CN114235570A

CN114235570A - Female first production facility that detects of data line

Info

Publication number: CN114235570A
Application number: CN202111418907.6A
Authority: CN
Inventors: 崔治荟
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-11-26
Filing date: 2021-11-26
Publication date: 2022-03-25

Abstract

The invention discloses a data line female head detection production device which comprises a base, wherein a traction assembly used for fixing and stretching a data line female head is arranged on the upper side of the base, and a bending assembly used for bending the data line female head is arranged on the rear side of the traction assembly; the invention utilizes the pulling force of the pulling spring to lead the sliding block to generate the trend of leftward movement by the rightward movement of the pulling block, thereby generating the leftward pulling force to the female head of the data wire.

Description

Female first production facility that detects of data line

Technical Field

The invention relates to the technical field of data line detection equipment, in particular to data line female head detection production equipment.

Background

The data line female head is used as an important part for mutual communication of data lines, the quality of the data line female head is one of important indexes for guaranteeing data transmission, in the daily use process, due to frequent bending or drawing of the data lines, the connection part between the female head and the data lines is broken, if the connection part is seriously broken, the internal conducting wires are exposed, the phenomenon of electric leakage and short circuit can occur in use, if the safety accidents are possibly caused by untimely processing, and no corresponding equipment is used for detecting the tensile strength and the bending resistance quality of the data line female head before the data line leaves a factory at present, so that the quality of the data lines cannot be judged.

Disclosure of Invention

The invention aims to provide data line female head detection production equipment which is used for overcoming the defects in the prior art.

The data line female head detection production equipment comprises a base, wherein a traction assembly used for fixing and stretching the data line female head is arranged on the upper side of the base, and a bending assembly used for bending the data line female head is arranged on the rear side of the traction assembly;

the traction assembly comprises a traction seat, a sliding block is fixed on the lower end face of the traction seat, a traction block is arranged on the left side of the sliding block, a traction spring is fixed between the traction block and the sliding block, a left clamping block is arranged in the traction seat, and a left clamping block shaft is matched with the inner thread of the left clamping block;

the bending component comprises a turntable seat fixed on the upper end face of the base, the turntable seat is located on the rear side of the traction seat, a turntable is arranged in the turntable seat, a rotating shaft is arranged in the turntable in a matched mode, the rotating shaft extends forwards to the outside of the turntable, a data line clamping seat is fixed on the front end face of the rotating shaft, a right clamping block is arranged in the data line clamping seat, and a right clamping block shaft is matched with the inner thread of the right clamping block.

The technical scheme is that a slide block cavity with an upward opening is arranged in the base, a lead screw is rotationally matched with the left end wall of the slide block cavity, the right side part of the lead screw extends rightwards to penetrate through the lead screw to the right end wall of the lead screw, the traction block and the slide block are in sliding fit with the slide block cavity, the lead screw penetrates through the slide block and is in threaded fit with the traction block, a left and right through female head through cavity is arranged in the traction seat, a left clamping block cavity is communicated with the upper side of the female head through cavity, the left clamping block is in sliding fit with the left clamping block cavity, the upper side part of a left clamping block shaft extends upwards to the outside of the traction seat, the left clamping block shaft is rotationally matched with the traction seat, the left clamping block can move downwards to clamp a female head of a data line by the rotation of the left clamping block shaft, the slide block moves leftwards to pull the female head of the data line, thereby judging the tensile strength of the data line female head.

The technical scheme is that a turntable cavity with a forward opening is arranged in the turntable seat, a turntable shaft is rotationally matched in the rear end wall of the turntable cavity, the front side part of the turntable shaft extends forwards into the turntable cavity, the turntable is fixed at the tail end of the front side of the turntable shaft, the turntable is positioned in the turntable cavity, a data line through cavity which is communicated with the left and the right is arranged in the data line clamping seat, a right clamping block cavity is communicated with the upper side of the data line through cavity, the right clamping block cavity is in sliding fit with the right clamping block, the upper side part of the right clamping block shaft extends upwards to the outside of the data line clamping seat, the right clamping block shaft is rotationally matched with the data line clamping seat, an upper clamping block is fixed on the lower end face of the right clamping block, a lower clamping block is fixed on the lower end wall of the data line through cavity, and the right clamping block shaft rotates to enable the right clamping block to move downwards to clamp a data line, the data line is bent in a reciprocating manner through the forward and reverse rotation of the turntable, so that the bending resistance quality of the data line is judged.

The right side of the sliding block cavity is provided with a gear cavity, the right side part of the screw rod extends rightwards into the gear cavity, the tail end of the right side of the screw rod is fixedly provided with a driven end face tooth, the right side of the gear cavity is provided with a motor fixedly arranged with the base, the left end face of the motor is in power connection with a motor shaft extending leftwards into the gear cavity, the motor shaft is in spline fit with a second shaft sleeve, the second shaft sleeve is positioned in the gear cavity, the left end of the second shaft sleeve is fixedly provided with a driving end face tooth capable of being meshed with the driven end face tooth, the right end face of the driving end face tooth is fixedly provided with a driving helical gear, the right end of the second shaft sleeve is in running fit with a second magnetic block, a second electromagnet in running fit with the motor shaft is fixedly arranged in the right end wall of the gear cavity, and a second spring is fixedly arranged between the second electromagnet and the second magnetic block, and switching the tensile detection and the bending resistance detection of the data wire is realized through the left-right movement of the second shaft sleeve.

Further technical scheme, carousel chamber downside intercommunication is equipped with the initiative gear chamber, the initiative gear chamber is located gear chamber rear side, initiative gear chamber front end wall normal running fit has the driving gear axle, driving gear axle front portion extends to forward the gear intracavity, back lateral part extend to backward the driving gear intracavity, driving gear axle rear end is fixed with the driving gear, the driving gear with carousel lateral surface intermeshing.

According to the technical scheme, a first shaft sleeve is matched with a driving gear shaft in a spline mode, two driven bevel gears which are symmetrical front and back are fixed on the periphery of the first shaft sleeve, the driving bevel gears are located between the driven bevel gears on the front side and the rear side, the two driven bevel gears can be meshed with the driving bevel gears, a first magnetic block is matched with the tail end of the front side of the first shaft sleeve in a rotating mode, a first electromagnet is fixed in the front end wall of a gear cavity, a first spring is fixed between the first electromagnet and the first magnetic block, and the second magnetic block is meshed with the driven bevel gears on the front side and the rear side in a staged mode through the staged power loss of the first electromagnet, so that the forward and reverse rotation of the second magnetic block is achieved, and the forward and reverse rotation of the rotary table is achieved.

The invention has the beneficial effects that: the invention enables the motor to drive the screw rod to rotate through the engagement of the driving end face teeth and the driven end face teeth, thereby enabling the traction block to move rightwards, enables the sliding block to generate a trend of moving leftwards through the tension of the traction spring, thereby generating a tension to the left of the data line female head, judges the tensile strength of the data line female head through the distance of the left movement of the traction block when the data line female head cracks, simultaneously enables the motor to rotate through the engagement of the driving bevel gear and the driven bevel gear, realizes the forward and reverse rotation of the turntable through the staged engagement of the driven bevel gears on the front side and the rear side with the driving bevel gear, thereby driving the reciprocating bending of the data line, and judges the anti-bending quality of the data line female head through the forward and reverse rotation time of the turntable when the data line cracks.

Drawings

FIG. 1 is a schematic external view of the present invention;

FIG. 2 is a schematic view of the overall structure of a data line female head inspection production apparatus according to the present invention;

FIG. 3 is a schematic view of A-A of FIG. 2 in accordance with the present invention;

FIG. 4 is an enlarged, fragmentary view of the data line pinch-grip seating assembly of FIG. 2 in accordance with the present invention;

FIG. 5 is an enlarged, fragmentary view of the active face tooth member of FIG. 2 in accordance with the present invention;

fig. 6 is an enlarged partial schematic view of the first electromagnet assembly of fig. 3 according to the present invention.

In the figure:

10. a base; 11. a slider cavity; 12. a screw rod; 13. a traction seat; 14. the female head is communicated with the cavity; 15. a left clamp block; 16. a left clamp block cavity; 17. a left clamp block shaft; 18. a turntable; 19. a data wire clamping seat; 20. a turntable base; 21. a motor; 22. a gear cavity; 23. a driving end face tooth; 24. a slider; 25. a tension spring; 26. a pulling block; 27. a rotating shaft; 28. a first electromagnet; 29. a driving gear shaft; 30. a driving gear; 31. a drive gear cavity; 32. a turntable cavity; 33. a turntable shaft; 34. a right clamp block shaft; 35. a right clamp block; 36. a right clamp block cavity; 37. an upper clamping block; 38. a lower clamping block; 39. the data line is communicated with the cavity; 40. a first bushing; 41. a second shaft sleeve; 42. a second electromagnet; 43. a motor shaft; 44. a second spring; 45. a second magnetic block; 46. a driven helical gear; 47. a driving bevel gear; 48. a driven end face tooth; 49. a first spring; 50. a first magnetic block.

Detailed Description

For purposes of making the objects and advantages of the present invention more apparent, the following detailed description of the invention, taken in conjunction with the examples, should be understood that the following text is only intended to describe one or more specific embodiments of the invention, and not to strictly limit the scope of the invention as specifically claimed, and as used herein, the terms up, down, left, and right are not limited to strict geometric definitions thereof, but include tolerances for reasonable and inconsistent machining or human error, the following being a detailed description of specific features of such a data line header inspection production facility:

referring to fig. 1 to 6, the data line female head detection production equipment according to the embodiment of the invention comprises a base 10, wherein a traction assembly for fixing and stretching the data line female head is arranged on the upper side of the base 10, and a bending assembly for bending the data line female head is arranged on the rear side of the traction assembly;

the traction assembly comprises a traction seat 13, a sliding block 24 is fixed on the lower end face of the traction seat 13, a traction block 26 is arranged on the left side of the sliding block 24, a traction spring 25 is fixed between the traction block 26 and the sliding block 24, a left clamping block 15 is arranged in the traction seat 13, and a left clamping block shaft 17 is matched with the inner thread of the left clamping block 15;

the subassembly of buckling is including being fixed in carousel seat 20 on the base 10 up end, carousel seat 20 is located draw seat 13 rear side, be provided with carousel 18 in the

carousel seat

20, 18 normal running fit in carousel has pivot 27, pivot 27 extends to forward outside the carousel 18, the terminal surface is fixed with data line grip slipper 19 before the pivot 27, be provided with right clamp splice 35 in the data line grip slipper 19, right clamp splice 35 female screw-thread fit has right clamp splice axle 34.

Illustratively, a slider cavity 11 with an upward opening is arranged in the base 10, a lead screw 12 is rotationally matched with the left end wall of the slider cavity 11, the right side part of the lead screw 12 extends rightwards to penetrate through the lead screw 12 to the right end wall of the lead screw 12, both the pulling block 26 and the slider 24 are in sliding fit with the slider cavity 11, the lead screw 12 penetrates through the slider 24 and is in threaded fit with the pulling block 26, the left-right movement of the pulling block 26 can be realized through the rotation of the lead screw 12, a left-right through female head through cavity 14 is arranged in the traction base 13, a left clamping block cavity 16 is communicated with the upper side of the female head through cavity 14, the left clamping block 15 is in sliding fit with the left clamping block cavity 16, the upper side part of the left clamping block shaft 17 extends upwards to the outside of the traction base 13, the left clamping block shaft 17 is rotationally matched with the traction base 13, and through the rotation of the left clamping block shaft 17, the left clamping block 15 can move downwards to clamp the data wire female head, and the sliding block 24 moves leftwards to pull the data wire female head, so that the tensile strength of the data wire female head is judged.

Illustratively, a turntable cavity 32 with a forward opening is arranged in the turntable base 20, a turntable shaft 33 is rotatably fitted in a rear end wall of the turntable cavity 32, a front portion of the turntable shaft 33 extends forward into the turntable cavity 32, the turntable 18 is fixed at a front end of the turntable shaft 33, the turntable 18 is located in the turntable cavity 32, a data line through cavity 39 which is through from left to right is arranged in the data line clamping base 19, a right clamping block cavity 36 is communicated with an upper side of the data line through cavity 39, the right clamping block cavity 36 is in sliding fit with the right clamping block 35, an upper portion of the right clamping block shaft 34 extends upward out of the data line clamping base 19, the right clamping block shaft 34 is rotatably fitted with the data line clamping base 19, an upper clamping block 37 is fixed on a lower end surface of the right clamping block 35, a lower clamping block 38 is fixed on a lower end wall of the data line through cavity 39, the lower clamping block 38, The upper clamping blocks 37 are made of rubber, the right clamping block 35 moves downwards to clamp the data line through the rotation of the right clamping block shaft 34, and the data line is bent in a reciprocating mode through the forward and backward rotation of the turntable 18, so that the bending resistance quality of the data line is judged.

Illustratively, a gear cavity 22 is arranged on the right side of the slider cavity 11, the right side portion of the screw rod 12 extends rightwards into the gear cavity 22, a driven end face tooth 48 is fixed at the right end of the screw rod 12, a motor 21 fixedly arranged on the right side of the gear cavity 22 and fixed with the base 10 is arranged on the right side of the screw rod, a motor shaft 43 extending leftwards into the gear cavity 22 is connected with the left end face of the motor 21 in a power mode, a second shaft sleeve 41 is in spline fit with the motor shaft 43, the second shaft sleeve 41 is located in the gear cavity 22, the right end face of the driven end face tooth 48 and the left end face of the search driving end face tooth 23 are respectively provided with a tooth form, a driving end face tooth 23 capable of being meshed with the driven end face tooth 48 is fixed at the left end of the second shaft sleeve 41, a driving helical gear 47 is fixed at the right end face of the driving end face tooth 23, a second magnetic block 45 is in running fit with the right end of the second shaft sleeve 41, a second electromagnet 42 in rotary fit with the motor shaft 43 is fixed in the right end wall of the gear cavity 22, a second spring 44 is fixed between the second electromagnet 42 and the second magnetic block 45, and switching between tensile detection and bending detection of the data line is achieved through left-right movement of the second shaft sleeve 41.

Exemplarily, carousel chamber 32 downside intercommunication is equipped with driving gear chamber 31, driving gear chamber 31 is located gear chamber 22 rear side, driving gear chamber 31 front end wall normal running fit has driving gear axle 29, driving gear axle 29 front side part extends to forward in the gear chamber 22, the rear side part extends to backward in the driving gear chamber 31, driving gear axle 29 rear side end is fixed with driving gear 30, driving gear 30 with carousel 18 lateral surface intermeshing.

Illustratively, a first shaft sleeve 40 is in spline fit on the driving gear shaft 29, two driven bevel gears 46 which are symmetrical in front and back are fixed on the outer periphery of the first shaft sleeve 40, the driving bevel gear 47 is located between the driven bevel gears 46 at the front and rear sides, both the driven bevel gears 46 can be engaged with the driving bevel gear 47, a first magnetic block 50 is rotatably matched on the front end of the first shaft sleeve 40, a first electromagnet 28 is fixed in the front end wall of the gear cavity 22, a first spring 49 is fixed between the first electromagnet 28 and the first magnetic block 50, the second magnetic block 45 is meshed with the driven bevel gears 46 at the front side and the rear side in a staged manner through the staged power loss of the first electromagnet 28, the second magnetic block 45 is rotated forward and backward, and the turntable 18 is rotated forward and backward.

The invention relates to a data line female head detection production device, which comprises the following working procedures:

the data line female head is placed in the female head through cavity 14, and the left clamping block shaft 17 is rotated, so that the left clamping block 15 moves downwards until the data line female head is clamped.

The data wire is passed through the data wire through cavity 39, the data wire is straightened to the right to be in a tight state, and the right clamping block shaft 34 is rotated to enable the right clamping block 35 to move downwards, so that the upper clamping block 37 is driven to move downwards until the upper clamping block 37 and the lower clamping block 38 clamp the data wire.

If the data line needs to be subjected to anti-bending quality detection, the second electromagnet 42 is started in the forward direction, so that the second electromagnet 42 is electrified to attract the second magnetic block 45, the second magnetic block 45 is driven to move rightwards by overcoming the elastic force of the second spring 44, the second shaft sleeve 41 is driven to move rightwards, the driving bevel gear 47 is driven to move rightwards to be meshed with the driven bevel gear 46, and the driving end face teeth 23 are not meshed with the driven end face teeth 48.

At this time, the motor 21 is started, so that the motor shaft 43 rotates, thereby driving the second bushing 41 to rotate, and further driving the driving helical gear 47 to rotate, and further driving the driven helical gear 46 to rotate.

The first electromagnet 28 is activated to receive a positive current for a period of time and then receive a negative current, thereby causing the first electromagnet 28 to attract and repel the first magnetic block 50.

When the first electromagnet 28 repels the first magnetic block 50, the first magnetic block 50 overcomes the pulling force of the first spring 49 and moves backwards, so that the first shaft sleeve 40 moves backwards, and then the driven helical gear 46 on the front side is driven to move backwards to be meshed with the driving helical gear 47, so that the driving helical gear 47 rotates to drive the driven helical gear 46 on the front side to rotate, and then the first shaft sleeve 40 is driven to rotate, and then the driving gear shaft 29 rotates to drive the driving gear 30 to rotate, so that the rotary disk 18 rotates, and then the rotary shaft 27 is driven to rotate by taking the rotary disk shaft 33 as the center.

When the first electromagnet 28 attracts the first magnetic block 50, the first magnetic block 50 moves forward against the elastic force of the first spring 49, so that the rear driven helical gear 46 moves forward to engage with the driving helical gear 47, the front driven helical gear 46 moves forward to disengage from the driving helical gear 47, the driving helical gear 47 rotates to drive the rear driven helical gear 46 to reverse, so that the turntable 18 reverses, and the rotating shaft 27 is driven to reverse around the turntable shaft 33, so that the data line is repeatedly bent, and when a crack occurs in the data line, the bending resistance quality of the data line is determined by the rotation time of the turntable 18.

If the tensile strength of the data line needs to be judged, the second electromagnet 42 is started reversely, so that the second electromagnet 42 repels the second magnetic block 45, the second magnetic block 45 is driven to move leftwards, the second shaft sleeve 41 is driven to move leftwards, the driving end face teeth 23 are driven to move leftwards to be meshed with the driven end face teeth 48, the motor shaft 43 rotates to drive the driving end face teeth 23 to rotate, the driven end face teeth 48 are driven to rotate, the screw rod 12 is driven to rotate, the pulling block 26 is driven to move leftwards, the pulling spring 25 is made to stretch, a pulling force moving leftwards is generated on the sliding block 24, and the female head of the data line is pulled through the pulling seat 13.

When the female head has cracks, the motor 21 is closed, and the tensile strength of the female head of the data wire is judged by observing the leftward movement distance of the traction block 26.

It will be apparent to those skilled in the art that various modifications may be made to the above embodiments without departing from the general spirit and concept of the invention. All falling within the scope of protection of the present invention. The protection scheme of the invention is subject to the appended claims.

Claims

1. The utility model provides a female first production facility that detects of data line, includes base (10), its characterized in that: a traction assembly used for fixing and stretching the data line female head is arranged on the upper side of the base (10), and a bending assembly used for bending the data line female head is arranged on the rear side of the traction assembly;

the traction assembly comprises a traction seat (13), a sliding block (24) is fixed on the lower end face of the traction seat (13), a traction block (26) is arranged on the left side of the sliding block (24), a traction spring (25) is fixed between the traction block (26) and the sliding block (24), a left clamping block (15) is arranged in the traction seat (13), and a left clamping block shaft (17) is matched with the left clamping block (15) in an internal thread manner;

the subassembly of buckling is including being fixed in carousel seat (20) on base (10) up end, carousel seat (20) are located draw seat (13) rear side, be provided with carousel (18) in carousel seat (20), carousel (18) normal running fit has pivot (27), pivot (27) extend to forward outside carousel (18), the terminal surface is fixed with data line clamp holder (19) before pivot (27), be provided with right clamp splice (35) in data line clamp holder (19), right clamp splice (35) interior screw-thread fit has right clamp splice axle (34).

2. The female head of data line detects production facility of claim 1, characterized in that: a slide block cavity (11) with an upward opening is arranged in the base (10), a screw rod (12) is rotationally matched with the left end wall of the slide block cavity (11), the right side part of the screw rod (12) extends rightwards to penetrate through the screw rod (12) to the right end wall of the screw rod (12), the traction block (26) and the sliding block (24) are in sliding fit with the sliding block cavity (11), the screw rod (12) penetrates through the sliding block (24) and is in threaded fit with the pulling block (26), a female head through cavity (14) which is communicated from left to right is arranged in the traction seat (13), a left clamping block cavity (16) is communicated with the upper side of the female head through cavity (14), the left clamping block (15) is in sliding fit with the left clamping block cavity (16), the upper side part of the left clamping block shaft (17) extends upwards to the outside of the traction seat (13), and the left clamping block shaft (17) is in running fit with the traction seat (13).

3. The female head of data line detects production facility of claim 2, characterized in that: the improved turntable device is characterized in that a turntable cavity (32) with a forward opening is arranged in the turntable seat (20), a turntable shaft (33) is arranged in the rear end wall of the turntable cavity (32) in a rotating fit mode, the front side part of the turntable shaft (33) extends forwards into the turntable cavity (32), the turntable (18) is fixed at the tail end of the front side of the turntable shaft (33), the turntable (18) is located in the turntable cavity (32), a data line through cavity (39) which is communicated left and right is arranged in the data line clamping seat (19), a right clamping block cavity (36) is communicated with the upper side of the data line clamping seat (19), the right clamping block cavity (36) is in sliding fit with the right clamping block (35), the upper side part of the right clamping block shaft (34) extends upwards to the outer side of the data line clamping seat (19), the right clamping block shaft (34) is in rotating fit with the data line clamping seat (19), an upper clamping block (37) is fixed on the lower end face of the right clamping block (35), and a lower clamping block (38) is fixed on the lower end wall of the data line through cavity (39).

4. The female head of data line detects production facility of claim 3, characterized in that: the right side of the sliding block cavity (11) is provided with a gear cavity (22), the right side part of the screw rod (12) extends rightwards to the inside of the gear cavity (22), the right side end of the screw rod (12) is fixed with driven end face teeth (48), the right side of the gear cavity (22) is provided with a motor (21) fixedly arranged on the base (10), the left end face of the motor (21) is in power connection with a motor shaft (43) extending leftwards to the inside of the gear cavity (22), a second shaft sleeve (41) is in spline fit on the motor shaft (43), the second shaft sleeve (41) is positioned in the gear cavity (22), the left side end of the second shaft sleeve (41) is fixed with driving end face teeth (23) capable of being meshed with the driven end face teeth (48), a driving helical gear (47) is fixed on the right end face of the driving end face teeth (23), and a second magnetic block (45) is in rotation fit on the right end of the second shaft sleeve (41), a second electromagnet (42) which is in running fit with the motor shaft (43) is fixed in the right end wall of the gear cavity (22), and a second spring (44) is fixed between the second electromagnet (42) and the second magnetic block (45).

5. The female head of data line detects production facility of claim 4, characterized in that: carousel chamber (32) downside intercommunication is equipped with driving gear chamber (31), driving gear chamber (31) are located gear chamber (22) rear side, driving gear chamber (31) front end wall normal running fit has driving gear axle (29), driving gear axle (29) front side part extends to forward in gear chamber (22), the rear side part extends to backward in driving gear chamber (31), driving gear axle (29) rear side end is fixed with driving gear (30), driving gear (30) with carousel (18) lateral surface intermeshing.

6. The female head of data line detects production facility of claim 5, characterized in that: spline fit has first axle sleeve (40) on driving gear axle (29), be fixed with two driven helical gears (46) of longitudinal symmetry on first axle sleeve (40) periphery, drive helical gear (47) are located both sides around between driven helical gear (46), two driven helical gear (46) all can with drive helical gear (47) meshing, the cooperation of rotating on first axle sleeve (40) front side end has first magnetism piece (50), gear chamber (22) front end wall internal fixation has first electro-magnet (28), first electro-magnet (28) with be fixed with first spring (49) between first magnetism piece (50).