CN115566503B - Positioning method for precise welding of superfine wire harness - Google Patents

Abstract

The invention relates to the field of superfine wire harness multi-main line precise welding, and discloses a positioning method for superfine wire harness precise welding. Compared with the manual positioning, the fixture is low in efficiency, the fixture is more convenient and quick to fix, the fixing time is greatly shortened, and the positioning efficiency is improved.

Description

Positioning method for precise welding of superfine wire harness

Technical Field

The invention relates to the technical field of superfine wire harness multi-main-line precise welding, in particular to a positioning method for superfine wire harness precise welding.

Background

With the wide application of medical endoscopes in medical diagnosis and treatment, the characteristics of precise miniaturization, integration and customization as well as single-use endoscopes will become the future development trend of the industry. The welding of the superfine wire harness multi-main line and the PCB becomes a technical barrier which is urgently needed to break through. The PCB to be welded is small in size and various in variety, so that the welding spots and the superfine wire harness multiple main lines are difficult to position.

For the problems in the related art, no effective solution has been proposed at present.

Disclosure of Invention

(one) solving the technical problems

Aiming at the defects of the prior art, the invention provides a positioning method for precise welding of an ultrafine wire harness, which has the advantages of precise positioning, convenient fixing and the like, and solves the problem of difficult positioning of welding spots and multiple main wires of the ultrafine wire harness.

(II) technical scheme

In order to solve the technical problem of difficult positioning of the welding spots and the superfine wire harness multi-main wire, the invention provides the following technical scheme:

a positioning method for precise welding of superfine wire harnesses comprises the following steps: step one: after an insulating layer and a shielding layer on an ultrafine wire harness containing a plurality of main wires are stripped, fixing and positioning the head ends of the ultrafine wire harness through superposition of a first jig and a second jig, fixing the head ends of the main wires in a semicircular groove of a fifth jig in a one-to-one correspondence manner, and fixing and positioning the tail ends of the ultrafine wire harness and the main wires through superposition of a fourth jig and the fifth jig by a sliding assembly;

step two: placing a PCB on a jig seven, and enabling the jig seven and the jig to be combined in a triple mode through the sliding assembly to finish the fixed positioning of the PCB;

step three: and the main line tail ends are wound and hung on the positioning bolts, and the positioning bolts are pressed down to fix the main line tail ends.

The utility model provides a superfine pencil precision welding's positioner, includes the workstation, the workstation is provided with sliding component, the sliding component top is provided with the tool subassembly, the tool subassembly is used for the centre gripping superfine pencil's head end, be provided with on the workstation respectively the tool III the tool five with tool seven, tool three bottom fixed mounting has tool four, tool five with tool four relative motion is to the coincidence between the two, in order to right superfine pencil's tail end with the head end of mainline is fixed, the locating pin is in respectively sliding assembly in a plurality of constant head tanks of seting up on the tool seven, in order to fix the tail end of mainline, sliding component drive tool seven to tool three motions so that tool seven with the fixture triple synthesis is accomplished to the fixed positioning of PCB board.

Preferably, the sliding assembly comprises a sliding block and a sliding rail, a plurality of sliding rails are uniformly and fixedly arranged on the workbench, the third jig, the fourth jig, the fifth jig and the seventh jig are fixedly arranged with the sliding blocks, and the sliding rails and the sliding blocks are in one-to-one correspondence and mutually sliding assembly.

Preferably, a support rod is fixedly arranged on the jig III, a rotating shaft is arranged at the top end of the support rod, the rotating shaft is rotationally connected with the jig I and the jig II, and semicircular grooves are formed in the middle of one side of the jig I, which is opposite to the jig II.

Preferably, a semicircular positioning groove and a plurality of positioning grooves with set angle differences are formed in the jig seven, the positioning bolts are slidably assembled in the positioning grooves, and the PCB is placed in the semicircular positioning groove.

Preferably, the third jig, the first jig, the second jig, the fourth jig and the middle part of the five sides of the jig are provided with semicircular grooves, and a plurality of semicircular grooves with set angle differences are distributed in the thickness direction of the semicircular grooves on the fifth jig.

Preferably, a plurality of bonding pads with set angle differences are distributed on the PCB.

(III) beneficial effects

Compared with the prior art, the invention provides a positioning method for precise welding of an ultrafine wire harness, which has the following beneficial effects:

1. compared with the manual positioning, the fixture is low in efficiency, the fixture is more convenient and quick to fix, the fixing time is greatly shortened, and the positioning efficiency is improved.

2. The invention enlarges the positioning point by setting the equal ratio of the size of the positioning groove on the jig seven to twenty times of the size of the bonding pad, thereby reducing the error of the root main line corresponding to the bonding pad. Meanwhile, the size of the positioning bolt is larger than that of the welding spot group, so that the tail end of the main line can be conveniently fixed.

3. According to the invention, the semicircular hole grooves with different radial angles are distributed on the semicircular groove on the jig five to clamp the root main line, so that the positioning error of the multiple main lines and the bonding pad group caused by inconsistent circle centers of the superfine wire harness and the multiple main line is avoided.

Drawings

FIG. 1 is a first perspective view of the present invention;

FIG. 2 is a second perspective view of the present invention;

FIG. 3 is a three-dimensional block diagram of the present invention;

FIG. 4 is an enlarged view of the perspective view of FIG. 2A of the present invention;

FIG. 5 is an enlarged view of the portion B of FIG. 2 showing a perspective view of the present invention;

fig. 6 is a partial cross-sectional view of the present invention.

In the figure: 1. a work table; 2. a sliding assembly; 3. a third jig; 4. a jig IV; 5. fifth jig; 6. a superfine wire harness; 7. a jig seven; 8. a PCB board; 9. a jig assembly; 10. a main line; 11. a positioning bolt; 201. a slide block; 202. a slide rail; 901. a first jig; 902. a second jig; 903. a support rod; 904. a rotating shaft.

Detailed Description

The following description of the embodiments of the present invention 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 invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

As described in the background art, the prior art has the defects, and in order to solve the technical problems, the application provides a positioning method for precise welding of an ultrafine wire harness.

Embodiment one:

referring to fig. 1-6, a positioning method for precise welding of an ultrafine wire harness includes:

step one: after an insulating layer and a shielding layer on an ultrafine wire harness 6 containing a plurality of main wires 10 are stripped, the head ends of the ultrafine wire harnesses 6 are overlapped through a first jig 901 and a second jig 902 to finish fixed positioning, the head ends of the main wires 10 are correspondingly fixed in a semicircular groove of a fifth jig 5 one by one, and a fourth jig 4 and the fifth jig 5 are overlapped through a sliding assembly 2 to finish fixed positioning of the tail ends of the ultrafine wire harnesses 6 and the main wires 10;

step two: placing the PCB 8 on a jig seven 7, and overlapping the jig seven 7 and a jig three 3 through the sliding assembly 2 to finish the fixed positioning of the PCB 8;

step three: the tail ends of the main lines 10 are wound and hung on the positioning bolts 11, and the tail ends of the main lines 10 are fixed by pressing the positioning bolts 11.

Embodiment two:

referring to fig. 1-6, a positioning device for precision welding of an ultrafine wire harness includes a workbench 1, the workbench 1 is provided with a sliding component 2, a jig component 9 is arranged above the sliding component 2, the jig component 9 is used for clamping the head end of the ultrafine wire harness 6, the workbench 1 is respectively provided with a jig III 3, a jig five 5 and a jig seven 7, the bottom of the jig III 3 is fixedly provided with a jig IV 4, the jig V5 and the jig IV 4 are relatively moved to coincide with each other so as to position the tail end of the ultrafine wire harness 6 and the head end of a main wire 10, the positioning bolts 11 are respectively and slidably assembled in a plurality of positioning grooves formed in the jig seven 7 so as to fix the tail end of the main wire 10, and the sliding component 2 drives the jig seven 7 to move towards the jig III 3 so as to fix the jig seven 7 and the jig III 3 to finish positioning of a PCB 8 overlapping with the jig III 3.

After the insulating layer and the shielding layer on the superfine wire harness 6 are stripped, the insulating layer and the shielding layer are fixed at the clamping position of the jig, the head end of the superfine wire harness 6 is positioned through the jig assembly 9, meanwhile, the head ends of the plurality of main wires 10 are respectively fixed in semicircular grooves corresponding to the jig five 5, the jig five 5 moves towards the jig four 4 direction under the action of the sliding assembly 2 until one side corresponding to the jig four 4 and the jig five 5 is closed, the purpose of positioning the tail end of the superfine wire harness 6 and the head end of the main wire 10 is achieved, the sliding assembly 2 enables the jig seven 7 to move towards the jig three 3 direction until the jig seven 7 and the jig three 3 are overlapped, the PCB 8 is placed, the PCB 8 is positioned through the overlapping fixation of the jig seven 7 and the jig three 3, the plurality of main wires 10 are pulled up perpendicular to the jig five 5 after the head ends are fixed on the jig five 5, the tail ends of the plurality of main wires 10 are hung on the positioning bolts 11 small columns along the surface of the PCB 8, and the tail ends of the plurality of main wires 10 are fixed through the positioning bolts 11. In particular, it is preferable to use an ultrafine wire harness 6 having 6 main wires 10.

The head end and the tail end of the superfine wire harness 6 and the head end of the multi-main wire 10 are fixed and positioned by using the jig, compared with the manual positioning which is low in efficiency, the fixture is more convenient and quick to fix, the fixing time is greatly shortened, and the positioning efficiency is improved.

Further, for the above sliding component 2, the sliding component 2 includes a sliding block 201 and a sliding rail 202, a plurality of sliding rails 202 are uniformly and fixedly installed on the working table 1, the sliding block 201 is fixedly installed on the jig three 3, the jig four 4, the jig five 5 and the jig seven 7, and the sliding rails 202 and the sliding blocks 201 are in one-to-one correspondence and are mutually assembled in a sliding manner.

The sliding blocks 201 fixedly installed at the bottoms of the jig III 3, the jig IV 4, the jig V5 and the jig V7 are correspondingly and slidably assembled in the sliding rail 202 formed in the workbench 1, so that the jig III 3, the jig IV 4, the jig V5 and the jig V7 can move along the sliding rail 202 through manual pushing.

Further, for the third jig 3, a supporting rod 903 is fixedly installed on the third jig 3, a rotating shaft 904 is provided at the top end of the supporting rod 903, the rotating shaft 904 is rotatably connected with the first jig 901 and the second jig 902, and a semicircular groove is formed in the middle of one side of the first jig 901 opposite to the second jig 902.

The bracing piece 903 provides holding power for tool one 901 and tool two 902, and tool one 901, tool two 902 opposite one side middle part centre gripping department all has offered the diameter and is 0.6 mm's semicircle groove, and the head end of the superfine pencil 6 of centre gripping in the semicircle inslot, tool one 901 and tool two 902 one end all are provided with the ring, and two rings cover are established on pivot 904 from top to bottom and have the damping between the inside and pivot 904 of ring, through manual rotation tool one 901 or tool two 902, make tool one 901 and tool two 902 coincide to the head end of the superfine pencil 6 of location.

Further, for the jig seven 7, a semicircular positioning groove and a plurality of positioning grooves with set angle differences are formed in the jig seven 7, the positioning bolts 11 are slidably assembled in the positioning grooves, and the PCB 8 is placed in the semicircular positioning groove.

The diameter of 6 positioning grooves on the jig seven 7 is 2mm, the circle center is on the extension line from the circle center of the plurality of main lines 10 to the circle center of the PCB 8, and the distance between the circle center and the circle center of the PCB is 20mm. The locating bolt 11 which is slidingly assembled in the locating groove consists of a small cylinder with the diameter of 2mm and the height of 0.8 and a large cylinder with the diameter of 3mm and the height of 0.8mm, wherein the small cylinder is slidingly assembled in the locating groove, and a semicircular locating groove with the diameter of 3mm is further formed in the jig seven 7 and used for placing the PCB 8.

Since the positioning groove size on the jig seven 7 is equally scaled by twenty times with respect to the pad size, the error of the plurality of main lines 10 corresponding to the pads is 1/20 of that without the positioning device. Meanwhile, the size of the positioning bolt 11 is larger than that of the welding spot group, so that the tail end of the main line 10 can be conveniently fixed.

Further, for the jig five 5, the jig three 3, the jig one 901, the jig two 902, the jig four 4 and the middle part of one side of the jig five 5 are all provided with semicircular grooves, and a plurality of semicircular grooves with set angle differences are distributed in the thickness direction of the semicircular grooves on the jig five 5.

The clamping part of the jig III 3 is provided with a semicircular groove with the diameter of 1mm, and the clamping parts of the jig IV 4 and the jig V5 are respectively provided with a semicircular groove with the diameter of 0.6 mm. The jig five 5 is provided with a plurality of half-hole grooves with the diameter of 0.1mm along the radial direction of 22.5 degrees in the thickness direction of the half-hole groove with the diameter of 0.6mm, the head ends of the main wires 10 are fixed in the half-hole grooves, and when the jig four 4 and the jig five 5 are overlapped, the extrusion force of the clamping positions enable the tail ends of the superfine wire bundles 6 at the clamping positions of the jig four 4 and the head ends of the main wires 10 at the clamping positions of the jig five 5 to finish positioning. In specific application, 6 half-hole grooves with the diameter of 0.1mm are preferably formed in the jig five 5.

A plurality of semicircular hole grooves with the radial angle difference of 22.5 degrees and the diameter of 0.1mm are distributed on a semicircular groove with the diameter of 0.6mm on the jig five 5 and are used for clamping a plurality of main lines 10, so that the problem that the positioning error of the main lines 10 and a bonding pad group is caused by inconsistent circle centers of an ultrafine wire harness 6 and the main lines 10 is avoided.

Further, for the above PCB board, a plurality of pads with set angle differences are distributed on the PCB board 8.

6 bonding pads with the radial angle difference of 22.5 degrees and the diameter of 0.2mm are distributed on the PCB 8 for welding.

Working principle: when the ultra-fine wire harness 6 is used, after an insulating layer and a shielding layer on the ultra-fine wire harness 6 with the diameter of 0.1mm and the length of 760mm are stripped, the insulating layer and the shielding layer are fixed at the clamping position of the jig, the head end of the ultra-fine wire harness 6 is fixed in a semicircular groove with the diameter of 0.6mm formed in the first jig 901 or the second jig 902, circular rings are arranged at one end of the first jig 901 and one end of the second jig 902, the two circular rings are vertically sleeved on the rotating shaft 904, damping exists between the inside of the circular rings and the rotating shaft 904, and the first jig 901 and the second jig 902 are overlapped through manual rotation, so that the head end of the ultra-fine wire harness 6 is positioned. The tail end of the superfine wire harness 6 is fixed in a semicircular groove of the jig four 4, the head ends of the multiple main wires 10 are fixed in multiple semicircular grooves with the diameter of 0.6mm on the jig five 5 and distributed along the radial direction of 22.5 degrees in the thickness direction of the semicircular groove, the multiple main wires 10 are pulled up perpendicular to the jig five 5 after the head ends are fixed on the jig five 5, the jig five 5 is manually moved to slide along the sliding rail 202, and when the jig four 4 and the jig five 5 are overlapped, the extrusion force of the clamping positions enables the tail ends of the superfine wire harnesses 6 at the clamping positions of the jig four 4 and the head ends of the main wires 10 at the clamping positions of the jig five 5 to be positioned. The jig seven 7 is manually pushed to move towards the jig three 3 until the jig seven 7 and the jig three 3 are overlapped, the PCB 8 is placed, the PCB 8 is positioned by overlapping and fixing the jig seven 7 and the jig three 3, the parts of the multiple main lines 10 which are perpendicular to the jig five 5 are pulled up along the surface of the PCB 8, the tail ends of the parts are hung on small columns of the positioning bolts 11, and the tail ends of the multiple main lines 10 are fixed by pressing the positioning bolts 11.

According to the invention, the fixture is used for fixing and positioning the head end and the tail end of the superfine wire harness 6 and the head end of the multi-main wire 10, so that compared with the manual positioning, the fixture is more convenient and quicker to fix, the fixing time is greatly shortened, and the positioning efficiency is improved. Setting the equal ratio of the size of the positioning groove on the jig seven 7 to twenty times of the size of the bonding pad, and amplifying the positioning point to reduce the errors of the plurality of main lines 10 corresponding to the bonding pad. Meanwhile, the size of the positioning bolt 11 is larger than that of the welding spot group, so that the tail end of the main line 10 can be conveniently fixed. 6 semicircular hole grooves with radial angle difference of 22.5 degrees and diameter of 0.1mm are distributed on the semicircular groove of the jig five 5 and are used for clamping the plurality of main lines 10, so that the positioning errors of the plurality of main lines and the bonding pad group caused by inconsistent circle centers of the superfine wire harness 6 and the plurality of main lines 10 are avoided.

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

Claims (1)

1. The positioning method for the precise welding of the superfine wire harness is characterized in that the positioning method for the precise welding of the superfine wire harness adopts a positioning device for the precise welding of the superfine wire harness, the positioning device for the precise welding of the superfine wire harness comprises a workbench (1), the workbench (1) is provided with a sliding component (2), a jig component (9) is arranged above the sliding component (2), the jig component (9) is used for clamping the head end of the superfine wire harness (6), the workbench (1) is respectively provided with a jig III (3), a jig V (5) and a jig V (7), the bottom of the jig III (3) is fixedly provided with a jig IV (4), the jig V (5) and the jig IV (4) relatively move to be overlapped with each other to position the tail end of the wire harness (6) and the head end of a main wire (10), positioning bolts (11) are respectively and slidably assembled in a plurality of positioning grooves formed in the jig V (7) to fix the tail end of the main wire (10), and the jig V (7) is fixedly arranged on the workbench (1), and the jig V (7) is driven to move to the jig III (7) to be overlapped with the PCB (3) so as to fix the jig III (8);

the sliding assembly (2) comprises sliding blocks (201) and sliding rails (202), a plurality of sliding rails (202) are uniformly and fixedly arranged on the workbench (1), the sliding blocks (201) are fixedly arranged on the jig III (3), the jig IV (4), the jig V (5) and the jig V (7), and the sliding rails (202) and the sliding blocks (201) are in one-to-one correspondence and mutually sliding assembly;

a supporting rod (903) is fixedly arranged on the jig III (3), a rotating shaft (904) is arranged at the top end of the supporting rod (903), the rotating shaft (904) is rotationally connected with a jig I (901) and a jig II (902), and semicircular grooves are formed in the middle of one side, opposite to the jig I (901) and the jig II (902);

a semicircular positioning groove and a plurality of positioning grooves with set angle differences are formed in the jig seven (7), the positioning bolts (11) are slidably assembled in the positioning grooves, the PCB (8) is placed in the semicircular positioning groove, and a plurality of bonding pads with set angle differences are distributed on the PCB (8);

the jig III (3), the jig I (901), the jig II (902), the jig IV (4) and the jig V (5) are respectively provided with a semicircular groove at one side middle part, and a plurality of semicircular holes with set angle differences are distributed in the thickness direction of the semicircular groove on the jig V (5);

the positioning method for the superfine wire harness precise welding comprises the following steps: step one: after an insulating layer and a shielding layer on an ultrafine wire harness (6) containing a plurality of main wires (10) are stripped, the head ends of the ultrafine wire harness (6) are overlapped through a first jig (901) and a second jig (902) to finish fixed positioning, the head ends of the main wires (10) are fixed in semicircular grooves of a fifth jig (5) in one-to-one correspondence, and a fourth jig (4) and the fifth jig (5) are overlapped through a sliding assembly (2) to finish fixed positioning of the tail ends of the ultrafine wire harness (6) and the main wires (10);

step two: placing a PCB (8) on a jig seven (7), and overlapping the jig seven (7) and a jig three (3) through the sliding assembly (2) to finish the fixed positioning of the PCB (8);

step three: the tail ends of the main lines (10) are wound and hung on the positioning bolts (11), and the tail ends of the main lines (10) are fixed by pressing the positioning bolts (11).