning at the corresponding welding positions of the template main body A in a manual spot welding mode, the front sealing plate B, the rear sealing plate C and the supporting rib D are preliminarily fixed at the welding positions, and then the welding positions of the front sealing plate B, the rear sealing plate C and the supporting rib D are subjected to full-welding processing by using an automatic welding robot, so that manual welding work is reduced, the labor intensity of manual welding is reduced, and the working efficiency of aluminum template processing is improved. However, in the process of manual spot welding, manual alignment is required for determining the welding positions of the front sealing plate B, the rear sealing plate C and the supporting rib D, so that a spot welder is required to measure the welding positions with higher precision, and the precision determined by means of manual measurement is often large in error, so that the welding precision of a product cannot be ensured, and a positioning spot welding device for processing an aluminum template is required to assist the spot welder in position determination.

At present, a part of factories adopt a mode of locating a die frame, a die frame with the size consistent with that of an aluminum template to be welded is prefabricated, a welding position of a supporting rib D is reserved in the die frame, the die frame is sleeved on the aluminum template when in use, and then the supporting rib D is placed in the welding position manually or mechanically and is subjected to spot welding. Although the process can reduce the error of manual measurement, the length of the aluminum template is a non-standard parameter, the welding position of the internal support rib D is changed by N, a manufacturer needs to reserve a large number of positioning templates, and huge production cost is also required.

Disclosure of Invention

In order to overcome the defects in the prior art, the utility model provides a positioning spot welding device for processing an aluminum template.

The technical scheme adopted for solving the technical problems is as follows:

the utility model provides a location spot welding device of aluminum mould board processing, includes the frame, is used for placing the spot welding station that the aluminum mould board carries out spot welding processing, is used for carrying out the positioning mechanism that fixes a position to the spot welding position of aluminum mould board and is used for controlling the controlling means of location spot welding device work, spot welding station and positioning mechanism all install in the frame, controlling means and positioning mechanism circuit connection, positioning mechanism includes the swing arm, is used for driving the swing arm swing business turn over spot welding station's swing mechanism and is used for driving the swing arm along the mobile mechanism that the spot welding station length direction removed, the one end that the swing arm extends to the spot welding station is equipped with the laminating face that is used for laminating location with the spot welding work piece, swing mechanism is connected to the other end of swing arm, swing mechanism installs on mobile mechanism, mobile mechanism installs in the frame.

In the utility model, the moving mechanism comprises a moving guide rail arranged on the frame, a moving sliding block matched with the moving guide rail, a moving base arranged on the moving sliding block, a moving motor arranged on the moving base and a transmission mechanism connected with the moving motor in a transmission way.

In the utility model, the swing mechanism comprises a swing rotating shaft connected with a swing arm, a driving rod connected with the swing rotating shaft and a swing telescopic cylinder hinged with the driving rod, wherein the swing rotating shaft is rotatably arranged on a movable base, and the swing telescopic cylinder is arranged on the movable base.

In the utility model, the bonding surface is provided with two surfaces, one surface is a vertical bonding surface perpendicular to the spot welding station, the other surface is an inclined bonding surface inclined to the spot welding station, and the two surfaces are respectively arranged on two sides of the swing arm.

In the utility model, a touch switch is arranged on the swing arm and is in circuit connection with the control device.

In the utility model, the positioning spot welding device further comprises a feeding mechanism and a discharging mechanism, wherein the feeding mechanism and the discharging mechanism are both arranged on the frame, the feeding mechanism is connected with the feeding end of the spot welding station, and the discharging mechanism is connected with the discharging end of the spot welding station; the feeding mechanism and the discharging mechanism are distributed in an upper layer and a lower layer, and the feeding mechanism is arranged above the discharging mechanism.

According to the utility model, the feeding mechanism comprises a feeding conveying mechanism for conveying the template main body to enter and a transferring mechanism for transferring the template main body from the feeding conveying mechanism to the spot welding station, the feeding conveying mechanism comprises a plurality of feeding conveying rollers arranged on the frame, the transferring mechanism comprises a lifting rod for enabling the template main body to obliquely lift and slide into the spot welding station and a lifting mechanism for driving the lifting rod to lift, the lifting mechanism is connected with the lifting rod, and the lifting rod is arranged between the feeding conveying rollers.

In the utility model, the top surface of the lifting rod is provided with a plurality of balls or rollers.

In the utility model, one side of the spot welding station far away from the feeding mechanism is rotationally connected to the frame, the bottom of the spot welding station is connected with a turnover mechanism for driving the spot welding station to turn up and down, and the turnover mechanism is arranged on the frame.

An upper bearing frame which is obliquely arranged is arranged between the feeding mechanism and the spot welding station, and the upper bearing frame is obliquely arranged downwards from the feeding mechanism to the spot welding station; the lower bearing frame is obliquely arranged between the spot welding station and the blanking mechanism, and the lower bearing frame is obliquely arranged downwards from the spot welding station to the blanking mechanism.

The beneficial effects of the utility model are as follows: when carrying out spot welding processing, the spot welder inputs the position parameter of preceding shrouding, back shrouding and supporting rib in advance to controlling means, work through controlling means control positioning mechanism, firstly with the template main part on the spot welding station, then controlling means control moving mechanism action, moving mechanism drives the faying face of swing arm and removes to the front end of template main part, swing mechanism action, drive the swing arm swing and get into spot welding station, at this moment, spot welder only need with preceding shrouding, supporting rib and back shrouding place the faying face of laminating the swing arm one by one in the template main part into spot welding can, need not spot welder to carry out welding position measurement location, can realize spot welding position's quick location, spot welding efficiency has been accelerated greatly, and aluminum template processing is to spot welder's technical requirement has been reduced, can reduce processing cost, high-class technician's manpower resources are saved.

Drawings

Fig. 1 is a perspective view of a spot welding apparatus of the present embodiment;

FIG. 2 is a side view of the tack welding apparatus of this embodiment;

FIG. 3 is a schematic diagram of the positioning mechanism according to the present embodiment;

fig. 4 is a schematic structural view of a swing arm of the present embodiment;

FIG. 5 is a schematic view of the transfer mechanism of the present embodiment;

FIG. 6 is a schematic diagram of the intercepting mechanism of the present embodiment;

fig. 7 is an exploded view of the spot welding process of the aluminum form of this embodiment.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present utility model more clear, the technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model.

Examples:

as shown in fig. 1 to 6, the embodiment discloses a positioning spot welding device for aluminum template processing, which comprises a frame 1, a spot welding station 2 for placing an aluminum template for spot welding processing, a positioning mechanism 3 for positioning the spot welding position of the aluminum template and a control device 4 for controlling the positioning spot welding device to work, wherein the spot welding station 2 and the positioning mechanism 3 are both arranged on the frame 1, the control device 4 is in circuit connection with the positioning mechanism 3, the positioning mechanism 3 comprises a swing arm 31, a swing mechanism 32 for driving the swing arm 31 to swing in and out of the spot welding station 2 and a moving mechanism 33 for driving the swing arm 31 to move along the length direction of the spot welding station 2, one end of the swing arm 31 extending to the spot welding station 2 is provided with an attaching surface 34 for attaching and positioning with a spot welding workpiece, the other end of the swing arm 31 is connected with the swing mechanism 32, the swing mechanism 32 is arranged on the moving mechanism 33, and the moving mechanism 33 is arranged on the frame 1. When in spot welding processing, a spot welder inputs the position parameters of a front sealing plate, a rear sealing plate and a supporting rib into a control device 4 in advance, the control device 4 controls a positioning mechanism 3 to work, a template main body is firstly fed onto a spot welding station 2, then the control device 4 controls a moving mechanism 33 to act, the moving mechanism 33 drives a joint surface 34 of a swing arm 31 to move to the front end of the template main body, a swinging mechanism 32 to act, and drives the swing arm 31 to swing into the spot welding station 2, at the moment, the spot welder only needs to put the joint surface 34 of the front sealing plate joint swing arm 31 into the front end of the template main body, and the position is the welding position of the front sealing plate and the template main body, and the spot welder can directly perform spot welding processing; after the spot welding processing of the front sealing plate is finished, the control device 4 controls the swinging mechanism 32 to act, the swinging mechanism 32 drives the swinging arm 31 to swing and leave the spot welding station 2, the moving mechanism 33 drives the swinging arm 31 to move to the next welding position, the swinging mechanism 32 drives the swinging arm 31 to swing back into the spot welding station 2 again, a spot welder only needs to put the joint surface 34 of the supporting rib, which is jointed with the swinging arm 31, into the template main body, the position is the welding position of the supporting rib and the template main body, and the spot welder can directly perform the spot welding processing; and then the rest support ribs and the rear sealing plate are sequentially subjected to spot welding, the whole process is finished by only putting the spot welding workers into the spot welding workpieces according to the positions of the swing arms 31 to perform spot welding, the spot welding workers are not required to perform welding position measurement and positioning, the spot welding positions can be rapidly positioned, the spot welding efficiency is greatly improved, the technical requirements of aluminum template processing on the spot welding workers are reduced, the processing cost can be reduced, and the manpower resources of advanced technicians are saved.

In this embodiment, the moving mechanism 33 includes a moving rail 331 mounted on the frame 1, a moving slide 332 matched with the moving rail 331, a moving base 333 mounted on the moving slide 332, a moving motor 334 mounted on the moving base 333, and a transmission mechanism 335 connected to the moving motor 334 in a transmission manner, wherein the transmission mechanism 335 may adopt a rack-and-pinion transmission mechanism or a worm-and-gear transmission mechanism, and the moving mechanism 33 rotates through the moving motor 334 to drive the transmission mechanism 335 to act, so as to drive the moving base 333 to move under the matching action of the moving slide 332 and the moving rail 331. If the transmission mechanism 335 adopts a rack and pinion transmission mechanism, the gear is connected to the rotating shaft of the mobile motor 334, the rack is installed on the frame 1, the gear is meshed with the rack, when the mobile motor 334 rotates, the gear rotates synchronously, and the mobile base 333 moves transversely under the cooperation of the gear and the rack.

In this embodiment, the swing mechanism 32 includes a swing shaft 321 connected to the swing arm 31, a driving rod 322 connected to the swing shaft 321, and a swing telescopic cylinder 323 hinged to the driving rod 322, where the swing shaft 321 is rotatably mounted on the moving base 333, and the swing telescopic cylinder 323 is mounted on the moving base 333, and when the swing telescopic cylinder 323 performs telescopic motion, the driving rod 322 drives the swing shaft 321 to rotate, and the swing shaft 321 drives the swing arm 31 to swing around the swing shaft 321.

Since there are two structures of the supporting rib of the aluminum die plate, one is a supporting rib with a square cross section and the other is a supporting rib with a trapezoid cross section, in this embodiment, the abutting surface 34 is also provided with two surfaces, one of which is a vertical abutting surface 341 perpendicular to the spot welding station 2, and the vertical abutting surface 341 is used for adapting to the supporting rib with a square cross section; while the other face is an inclined abutment face 342 provided obliquely to the spot welding station 2, which abutment face 342 is intended to be fitted with a support rib of trapezoidal cross-section. The two bonding surfaces 34 are respectively disposed on two sides of the swing arm 31. When the supporting rib used by the aluminum template is of a square structure, the vertical joint surface 341 is set as a positioning joint surface 34 during spot welding processing, so that the supporting rib can be jointed with the joint surface 34; when the support rib used in the aluminum form is of a trapezoidal structure, the inclined bonding surface 342 is set as the positioning bonding surface 34 during spot welding, so that the support rib can be bonded with the bonding surface 34.

In this embodiment, in order to facilitate the completion of one spot welding process by the spot welder, a completion signal is sent to the control device 4, so that the control device 4 controls the tack welding device to perform the next operation. The swing arm 31 is provided with a touch switch 35, and the touch switch 35 is in circuit connection with the control device 4. When the spot welder finishes a spot welding process, he toggles the touch switch 35, the touch switch 35 sends an electric signal to the control device 4, and after the control device 4 receives the electric signal, the positioning spot welding device is controlled to perform the next action.

As a preferred embodiment, the tack welding device further comprises a feeding mechanism 5 and a discharging mechanism 6, wherein the feeding mechanism 5 and the discharging mechanism 6 are both arranged on the frame 1, the feeding mechanism 5 is connected with the feeding end of the spot welding station 2, and the discharging mechanism 6 is connected with the discharging end of the spot welding station 2; the template main body is automatically conveyed to the spot welding station 2 through the feeding mechanism 5, and the aluminum template is sent out through the discharging mechanism 6 after the spot welding processing of the aluminum template is finished.

In this embodiment, in order to reduce the whole volume of tack welding device, avoid it to occupy more area of field when installing, feed mechanism 5 and feed mechanism 6 are upper and lower floor's distribution, feed mechanism 5 installs in the top of feed mechanism 6. The feeding mechanism 5 comprises a feeding conveying mechanism 51 for conveying the template main body to enter and a transferring mechanism 52 for transferring the template main body from the feeding conveying mechanism 51 to the spot welding station 2, the feeding conveying mechanism 51 comprises a plurality of feeding conveying rollers arranged on the frame 1, the transferring mechanism 52 comprises a lifting rod 521 for enabling the template main body to obliquely lift and slide into the spot welding station 2 and a lifting mechanism for driving the lifting rod 521 to lift, the lifting mechanism is connected with the lifting rod 521, the lifting rod 521 is arranged between the feeding conveying rollers, and when the template main body is conveyed on the feeding conveying rollers, the lifting rod 521 is lowered below the feeding conveying rollers by the lifting mechanism; when the template body needs to be transferred from the feeding conveying mechanism 51 to the spot welding station 2, the lifting mechanism acts to lift the lifting rod 521, and when the lifting rod 521 contacts with the bottom of the template body, the lifting rod 521 lifts the template body and inclines to one side of the spot welding station 2, and the template body slides into the spot welding station 2 under the action of gravity. In addition, in order to make the template body slide into the spot welding station 2 more easily when being lifted by the lifting rod 521, the top surface of the lifting rod 521 is provided with a plurality of balls or rollers, so that when the template body slides from the lifting rod 521, the friction force between the bottom surface of the template body and the top of the lifting rod 521 is changed from sliding friction to rolling friction, the friction force is greatly reduced, and only the template body needs to be lifted slightly to slide into the spot welding station 2. Specifically, the lifting mechanism comprises a lifting telescopic cylinder 522, a lifting driving rod 524 and a lifting rotating shaft 523, the lifting telescopic cylinder 522 is mounted on the frame 1, the lifting telescopic cylinder 522 is connected with the lifting rotating shaft 523 through the lifting driving rod 524, the lifting rotating shaft 523 is rotatably mounted on the frame 1, and the end part of the lifting rod 521 is connected with the lifting rotating shaft 523. When the lifting telescopic cylinder 522 is in telescopic action, the lifting driving rod 524 drives the lifting rotating shaft 523 to rotate, and the lifting rotating shaft 523 drives the lifting rod 521 to turn up and down.

In this embodiment, one side of the spot welding station 2 far away from the feeding mechanism 5 is rotatably connected to the frame 1, a turnover mechanism 7 for driving the spot welding station 2 to turn up and down is connected to the bottom of the spot welding station 2, and the turnover mechanism 7 is mounted on the frame 1. Specifically, the turnover mechanism 7 is of a telescopic cylinder structure. When the turnover mechanism 7 stretches out, the spot welding station 2 turns upwards, and the spot welding station 2 is connected with the feeding mechanism 5; when the turnover mechanism 7 retracts, the spot welding station 2 turns downwards, and the spot welding station 2 is connected with the blanking mechanism 6.

In this embodiment, the discharging mechanism 6 includes a plurality of discharging conveying rollers arranged on the frame 1. In addition, in order to enable the template main body to smoothly transfer from the feeding mechanism 5 to the spot welding station 2, an upper bearing frame 8 which is obliquely arranged is arranged between the feeding mechanism 5 and the spot welding station 2, and the upper bearing frame 8 is obliquely arranged downwards from the feeding mechanism 5 to the spot welding station 2; similarly, in order to reduce the friction force when the template body slides down, the top of the upper bearing frame 8 is also provided with balls or rollers. In order to enable the aluminum template subjected to the spot welding processing to be smoothly transferred from the spot welding station 2 to the blanking mechanism 6, a lower bearing frame 9 which is obliquely arranged is arranged between the spot welding station 2 and the blanking mechanism 6, and the lower bearing frame 9 is obliquely arranged downwards from the spot welding station 2 to the blanking mechanism 6; similarly, in order to reduce the friction force when the aluminum mould plate slides down, the top of the lower bearing frame 9 is also provided with balls or rollers.

In this embodiment, the tack welding device further includes an interception mechanism 10 for intercepting the template body from sliding down from the upper receiving frame 8 into the spot welding station 2, and the channel from the upper receiving frame 8 to the spot welding station 2 can be opened and closed by the action of the interception mechanism 10. When the spot welding operation is being carried out in the spot welding station 2, the blocking mechanism 10 acts to close the channel from the upper carrying frame 8 to the spot welding station 2, and the template main body transferred from the feeding mechanism 5 is blocked on the upper carrying frame 8 to wait; when the aluminum templates in the spot welding station 2 finish spot welding work and are sent out of the spot welding station 2, and the spot welding station 2 is in an idle state, the interception mechanism 10 acts to open a channel from the upper bearing frame 8 to the spot welding station 2, and the template main body slides from the upper bearing frame 8 to the spot welding station 2. The interception mechanism 10 comprises an interception plate 101, an interception driving rod 102 and an interception telescopic cylinder 103, one end of the interception plate 101 is rotatably connected with the frame 1, and the other end of the interception plate 101 extends to the position above the joint of the upper bearing frame 8 and the spot welding station 2; the interception telescopic cylinder 103 is connected with the interception plate 101 through the interception driving rod 102. When the interception telescopic cylinder 103 stretches and contracts, the interception driving rod 102 drives the interception plate 101 to turn over, and when the interception plate 101 turns over upwards, a channel from the upper bearing frame 8 to the spot welding station 2 is opened; when the interception plate 101 is turned down, the passage of the upper carriage 8 to the spot welding station 2 is closed.

The foregoing is only a preferred embodiment of the present utility model, and all technical solutions for achieving the object of the present utility model by substantially the same means are included in the scope of the present utility model.

Claims (10)

1. Positioning spot welding device for aluminum template processing, and is characterized in that: including frame (1), be used for placing spot welding station (2) of aluminium template spot welding processing, be used for carrying out positioning mechanism (3) and the controlling means (4) that are used for controlling the spot welding device work to the spot welding position of aluminium template, spot welding station (2) and positioning mechanism (3) all install on frame (1), controlling means (4) and positioning mechanism (3) circuit connection, positioning mechanism (3) include swing arm (31), be used for driving swing arm (31) swing business turn over spot welding station (2) swing mechanism (32) and be used for driving swing arm (31) along the mobile mechanism (33) of spot welding station (2) length direction removal, the one end that swing arm (31) extends to spot welding station (2) is equipped with laminating face (34) that are used for laminating the location with spot welding work piece, swing mechanism (32) are connected to the other end of swing arm (31), swing mechanism (32) are installed on mobile mechanism (33), mobile mechanism (33) are installed on frame (1).

2. The aluminum form tooling tack welding device of claim 1, wherein: the moving mechanism (33) comprises a moving guide rail (331) arranged on the frame (1), a moving sliding block (332) matched with the moving guide rail (331), a moving base (333) arranged on the moving sliding block (332), a moving motor (334) arranged on the moving base (333) and a transmission mechanism (335) connected with the moving motor (334) in a transmission way.

3. The aluminum form tooling tack welding device of claim 2, wherein: the swing mechanism (32) comprises a swing rotating shaft (321) connected with the swing arm (31), a driving rod (322) connected with the swing rotating shaft (321) and a swing telescopic cylinder (323) hinged to the driving rod (322), the swing rotating shaft (321) is rotatably installed on the movable base (333), and the swing telescopic cylinder (323) is installed on the movable base (333).

4. The aluminum form tooling tack welding device of claim 1, wherein: the bonding surface (34) is provided with two surfaces, one surface is a vertical bonding surface (341) which is perpendicular to the spot welding station (2), the other surface is an inclined bonding surface (342) which is inclined to the spot welding station (2), and the two surfaces of the bonding surface (34) are respectively arranged on two sides of the swing arm (31).

5. The aluminum form tooling tack welding device of claim 1, wherein: a touch switch (35) is arranged on the swing arm (31), and the touch switch (35) is in circuit connection with the control device (4).

6. The aluminum form tooling tack welding device of claim 1, wherein: the positioning spot welding device further comprises a feeding mechanism (5) and a discharging mechanism (6), wherein the feeding mechanism (5) and the discharging mechanism (6) are both arranged on the frame (1), the feeding mechanism (5) is connected with the feeding end of the spot welding station (2), and the discharging mechanism (6) is connected with the discharging end of the spot welding station (2); the feeding mechanism (5) and the discharging mechanism (6) are distributed in an upper layer and a lower layer, and the feeding mechanism (5) is arranged above the discharging mechanism (6).

7. The aluminum form tooling tack welding device of claim 6, wherein: the feeding mechanism (5) comprises a feeding conveying mechanism (51) used for conveying the template main body to enter and a transferring mechanism (52) used for transferring the template main body from the feeding conveying mechanism (51) to the spot welding station (2), the feeding conveying mechanism (51) comprises a plurality of feeding conveying rollers arranged on the frame (1), the transferring mechanism (52) comprises a lifting rod (521) used for enabling the template main body to obliquely lift and slide into the spot welding station (2) and a lifting mechanism used for driving the lifting rod (521) to lift, the lifting mechanism is connected with the lifting rod (521), and the lifting rod (521) is arranged between the feeding conveying rollers.

8. The aluminum form tooling tack welding device of claim 7, wherein: the top surface of the lifting rod (521) is provided with a plurality of balls or rollers.

9. The aluminum form tooling tack welding device of claim 6, wherein: one side of the spot welding station (2) away from the feeding mechanism (5) is rotationally connected to the frame (1), the bottom of the spot welding station (2) is connected with a turnover mechanism (7) for driving the spot welding station (2) to turn up and down, and the turnover mechanism (7) is installed on the frame (1).

10. The aluminum form tooling tack welding device of claim 6, wherein: an upper bearing frame (8) which is obliquely arranged is arranged between the feeding mechanism (5) and the spot welding station (2), and the upper bearing frame (8) is obliquely arranged downwards from the feeding mechanism (5) to the spot welding station (2); a lower bearing frame (9) which is obliquely arranged is arranged between the spot welding station (2) and the blanking mechanism (6), and the lower bearing frame (9) is obliquely arranged downwards from the spot welding station (2) to the blanking mechanism (6).