CN112310780A - Semi-automatic assembling machine for radio frequency connector - Google Patents

Abstract

The utility model provides a semi-automatic kludge of radio frequency connector, includes frame and the workstation above that, be equipped with assembly line mechanism on the workstation, assembly line mechanism includes material track and the tool that circulates on the material track, install the casing and the needle terminal sub-assembly of radio frequency connector on the tool, be equipped with riveting station, binding off station and the station of bending in proper order on the material track along the pay-off direction, be equipped with the pressfitting equipment mechanism of needle terminal sub-assembly prepressing into the casing on the riveting station, be equipped with the binding off equipment mechanism that tightens up needle terminal sub-assembly and casing assembled on the binding off station, be equipped with the mechanism of bending that bends the needle of needle terminal sub-assembly on the station of bending. The automatic riveting and crimping machine is high in automation degree, can automatically complete the processes of riveting, crimping, bending and the like of connector assembly on one machine, reduces the number of operators, improves the productivity, and solves the problem of potential safety hazard of manual use of a punch press.

Description

Semi-automatic assembling machine for radio frequency connector

Technical Field

The invention relates to the technical field of radio frequency connectors, in particular to a semi-automatic assembling machine of a radio frequency connector.

Background

At present, need rivet the insulating end of needle terminal sub-assembly in the assembling process of radio frequency connector and impress in the installing port of connector casing, then close up the installing port oral area of casing, lock needle terminal sub-assembly, bend the needle again, current connector assembling machine is generally manual operation, the general use is still manual riveting and bending, operating personnel's a large amount, working strength is big, and work efficiency is low, be unsuitable for the batch assembly of connector, the quality of finished product equipment can't be guaranteed again simultaneously, the cost of enterprises drops into greatly, the productivity is low, economic benefits is poor, and there is the hidden danger of quality, be difficult to be applicable to the equipment operation of big connector in batches. In addition, a punch press is needed in manual production, and a worker can put hands under the punch press, so that great potential safety hazards are caused.

Disclosure of Invention

The invention aims to solve the problems in the prior art and provides a semi-automatic assembling machine for a radio frequency connector, which reduces the number of operators by integrating a plurality of assembling procedures, reduces labor cost, improves productivity and solves the problem of potential safety hazard of manual use of a punch press.

The invention adopts the technical scheme for solving the technical problems that: a semi-automatic assembling machine for a radio frequency connector comprises a machine frame and a workbench arranged on the machine frame, wherein a pipeline mechanism is arranged on the workbench, the assembly line mechanism comprises a material track and a jig which can slide along the material track, a shell of the radio frequency connector and a needle terminal assembly are arranged on the jig, a riveting station, a closing station and a bending station are sequentially arranged on the material track along the feeding direction, the riveting station is provided with a pre-pressing assembly mechanism for assembling the needle terminal assembly into the shell, the closing station is provided with a closing assembly mechanism for tightening the assembled needle terminal assembly and the shell, a bending mechanism for bending the needle of the needle terminal assembly is arranged on the bending station, a feed inlet and a discharge outlet are respectively arranged at the two ends of the material track, the feeding hole is provided with a feeding mechanism for feeding the jig, the shell on the jig and the needle terminal assembly into the station;

the pressing and assembling mechanism comprises a second lifting cylinder and a pressing plate fixed at the output end of the second lifting cylinder, and a plurality of pressing blocks for pre-pressing the needle terminal assembly into the shell are arranged at intervals on the lower side of the pressing plate;

the closing-up assembling mechanism comprises a third lifting cylinder and a closing-up punch fixed at the output end of the third lifting cylinder, a needle head accommodating hole is formed in the lower end face of the closing-up punch, and a conical closing-up surface is formed at the opening part of the needle head accommodating hole;

the bending mechanism comprises a bending positioning cylinder and a bending front-back cylinder which are transversely arranged on two sides of the material track, a bending positioning head is fixed on the bending positioning cylinder, a bending front-back head is arranged on the bending front-back cylinder, and the bending front-back head and the bending positioning head are arranged in a vertically staggered mode;

a first support and a first lifting cylinder are arranged above the front and rear bending heads, a bending upper punch and a bending lower punch are fixed at the output end of the lower end of the first lifting cylinder, through holes for the bending upper punch and the bending lower punch to pass through are formed in the front and rear bending heads under the bending upper punch and the bending lower punch, a vertical needle leaning surface and a bending positioning supporting surface for bending a needle are arranged on the bending positioning head, a bending sheave which is in rolling fit with the bending positioning supporting surface is rotatably arranged on the front and rear bending heads, a pressing surface which is in fit with the bending positioning supporting surface is arranged at the lower end of the bending upper punch and the lower punch, and a shaping needle groove for shaping the needle is;

the feeding mechanism comprises a ball screw guide rail positioned below the workbench, a sliding block on the ball screw guide rail and a driving motor for driving the sliding block to reciprocate, and an L-shaped push rod for pushing the jig to move on the material track is fixed on the sliding block.

Further perfecting, the interval is equipped with a plurality of casing locating hole on the tool, the tool both sides are equipped with a plurality of and casing locating hole one-to-one's tool locating hole, orbital one side interval of material is equipped with the not hard up locator in a plurality of prevention tool position, orbital opposite side of material is equipped with optical fiber sensor.

Further perfection, be equipped with the strip that supplies L shape push rod to pass through on the feed inlet and lead to the groove, the tip of ball screw guide rail still is equipped with the limit switch of control slider stroke.

Further perfecting, the second lifting cylinder is fixedly connected with the workbench through a second support; the third lifting cylinder is fixedly installed on the workbench through a third support, a third guide rail is arranged on the front side of the third support, a third slide carriage capable of sliding up and down is installed on the third guide rail in a sliding mode, and the third lifting cylinder is fixedly connected with the closing-up punch through the third slide carriage.

Further perfection, third support bottom is equipped with the fourth carriage apron, be equipped with in the frame and supply fourth carriage apron gliding fourth guide rail from beginning to end, fourth carriage apron rear end fixedly connected with adjustment cylinder.

Further perfect, the location cylinder of bending and the front and back cylinder of bending are fixed in the frame through first cylinder fixing base and second cylinder fixing base respectively, be equipped with first guide rail between location cylinder of bending and the material track, slidable mounting has first carriage apron on the first guide rail, carry out fixed connection through first carriage apron between location cylinder of bending and the location head of bending, be equipped with the second guide rail between front and back cylinder of bending and the material track, slidable mounting has the second carriage apron on the second guide rail, carry out fixed connection through the second carriage apron between cylinder and the front and back head of bending around bending.

Further perfection, a bending fillet surface is arranged between the vertical needle-leaning surface and the bending positioning supporting surface.

The invention has the beneficial effects that: the invention has high automation degree and low failure rate, is suitable for the assembly operation of connectors in large batch, can automatically complete the procedures of riveting, closing up, bending and the like of connector assembly on one machine, reduces the number of operators, reduces the labor cost and the space cost, also solves the problem of potential safety hazard of manual use of a punch press, and obviously improves the production benefit of a factory.

Drawings

FIG. 1 is a schematic perspective view of the present embodiment;

FIG. 2 is a schematic front view of the present embodiment;

FIG. 3 is a left side view of the present embodiment;

FIG. 4 is a schematic top view of the present embodiment;

FIG. 5 is a right side view of the present embodiment;

FIG. 6 is an enlarged view of the front and rear ends of the bend of FIG. 5;

FIG. 7 is an enlarged view of the bend locating head of FIG. 5;

FIG. 8 is a schematic structural view of a necking punch of the present embodiment;

fig. 9 is a schematic structural view of the radio frequency connector of the present embodiment after riveting and before closing;

FIG. 10 is an enlarged view of the jig shown in FIG. 1 with material omitted;

FIG. 11 is a schematic view of the installation of the fiber optic sensor;

description of reference numerals: 1. a frame, 2, a workbench, 3, a production line mechanism, 31, a material track, 311, a positioner, 312, an optical fiber sensor, 32, a jig, 321, a shell positioning hole, 322, a jig positioning hole, 33, a riveting station, 34, a closing-up station, 35, a bending station, 36, a feed inlet, 361, a strip-shaped through groove, 37, a discharge port, 4, a radio frequency connector, 41, a shell, 42, a needle terminal assembly, 5, a pressing and assembling mechanism, 51, a second bracket, 52, a second lifting cylinder, 53, a pressing plate, 54, a pressing block, 6, a closing-up assembling mechanism, 61, a third bracket, 62, a third lifting cylinder, 63, a third guide rail, 64, a third slide carriage, 65, a closing-up punch, 651, a needle head accommodating hole, 652, a conical closing-up surface, 66, a fourth slide carriage, 67, a fourth guide rail, 68, an adjusting cylinder, 7, a bending mechanism, 71, a bending positioning cylinder, 72. the device comprises a bending front and rear air cylinder, 73, a first air cylinder fixing seat, 74, a second air cylinder fixing seat, 75, a first slide carriage, 751, a first guide rail, 76, a bending positioning head, 761, a vertical needle-leaning surface, 762, a bending positioning supporting surface, 763, a bending fillet surface, 77, a second guide rail, 78, a second slide carriage, 79, a second bending head, 791, a bending sheave, 792, a first support, 793, a first lifting air cylinder, 794, a bending upper punch, a bending lower punch, 795, a through hole, 796, a pressing surface, 797, a shaping needle groove, 8, a feeding mechanism, 81, a ball screw guide rail, 811, a limit switch, 82, a sliding block, 83, a driving motor, 84 and an L-shaped push rod.

Detailed Description

The invention will be further described with reference to the accompanying drawings in which:

referring to figures 1-10: the semi-automatic assembling machine of the radio frequency connector in the embodiment comprises a rack 1 and a workbench 2 on the rack, wherein the workbench 2 is provided with an assembly line mechanism 3, the assembly line mechanism 3 comprises a material rail 31 and a jig 32 capable of sliding along the material rail 31, the jig 32 is provided with a shell 41 of the radio frequency connector 4 and a needle terminal assembly 42, the material rail 31 is sequentially provided with a riveting station 33, a closing station 34 and a bending station 35 along a feeding direction, the riveting station 33 is provided with a pre-pressing assembling mechanism 5 for assembling the needle terminal assembly 42 into the shell 41, the closing station 34 is provided with a closing assembling mechanism 6 for tightening the assembled needle terminal assembly 42 and the shell 41, the bending station 35 is provided with a bending mechanism 7 for bending a needle of the needle terminal assembly 42, two ends of the material rail 31 are respectively provided with a feeding port 36 and a discharging port 37, the feeding hole 36 is provided with a feeding mechanism 8 for feeding the jig 32, the shell 41 thereon and the needle terminal assembly 42 into a station;

the pressing and assembling mechanism 5 comprises a second lifting cylinder 52 and a pressing plate 53 fixed at the output end of the second lifting cylinder 52, and a plurality of pressing blocks 54 used for prepressing the needle terminal assembly 42 into the shell 41 are arranged at intervals on the lower side of the pressing plate 53; the pressing piece 54 presses the upper end surface of the needle terminal assembly 42 when pressed downward, and the position of the pressing piece 54 is staggered with the needle position at the center of the needle terminal assembly 42, so that the needle head is prevented from being bent.

The closing-up assembling mechanism 6 comprises a third lifting cylinder 62 and a closing-up punch 65 fixed at the output end of the third lifting cylinder 62, a needle head accommodating hole 651 is arranged on the lower end face of the closing-up punch 65, and a conical closing-up surface 652 is arranged at the opening part of the needle head accommodating hole 651; the tapered closing surface 652 closes the upper opening of the mounting opening of the housing 41 on which the needle terminal assembly 42 is placed, and presses the needle terminal assembly 42.

The bending mechanism 7 comprises a bending positioning cylinder 71 and a bending front-back cylinder 72 which are transversely arranged on two sides of the material rail 31, a bending positioning head 76 is fixed on the bending positioning cylinder 71, a bending front-back head 79 is arranged on the bending front-back cylinder 72, and the bending front-back head 79 and the bending positioning head 76 are arranged in a vertically staggered mode;

a first bracket 792 and a first lifting cylinder 793 are arranged above the front and rear bending heads 79, a front and rear bending head 794 is fixed at the output end of the lower end of the first lifting cylinder 793, a through hole 795 for the front and rear bending heads 79 to pass through is arranged under the front and rear bending head 794, a vertical needle-leaning surface 761 and a bending positioning supporting surface 762 for bending the needle are arranged on the bending positioning head 76, a bending sheave 791 in rolling fit with the bending positioning supporting surface 762 is rotatably arranged on the front and rear bending head 79, a pressing surface 796 matched with the bending positioning supporting surface 762 is arranged at the lower end of the upper and lower bending head 794, and a shaping needle groove 797 for shaping the needle is arranged on the pressing surface 796; the bending grooved pulley 791 can reduce the friction force when bending the needle, and avoid the needle to be broken. The underside of the crimp locating head 76 may also be provided with a recess through which the previously crimped spike of the two-spike connector may pass.

A plurality of shell positioning holes 321 are formed in the jig 32 at intervals, a plurality of jig positioning holes 322 corresponding to the shell positioning holes 321 one by one are formed in two sides of the jig 32, and a plurality of locators 311 for preventing the position of the jig 32 from being loosened are arranged on one side of the material track 31 at intervals. The other side of the material track 31 is provided with an optical fiber sensor 312. Jig locating hole 322 can both position jig 32, also can carry out the distance, provides the basis for tool 32 upgrades, refer to fig. 2, 4: the feeding mechanism 8 comprises a ball screw guide rail 81 positioned below the workbench 2, a sliding block 82 on the ball screw guide rail 81 and a driving motor 83 for driving the sliding block 82 to reciprocate, and an L-shaped push rod 84 for pushing the jig 32 to move on the material track 31 is fixed on the sliding block 82. The driving motor 83 can rotate forward and backward according to signals from the sensor and the limit switch 811.

The feed inlet 36 is provided with a strip-shaped through groove 361 for the L-shaped push rod 84 to pass through, and the end part of the ball screw guide rail 81 is also provided with a limit switch 811 for controlling the stroke of the slide block 82.

Second lift cylinder 52 is through second support 51 and workstation 2 fixed connection, third lift cylinder 62 is through third support 61 fixed mounting on workstation 2, third support 61 front side is equipped with third guide rail 63, and slidable mounting has the third carriage apron 64 that can slide from top to bottom on the third guide rail 63, carry out fixed connection through third carriage apron 64 between third lift cylinder 62 and the binding off drift 65.

The bottom of the third support 61 is provided with a fourth slide carriage 66, the frame 1 is provided with a fourth guide rail 67 for the fourth slide carriage 66 to slide back and forth, and the rear end of the fourth slide carriage 66 is fixedly connected with an adjusting cylinder 68. The adjustment cylinder 68 can move the third support 61 to adjust the position of the closing punch 65.

The bending positioning cylinder 71 and the bending front and back cylinders 72 are fixed on the frame 1 through a first cylinder fixing seat 73 and a second cylinder fixing seat 74 respectively, a first guide rail 751 is arranged between the bending positioning cylinder 71 and the material rail 31, a first slide carriage 75 is arranged on the first guide rail 751 in a sliding mode, the bending positioning cylinder 71 and the bending positioning heads 76 are fixedly connected through the first slide carriage 75, a second guide rail 77 is arranged between the bending front and back cylinders 72 and the material rail 31, a second slide carriage 78 is arranged on the second guide rail 77 in a sliding mode, and the bending front and back cylinders 72 and the bending front and back heads 79 are fixedly connected through the second slide carriage 78.

A bending fillet surface 763 is arranged between the vertical needle rest surface 761 and the bending positioning support surface 762, and can control the bending fillet. The piston rods of the air cylinders used by the invention are all provided with the limiters, so that the stroke of the piston rods can be conveniently adjusted.

The process flow of the invention comprises the following steps:

step 1, placing the semi-finished product on a jig 32: placing the housing 41 of the rf connector 4 into the housing positioning hole 321 of the jig 32 for positioning, and then placing the plastic end of the needle terminal assembly 42 into the mounting hole of the housing 41 with the needle of the needle terminal assembly 42 facing upward;

step 2, putting the jig 32 into the material taking head: placing the jig 32 into the feed port 36, and positioning one side of the jig 32 against the material rail 31;

step 3, sensing the incoming material to start and push to a material placing position: after the optical fiber sensor 312 on the material track 31 senses that the jig 32 is placed at the feed port 36, the feeding mechanism 8 starts the driving motor 83 to drive the sliding block 82 on the ball screw guide rail 81 to move linearly, and the sliding block 82 pushes the jig 32 to reach the riveting station 33 through the L-shaped push rod 84;

step 4, the riveting cylinder starts to press plastic (namely, the needle terminal assembly) in place once: the second lifting cylinder 52 on the press-fit assembly mechanism 5 is started to drive the press plate 53 to press down once, and the row of press blocks 54 on the press plate 53 pre-press the row of needle terminal assemblies 42 on the jig 32 into the mounting holes on the shell 41 to realize riveting;

step 5, moving materials to move forwards in a servo mode: the jig 32 filled with the riveted materials moves forwards on the material track 31 under the pushing action of the rear placing jig 32;

and 6, carrying to a closing position for closing once: when the needle terminal assembly 42 and the housing 41 on the jig 32 pass through the closing-up station 34, the third lifting cylinder 62 on the closing-up assembly mechanism 6 is started to drive the closing-up punch 65 to press down once, when the closing-up punch 65 presses down, the upward needle of the needle terminal assembly 42 enters the needle receiving hole 651, and then the conical closing-up surface 652 at the opening part of the needle receiving hole 651 presses the mounting opening barrel mouth on the housing 41 inwards to close up, so that the needle terminal assembly 42 is hooped tightly by the needle terminal assembly 42;

step 7, carrying the material to a bending station 35;

step 8, bending and positioning: the bending positioning cylinder 71 is started to drive the bending positioning head 76 to move, and the vertical needle contact surface 761 is contacted with the part of the needle head of the needle terminal assembly 42 to be bent;

step 9, bending forward and backward: the bending front-back air cylinder 72 is started to drive the bending front-back head 79 to move, and when the bending front-back head 79 passes above the bending positioning head 76, the bending grooved wheel 791 rolls over the bending positioning supporting surface 762 to bend the needle head of the needle terminal assembly 42 by 90 degrees;

step 10, bending and vertically advancing: a first lifting cylinder 793 above the front and rear bending heads 79 is started to drive the upper and lower bending punches 794 to move up and down once, the upper and lower bending punches 794 penetrate through the through hole 795 to press the pressing surface 796 on the bending positioning support surface 762, and the shaping needle groove 797 on the pressing surface 796 shapes the needle;

and step 11, pouring the products assembled on the jig 32 into a turnover box at a discharge hole 37, and completing the assembly of the radio frequency connector.

While the invention has been shown and described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the scope of the appended claims.

Claims (7)

1. The utility model provides a semi-automatic kludge of radio frequency connector, includes frame (1) and workstation (2) on it, be equipped with assembly line mechanism (3) on workstation (2), the characteristic is: the assembly line mechanism (3) comprises a material track (31) and a jig (32) capable of sliding along the material track (31), a shell (41) of a radio frequency connector (4) and a needle terminal assembly (42) are mounted on the jig (32), a riveting station (33), a closing-up station (34) and a bending station (35) are sequentially arranged on the material track (31) along the feeding direction, a pre-pressing assembly mechanism (5) for assembling the needle terminal assembly (42) into the shell (41) is arranged on the riveting station (33), an assembly closing-up mechanism (6) for tightening the assembled needle terminal assembly (42) and the shell (41) is arranged on the closing-up station (34), a bending mechanism (7) for bending needles of the needle terminal assembly (42) is arranged on the bending station (35), a feeding port (36) and a discharging port (37) are respectively arranged at two ends of the material track (31), the feeding hole (36) is provided with a feeding mechanism (8) for feeding the jig (32) and the shell (41) and the needle terminal assembly (42) thereon into a station;

the pressing and assembling mechanism (5) comprises a second lifting cylinder (52) and a pressing plate (53) fixed at the output end of the second lifting cylinder (52), and a plurality of pressing blocks (54) used for prepressing the needle terminal assembly (42) into the shell (41) are arranged at intervals on the lower side of the pressing plate (53);

the closing-up assembling mechanism (6) comprises a third lifting cylinder (62) and a closing-up punch (65) fixed at the output end of the third lifting cylinder (62), a needle head accommodating hole (651) is formed in the lower end face of the closing-up punch (65), and a conical closing-up face (652) is formed in the opening of the needle head accommodating hole (651);

the bending mechanism (7) comprises a bending positioning cylinder (71) and a bending front-back cylinder (72) which are transversely arranged on two sides of the material rail (31), a bending positioning head (76) is fixed on the bending positioning cylinder (71), a bending front-back head (79) is arranged on the bending front-back cylinder (72), and the bending front-back head (79) and the bending positioning head (76) are arranged in a vertically staggered mode;

a first support (792) and a first lifting cylinder (793) are arranged above the front bending head and the rear bending head (79), an upper bending punch (794) and a lower bending punch (794) are fixed at the output end of the lower end of the first lifting cylinder (793), a through hole (795) for the front bending head and the rear bending head (79) to pass through is formed in the position under the upper bending punch (794) and the lower bending punch (794), a vertical needle-leaning surface (761) and a bending positioning supporting surface (762) for bending a needle are arranged on the bending positioning head (76), a bending sheave (791) in rolling fit with the bending positioning supporting surface (762) is rotatably arranged on the front bending head and the rear bending head (79), a pressing surface (796) in fit with the bending positioning supporting surface (762) is arranged at the lower end of the upper bending punch (794), and a shaping needle groove (797) for;

the feeding mechanism (8) comprises a ball screw guide rail (81) positioned below the workbench (2), a sliding block (82) on the ball screw guide rail (81) and a driving motor (83) for driving the sliding block (82) to reciprocate, wherein an L-shaped push rod (84) used for pushing the jig (32) to move on the material track (31) is fixed on the sliding block (82).

2. The semi-automatic assembly machine of the radio frequency connector according to claim 1, wherein: the fixture is characterized in that a plurality of shell positioning holes (321) are formed in the fixture (32) at intervals, a plurality of fixture positioning holes (322) corresponding to the shell positioning holes (321) one to one are formed in two sides of the fixture (32), a plurality of locators (311) for preventing the fixture (32) from being loosened in position are arranged on one side of the material rail (31) at intervals, and an optical fiber sensor (312) is arranged on the other side of the material rail (31).

3. The semi-automatic assembly machine of the radio frequency connector according to claim 2, wherein: the feeding hole (36) is provided with a strip-shaped through groove (361) for the L-shaped push rod (84) to pass through, and the end part of the ball screw guide rail (81) is also provided with a limit switch (811) for controlling the stroke of the sliding block (82).

4. A semi-automatic assembling machine for radio frequency connectors according to claim 3, characterized in that: the second lifting cylinder (52) is fixedly connected with the workbench (2) through a second bracket (51); third lift cylinder (62) are through third support (61) fixed mounting on workstation (2), third support (61) front side is equipped with third guide rail (63), and slidable third carriage apron (64) from top to bottom have on third guide rail (63), carry out fixed connection through third carriage apron (64) between third lift cylinder (62) and binding off drift (65).

5. The semi-automatic assembly machine of the radio frequency connector according to claim 4, wherein: the bottom of the third support (61) is provided with a fourth slide carriage (66), a fourth guide rail (67) for the fourth slide carriage (66) to slide back and forth is arranged on the rack (1), and the rear end of the fourth slide carriage (66) is fixedly connected with an adjusting cylinder (68).

6. Semi-automatic assembling machine of radio frequency connectors according to claim 1 or 5, characterized in that: bend location cylinder (71) and bend around cylinder (72) respectively through first cylinder fixing base (73) and second cylinder fixing base (74) fix in frame (1), be equipped with first guide rail (751) between location cylinder (71) and material track (31) of bending, slidable mounting has first carriage apron (75) on first guide rail (751), bend location cylinder (71) and bend and carry out fixed connection through first carriage apron (75) between location head (76), be equipped with second guide rail (77) between cylinder (72) and material track (31) around bending, slidable mounting has second carriage apron (78) on second guide rail (77), carry out fixed connection through second carriage apron (78) between cylinder (72) and the front and back head (79) of bending around bending.

7. The semi-automatic assembly machine of the radio frequency connector of claim 6, wherein: a bending round corner surface (763) is arranged between the vertical needle leaning surface (761) and the bending positioning support surface (762).

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