CN217166864U - High-precision titanium alloy welding tool for bearing patch and plug-in element - Google Patents

Abstract

The utility model provides a high accuracy bears welding titanium alloy frock of paster and plug-in components, including the workstation, the top four corners of workstation all installs the support column, and the top of support column is connected with braced frame, is equipped with two supporting beam in the braced frame, and the both ends of supporting beam are connected on first linear electric motor, and first linear electric motor is fixed at braced frame top, is connected with second linear electric motor on a supporting beam, and the loading board is connected to second linear electric motor side, links to each other through the guide rail between loading board and another supporting beam; two adjusting hydraulic cylinders are vertically and downwards arranged on the bearing plate, an installation shell is arranged at the bottom of each adjusting hydraulic cylinder, a second rotating motor is arranged in the installation shell, a rotating shaft of the second rotating motor is vertically and downwards arranged, and a second U-shaped seat is connected below the rotating shaft of the second rotating motor. The utility model discloses when using, the welding wire can be along with welded consumption progressively, and the bonding tool can rotate and angle regulation moreover.

Description

High-precision titanium alloy welding tool for bearing patch and plug-in element

Technical Field

The utility model belongs to the technical field of the welding frock, especially indicate a high accuracy bears paster and plug-in components's welding titanium alloy frock.

Background

The printed circuit board is an important electronic component, and is a support body of the electronic component and a carrier for electrical connection, various components on the circuit board need to be welded and fixed when being connected, and in the welding process, when the plug-in components are welded, the patch element and the plug-in component are too close to each other, so that the plug-in components cannot be welded, and the problem of poor welding is easy to occur. Therefore, a titanium alloy welding tool for bearing the patch and the plug-in element with high precision is provided.

SUMMERY OF THE UTILITY MODEL

For solving the not enough of above prior art, the utility model provides a high accuracy bears paster and plug-in components's welding titanium alloy frock.

The technical scheme of the utility model is realized like this: a titanium alloy welding tool for bearing a patch and an insert element with high precision comprises a workbench, wherein four corners of the bottom of the workbench are respectively connected with supporting legs, four corners of the top of the workbench are respectively provided with a supporting column, the top of each supporting column is connected with a supporting frame, two supporting cross beams are arranged in each supporting frame, two ends of each supporting cross beam are connected to a first linear motor, the first linear motors are fixed to the tops of the supporting frames, one supporting cross beam is connected with a second linear motor, the side face of the second linear motor is connected with a bearing plate, and the bearing plate is connected with the other supporting cross beam through a guide rail;

the bearing plate is vertically downwards provided with two adjusting hydraulic cylinders, the bottoms of the adjusting hydraulic cylinders are respectively provided with an installation shell, a second rotating motor is installed in the installation shell, a rotating shaft of the second rotating motor is vertically downwards arranged, a second U-shaped seat is connected below the rotating shaft of the second rotating motor, installation seats are respectively arranged in the second U-shaped seats, two sides of each installation seat are connected with supporting shafts, the supporting shafts are connected with the second U-shaped seats through bearings, one supporting shaft is connected with a first rotating motor, and the first rotating motor and the second U-shaped seats are fixed through a motor fixing frame;

the bottom of one of the mounting bases is connected with a fixed base, an electric soldering iron is mounted in the fixed base and vertically arranged downwards, the bottom of the other mounting base is connected with a material guide pipe through a connecting rod, the material guide pipe is obliquely arranged downwards, a welding wire is arranged in the material guide pipe, the bottom of the welding wire is aligned with a welding head of the electric soldering iron, and the welding wire extending out of the material guide pipe is in contact with the welding head.

Preferably, the other side of the electric soldering iron is provided with a clamping seat, the electric soldering iron is fastened by the clamping seat, and the clamping seat and the fixed seat are fastened through bolts.

Preferably, the top of the material guide pipe is connected with a soft guide pipe, the soft guide pipe is connected to the bottom of the bearing plate through a positioning frame, and the other end of the soft guide pipe is fixed on the supporting block;

the welding wire support comprises a support block, a support column, a mounting table, two U-shaped frames, a mounting shaft, a wire spool and a welding wire, wherein the support block is connected to the mounting table, the mounting table is fixed on the support column, two U-shaped frames are symmetrically mounted at one end, far away from the support block, of the mounting table, the top of each U-shaped frame is provided with the mounting shaft, the wire spool is sleeved on the mounting shaft, and the welding wire penetrates out of the soft guide tube and is wound on the wire spool;

and a transmission device is arranged between the supporting block and the wire spool.

Preferably, the transmission device comprises two bearing seats, a roll shaft is arranged between the bearing seats, two ends of the roll shaft are connected with the bearing seats through bearings, one end of the roll shaft is connected with a pull wire motor, the pull wire motor is fixed on the mounting table, a pressing groove is formed in the roll shaft, and the welding wire is positioned in the pressing groove;

the pressing groove is provided with a pressing roller, the surface of the pressing roller is provided with a pressing flange corresponding to the pressing groove, the pressing flange is arranged in the pressing groove, the pressing roller is located in a first U-shaped seat, the first U-shaped seats at two ends of the pressing roller are connected through a bearing, the top of the first U-shaped seat is vertically connected with a pressing hydraulic cylinder, the pressing hydraulic cylinder is installed on the supporting frame, and the other end of the supporting frame is connected to the side face of the installation table.

Preferably, the guide tube is matched with the welding wire.

Preferably, the first rotating motor and the second rotating motor are servo self-locking motors.

Compared with the prior art, the utility model discloses when using, the welding wire can be along with welded consumption progressively more and more, and the bonding tool can rotate and angle regulation moreover, easy operation, convenient to use.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention. In the drawings:

fig. 1 is the utility model provides a high accuracy bears structural schematic of welding titanium alloy frock of paster and plug-in components component.

Fig. 2 is the utility model provides a high accuracy bears transmission structure schematic diagram of welding titanium alloy frock of paster and plug-in components component.

In the figure: the device comprises a workbench 1, supporting legs 2, supporting blocks 3, a roll shaft 4, a bearing seat 5, a mounting table 6, a press roll 7, a U-shaped frame 8, a first U-shaped seat 9, a downward pressing hydraulic cylinder 10, a supporting frame 11, a supporting beam 12, a bearing plate 13, an adjusting hydraulic cylinder 14, a supporting frame 15, a supporting column 16, a first linear motor 17, a mounting shell 18, a first rotating motor 19, a mounting seat 20, a stay wire motor 21, a fixing seat 22, an electric soldering iron 23, a welding wire 24, a clamping seat 25, a second U-shaped seat 26, a material guide pipe 27, a soft guide pipe 28, a pressing groove 29, a pressing flange 30, a second linear motor 31, a supporting shaft 32, a connecting rod 33, a winding disc 34, a mounting shaft 35 and a positioning frame 36.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Referring to fig. 1-2, the present invention provides a technical solution: a titanium alloy welding tool for bearing patches and plug-in components with high precision comprises a workbench 1, wherein four corners of the bottom of the workbench 1 are respectively connected with supporting legs 2, in an actual situation, a mould for supporting a circuit board is arranged on the workbench 1, and the circuit board is placed in the mould and limited;

supporting columns 16 are respectively installed at four corners of the top of the workbench 1, a supporting frame 15 is connected to the top of each supporting column 16, two supporting beams 12 are arranged in each supporting frame 15, two ends of each supporting beam 12 are connected to a first linear motor 17, each first linear motor 17 is fixed to the top of each supporting frame 15, one supporting beam 12 is connected with a second linear motor 31, the side face of each second linear motor 31 is connected with a bearing plate 13, and each bearing plate 13 is connected with the other supporting beam 12 through a guide rail; the second linear motor 31 can drive the bearing plate 13 to move back and forth, and the first linear motor 17 drives the supporting cross beam 12 to move left and right, so that the bearing plate 13 can reach any place of the workbench 1;

two adjusting hydraulic cylinders 14 are vertically and downwards mounted on the bearing plate 13, mounting housings 18 are mounted at the bottoms of the adjusting hydraulic cylinders 14, second rotating motors (not shown in the drawings) are mounted in the mounting housings 18, rotating shafts of the second rotating motors are vertically and downwards arranged, second U-shaped seats 26 are connected below the rotating shafts of the second rotating motors, mounting seats 20 are arranged in the second U-shaped seats 26, supporting shafts 32 are connected to two sides of each mounting seat 20, the supporting shafts 32 are connected with the second U-shaped seats 26 through bearings, one supporting shaft 32 is connected with a first rotating motor 19, the first rotating motor 19 and the second U-shaped seats 26 are fixed through motor fixing frames, the second rotating motor drives the mounting seats 20 to rotate in a plane, and the first rotating motor 19 drives the mounting seats 20 to rotate in a vertical plane;

the bottom of one of the mounting bases 20 is connected with a fixed base 22, an electric soldering iron 23 is mounted in the fixed base 22, the electric soldering iron 23 is vertically arranged downwards, the bottom of the other mounting base 20 is connected with a material guide pipe 27 through a connecting rod 33, the material guide pipe 27 is obliquely arranged downwards, a welding wire 24 is arranged in the material guide pipe 27, the bottom of the welding wire 24 is aligned with a welding head of the electric soldering iron 23, and the welding wire 24 extending from the material guide pipe 27 is in contact with the welding head.

The hydraulic cylinder 14 is adjusted to descend, the welding wire in the guide pipe 27 extends to be in contact with a welding head of the electric soldering iron 23, the welding head is in a needle point shape and can weld a narrow position, the electric soldering iron 23 is driven by the two linear motors to reach a specified position, namely the position to be welded, then the electric soldering iron 23 is in contact with the welding wire, the welding wire is melted, the position to be welded is welded, and the hydraulic cylinder 14 is adjusted to be lifted after welding.

Furthermore, a clamping seat 25 is arranged on the other side of the electric soldering iron 23, the electric soldering iron 23 is fastened by the clamping seat 25, and the clamping seat 25 and the fixed seat 22 are fastened through bolts, so that the electric soldering iron 23 is convenient to take down and mount.

Further, the top of the material guiding pipe 27 is connected with a flexible guiding pipe 28, the flexible guiding pipe 28 is connected to the bottom of the bearing plate 13 through a positioning frame 36, the other end of the flexible guiding pipe 28 is fixed on the supporting block 3, and a spiral steel wire is arranged in the flexible guiding pipe 28, so that the flexible guiding pipe 28 can be bent but cannot be bent at a large angle;

the welding wire winding device is characterized in that the supporting block 3 is connected onto the mounting table 6, the mounting table 6 is fixed onto the supporting column 16, two U-shaped frames 8 are symmetrically mounted at one end, far away from the supporting block 3, of the mounting table 6, a mounting shaft 35 is placed at the top of each U-shaped frame 8, a wire spool 34 is sleeved on each mounting shaft 35, and the welding wire 24 penetrates out of the soft guide tube 28 and is wound on the wire spool 34;

a transmission device is arranged between the supporting block 3 and the wire spool 34, and the transmission device drives the welding wire to transmit.

Further, as shown in fig. 2, the transmission device includes two bearing seats 5, a roller shaft 4 is disposed between the bearing seats 5, two ends of the roller shaft 4 are connected with the bearing seats 5 through bearings, one end of the roller shaft 4 is connected with a pull wire motor 21, the pull wire motor 21 is fixed on the mounting table 6, a pressing groove 29 is formed in the roller shaft 4, and the welding wire 24 is located in the pressing groove 29;

the pressing groove 29 is provided with a pressing roller 7 above, the surface of the pressing roller 7 is provided with a pressing flange 30 correspondingly arranged with the pressing groove 29, the pressing flange 30 is arranged in the pressing groove 29, the pressing roller 7 is positioned in the first U-shaped seat 9, the first U-shaped seats 9 at the two ends of the pressing roller 7 are connected through a bearing, the top of the first U-shaped seat 9 is vertically connected with a pressing hydraulic cylinder 10, the pressing hydraulic cylinder 10 is installed on the supporting frame 11, and the other end of the supporting frame 11 is connected to the side surface of the installation table 6. Rubber pads are arranged in the compression roller 7 and the pressing groove 29, the compression roller 7 and the pressing groove 29 compress and drive the welding wires, and the welding wires are straightened in the guide pipe 27 and the soft guide pipe 28.

Further, the guide pipe 27 is matched with the welding wire 24.

Further, the first rotating motor 19 and the second rotating motor are servo self-locking motors.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a high accuracy bears welding titanium alloy frock of paster and plug-in components component, comprises a workbench (1), the bottom four corners of workstation (1) all is connected with supporting leg (2), support column (16) are all installed in the top four corners of workstation (1), the top of support column (16) is connected with braced frame (15), a serial communication port, be equipped with two supporting beam (12) in braced frame (15), the both ends of supporting beam (12) are connected on first linear electric motor (17), first linear electric motor (17) are fixed at braced frame (15) top, be connected with second linear electric motor (31) on one of them supporting beam (12), loading board (13) is connected to second linear electric motor (31) side, link to each other through the guide rail between loading board (13) and another supporting beam (12);

two adjusting hydraulic cylinders (14) are vertically and downwards mounted on a bearing plate (13), mounting shells (18) are mounted at the bottoms of the adjusting hydraulic cylinders (14), second rotating motors are mounted in the mounting shells (18), rotating shafts of the second rotating motors are vertically and downwards arranged, second U-shaped seats (26) are connected below the rotating shafts of the second rotating motors, mounting seats (20) are arranged in the second U-shaped seats (26), supporting shafts (32) are connected to two sides of each mounting seat (20), the supporting shafts (32) are connected with the second U-shaped seats (26) through bearings, one supporting shaft (32) is connected with a first rotating motor (19), and the first rotating motor (19) and the second U-shaped seats (26) are fixed through a motor fixing frame;

the welding wire feeding device is characterized in that a fixed seat (22) is connected to the bottom of one of the installation seats (20), an electric soldering iron (23) is installed in the fixed seat (22), the electric soldering iron (23) is vertically arranged downwards, the bottom of the other installation seat (20) is connected with a material guide pipe (27) through a connecting rod (33), the material guide pipe (27) is obliquely arranged downwards, a welding wire (24) is arranged in the material guide pipe (27), the bottom of the welding wire (24) is aligned to a welding head of the electric soldering iron (23), and the welding wire (24) extending out of the material guide pipe (27) is in contact with the welding head.

2. The titanium alloy welding tool for high-precision bearing of the patch and the plug-in component as claimed in claim 1, wherein a clamping seat (25) is arranged on the other side of the electric soldering iron (23), the electric soldering iron (23) is fastened by the clamping seat (25), and the clamping seat (25) and the fixed seat (22) are fastened through a bolt.

3. The titanium alloy welding tool for high-precision bearing of the patch and the plug-in component as claimed in claim 1, wherein a flexible conduit (28) is connected to the top of the material guiding pipe (27), the flexible conduit (28) is connected to the bottom of the bearing plate (13) through a positioning frame (36), and the other end of the flexible conduit (28) is fixed on the supporting block (3);

the welding wire winding device is characterized in that the supporting block (3) is connected onto the mounting table (6), the mounting table (6) is fixed onto the supporting column (16), two U-shaped frames (8) are symmetrically mounted at one end, far away from the supporting block (3), of the mounting table (6), a mounting shaft (35) is placed at the top of each U-shaped frame (8), a wire spool (34) is sleeved on each mounting shaft (35), and a welding wire (24) penetrates out of the soft guide pipe (28) and is wound on the wire spool (34);

a transmission device is arranged between the supporting block (3) and the wire spool (34).

4. The titanium alloy welding tool for high-precision bearing of the patch and the plug-in component according to claim 3, wherein the transmission device comprises two bearing seats (5), a roll shaft (4) is arranged between the bearing seats (5), two ends of the roll shaft (4) are connected with the bearing seats (5) through bearings, one end of the roll shaft (4) is connected with a pull wire motor (21), the pull wire motor (21) is fixed on the installation platform (6), a pressing groove (29) is formed in the roll shaft (4), and the welding wire (24) is located in the pressing groove (29);

pressing groove (29) top is equipped with compression roller (7), compression roller (7) surface is equipped with and corresponds pressing flange (30) that set up with pressing groove (29), pressing groove (29) are arranged in pressing flange (30), compression roller (7) are arranged in first U type seat (9), connect through the bearing between first U type seat (9) in the both ends of compression roller (7), hydraulic cylinder (10) are pushed down in vertical connection in first U type seat (9) top, install on support frame (11) hydraulic cylinder (10) push down, the other end of support frame (11) is connected in mount table (6) side.

5. The titanium alloy welding tool for high-precision bearing patch and insert element as claimed in claim 1, wherein the guide pipe (27) is matched with the welding wire (24).

6. The titanium alloy welding tool for high-precision bearing of the patch and the plug-in component as claimed in claim 1, wherein the first rotating motor (19) and the second rotating motor are servo self-locking motors.

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