CN117506370B - Automatic positioning rotating shaft penetrating equipment - Google Patents

Abstract

The invention relates to the technical field of processing of rotary shaft keyboards and discloses automatic positioning rotary shaft penetrating equipment which is used for penetrating FPC (flexible printed circuit) flat cables in a keyboard leather sheath into a rotary shaft and inserting the rotary shaft into the rotary shaft of the leather sheath, wherein a through groove is formed in the rotary shaft along the direction perpendicular to an axis. According to the invention, the rotating shaft is horizontally conveyed, the through groove of the rotating shaft corresponds to the plug connector along the radial direction, the FPC winding displacement is inserted into the through groove by utilizing the plug connector, and the rotating shaft and the FPC winding displacement are inserted into the joint of the leather sheath together, so that the rotating shaft, the FPC winding displacement and the connecting hinge of the leather sheath shell are correspondingly assembled, the keyboard leather sheath is rapidly positioned and assembled, and the use stability of the keyboard leather sheath is ensured.

Description

Automatic positioning rotating shaft penetrating equipment

Technical Field

The invention relates to the field of processing of rotating shaft keyboards, in particular to automatic positioning rotating shaft penetrating equipment.

Background

The existing rotating shaft keyboard leather sheath in the current market uses FPC flat cable as wired connection, and can only connect the situation that the PIN connection point is on one side of the rotating shaft, and cannot be suitable for the situation that the PIN connection point is on the other side of the rotating shaft.

As shown in FIG. 8, the FPC winding displacement passes through the pivot, and the FPC winding displacement can pass through the pivot, realizes switching on simultaneously, does not influence the rotation of pivot, and the supporting effect of support, but the pivot does not have corresponding pivot equipment of wearing with being connected of FPC winding displacement, can not be fine simultaneously fix a position the equipment to FPC winding displacement and pivot, has guaranteed the stability in use of pivot and FPC winding displacement in the pivot keyboard leather sheath.

Disclosure of Invention

The invention provides automatic positioning rotating shaft penetrating equipment, which solves the technical problems that in the related art, the FPC winding displacement is connected with a rotating shaft in a penetrating way, so that positioning and assembly cannot be realized, and the use stability of the rotating shaft and the FPC winding displacement in a rotating shaft keyboard leather sheath cannot be ensured.

The invention provides automatic positioning rotating shaft penetrating equipment which is used for penetrating an FPC (flexible printed circuit) winding displacement in a keyboard leather sheath into a rotating shaft, inserting the rotating shaft into the rotating shaft of the leather sheath shell, and enabling the rotating shaft to be provided with a through groove along the direction perpendicular to an axis;

the assembly component comprises a servo motor, a matching frame and a pneumatic clamp, wherein an output shaft of the servo motor is connected to the matching frame, a plurality of clamping grooves are formed in the outer wall of the matching frame, the pneumatic clamp is arranged in the groove walls of the clamping grooves, the leather sheath shell is inserted into the clamping grooves, and the rotating shaft of the leather sheath shell and the rotating shaft are located on the same axis.

Further, the plug-in assembly comprises a radial cylinder and a positioning clamp, and the positioning clamp is arranged at one end of a piston rod of the radial cylinder.

Further, the positioning fixture comprises a base, an elastic sheet, a sliding column and an electromagnet, wherein a chute is formed in one side inner wall of the base, the sliding column is arranged on the outer walls of the two ends of the elastic sheet, the bottom end of the sliding column is slidably connected in the chute, and the electromagnet is arranged on the chute walls of the two sides of the chute.

Further, the top outer wall of the base is provided with a placing groove, the initial state of the elastic sheet is of an arc-shaped structure, and the bottom end of the elastic sheet is propped against and connected to the outer wall of the FPC wire arranged in the placing groove.

Further, when the electromagnet adsorbs the sliding column, the radian of the arc-shaped structure of the elastic sheet is reduced, the elastic sheet is moved out of the placing groove, and the FPC flat cable is released from the base.

Further, a transmission gear is arranged on one side of the rotating wheel, a first driving motor is arranged on the workbench, a driving gear is arranged on an output shaft of the first driving motor, and the driving gear is in meshed connection with the transmission gear.

Further, a slot is formed in one side, away from the transmission gear, of the rotating wheel, the slot extends to the outer wall of the rotating wheel, and the tail end of the plug-in assembly faces the slot.

Further, a support is arranged on one side, close to the conveying belt assembly, of the workbench, a rotating assembly is arranged on the outer wall, close to the conveying assembly, of one side of the support, and the rotating assembly is used for rotating a rotating shaft conveyed on the rotating wheel.

Further, the rotating assembly comprises a second driving motor and a rotating roller, an output shaft of the second driving motor is connected with the rotating roller, and the outer wall of the rotating roller is in abutting connection with the outer wall of the rotating shaft positioned on the rotating wheel.

Further, when the rotating wheel drives the rotating shaft to rotate in the conveying groove, the tail end of the inserting assembly is in abutting connection with the outer wall of the rotating shaft, and the through groove in the rotating shaft is in abutting connection with the tail end of the inserting assembly, so that the groove direction of the through groove in the rotating shaft is consistent with the radial direction of the rotating wheel.

The invention has the beneficial effects that: the automatic positioning and rotating shaft penetrating equipment horizontally conveys the rotating shaft, the through groove of the rotating shaft is corresponding to the plug connector in the radial direction, the FPC winding displacement is inserted into the through groove by the plug connector, and the rotating shaft and the FPC winding displacement are inserted into the joint of the leather sheath together, so that the rotating shaft, the FPC winding displacement and the connecting hinge of the leather sheath are correspondingly assembled, the keyboard leather sheath is rapidly positioned and assembled, and the use stability of the rotating shaft and the FPC winding displacement in the keyboard leather sheath is ensured when the rotating shaft and the FPC winding displacement are used.

Drawings

FIG. 1 is a schematic diagram of an automatic positioning spindle penetrating device according to the present invention;

FIG. 2 is a schematic diagram of the structure of the present invention from another perspective of FIG. 1;

FIG. 3 is a front view of FIG. 1 of the present invention;

FIG. 4 is a top view of FIG. 1 of the present invention;

FIG. 5 is a schematic view of the transport assembly of FIG. 1 in accordance with the present invention;

FIG. 6 is a schematic view of the transfer assembly of FIG. 5 in accordance with the present invention;

FIG. 7 is a schematic view of the plug assembly of FIG. 6 according to the present invention;

FIG. 8 is a schematic diagram of a keyboard leather sheath processed by an automatic positioning rotating shaft penetrating device;

fig. 9 is a schematic diagram of a connection structure between the FPC cable and the shaft in fig. 8 according to the present invention.

In the figure: 100. a keyboard leather sheath; 110. pi Taoke; 120. FPC flat cable; 130. a rotating shaft; 140. a connecting hinge; 200. a work table; 300. a conveyor belt assembly; 400. a transport assembly; 410. a rotating wheel; 420. a transmission gear; 430. a conveying trough; 440. a drive gear; 450. a first driving motor; 500. a transfer assembly; 510. a telescopic cylinder; 520. a connecting disc; 530. a plug assembly; 531. a radial cylinder; 532. positioning a clamp; 532a, a base; 532b, an electromagnet; 532c, shrapnel; 532d, a spool; 600. assembling the assembly; 610. a servo motor; 620. a mating rack; 630. a pneumatic clamp; 700. a rotating assembly; 710. a second driving motor; 720. and (5) rotating the roller.

Detailed Description

The subject matter described herein will now be discussed with reference to example embodiments. It is to be understood that these embodiments are merely discussed so that those skilled in the art may better understand and implement the subject matter described herein and that changes may be made in the function and arrangement of the elements discussed without departing from the scope of the disclosure herein. Various examples may omit, replace, or add various procedures or components as desired. In addition, features described with respect to some examples may be combined in other examples as well.

Referring to fig. 1-9, an automatic positioning rotating shaft penetrating device is used for penetrating an FPC cable 120 into a rotating shaft 130 in a keyboard leather sheath 100, inserting the rotating shaft 130 into the rotating shaft of a leather sheath shell 110, forming a through groove along the vertical direction of an axis by the rotating shaft 130, wherein the leather sheath shell 110 comprises two shells, one of the shells is used for fixing a keyboard, the other shell is used for assisting in the installation of equipment connected with the keyboard, a connecting hinge 140 is arranged at the joint of the two shells, the rotating shaft 130 is penetrated into the connecting hinge 140, the FPC cable 120 is of an L-shaped structure, one end of the FPC cable 120 is penetrated into the through groove, and the FPC cable 120 is attached to the outer walls of the two shells;

as shown in fig. 1, the rotating shaft penetrating apparatus includes a table 200, a conveyor belt assembly 300 is provided at one side of the table 200, and the table 200 is provided with a conveying assembly 400, a transferring assembly 500 and an assembling assembly 600 perpendicular to a conveying direction;

the conveying assembly 400 comprises a rotating wheel 410, a conveying groove 430 is formed in the rotating wheel 410, the conveying belt assembly 300 is used for horizontally conveying the rotating shaft 130 to the conveying groove 430, the conveying assembly 500 comprises a telescopic cylinder 510, a connecting disc 520 and a plug-in assembly 530, the connecting disc 520 is arranged at one end of a piston rod of the telescopic cylinder 510, the plug-in assembly 530 is annularly distributed on the outer wall of the connecting disc 520, one end of the FPC wire 120 is moved towards the rotating shaft 130 along the radial direction of the rotating wheel 410 by the plug-in assembly 530, and the rotating shaft 130 and the FPC wire 120 connected with the rotating shaft are plugged into the assembly 600 together by the plug-in assembly 530 driven by the telescopic cylinder 510;

as shown in fig. 5, a transmission gear 420 is disposed on one side of the rotating wheel 410, a first driving motor 450 is disposed on the workbench 200, a driving gear 440 is disposed on an output shaft of the first driving motor 450, the driving gear 440 is engaged with the transmission gear 420, a slot is opened on one side of the rotating wheel 410 far away from the first transmission gear 420, the slot extends to an outer wall of the rotating wheel 410, and a tail end of the inserting assembly 530 faces the slot.

The plug assembly 530 comprises a radial cylinder 531 and a positioning clamp 532, the positioning clamp 532 is arranged at one end of a piston rod of the radial cylinder 531, the positioning clamp 532 comprises a base 532a, an elastic piece 532c, a sliding column 532d and an electromagnet 532b, a chute is formed in one side inner wall of the base 532a, the sliding column 532d is arranged on the outer walls of two ends of the elastic piece 532c, the bottom end of the sliding column 532d is slidably connected in the chute, the electromagnet 532b is arranged on the walls of two sides of the chute, a placing groove is formed in the outer wall of the top end of the base 532a, the initial state of the elastic piece 532c is in an arc-shaped structure, the bottom end of the elastic piece 532c is abutted against and connected to the outer wall of the FPC wire 120 arranged in the placing groove, when the electromagnet 532b adsorbs the sliding column 532d, the radian of the arc-shaped structure of the elastic piece 532c is reduced, the elastic piece 532c is moved out of the placing groove, and the FPC wire 120 is released from the base 532 a.

The conveyor belt assembly 300 comprises, but is not limited to, two groups of shaft body conveyor belts, each shaft body conveyor belt comprises a conveyor belt body, a driving roller and a conveying motor, the conveyor belt body is sleeved on the outer wall of the driving roller, an output shaft of the conveying motor is connected with the driving roller, a roller body placing rack is arranged on the conveyor belt body and used for horizontally placing the rotating shaft 130, conveyor belt supports are arranged on two sides of the installed shaft body conveyor belt, guide plates are arranged on the outer wall of each conveyor belt support and used for centrally conveying the rotating shaft 130 to the conveying groove 430;

a support is arranged on one side of the workbench 200, which is close to the conveyor belt assembly 300, a rotating assembly 700 is arranged on the outer wall of one side of the support, which is close to the conveyor assembly 400, the rotating assembly 700 is used for rotating the rotating shaft 130 conveyed on the rotating wheel 410, the rotating assembly 700 comprises a second driving motor 710 and a rotating roller 720, an output shaft of the second driving motor 710 is connected with the rotating roller 720, and the outer wall of the rotating roller 720 is in abutting connection with the outer wall of the rotating shaft 130 positioned on the rotating wheel 410.

When the rotating roller 720 drives the rotating shaft 130 to rotate in the conveying groove 430, the end of the inserting assembly 530 is abutted against and connected to the outer wall of the rotating shaft 130, and the through groove on the rotating shaft 130 is abutted against and connected to the end of the inserting assembly 530, so that the groove direction of the through groove of the rotating shaft 130 is consistent with the radial direction of the rotating wheel 410.

The assembly 600 comprises a servo motor 610, a matching frame 620 and a pneumatic clamp 630, wherein an output shaft of the servo motor 610 is connected to the matching frame 620, a plurality of clamping grooves are formed in the outer wall of the matching frame 620, the pneumatic clamp 630 is arranged in the groove walls of the clamping grooves, the leather sheath shell 110 is inserted in the clamping grooves, and the rotating shaft of the leather sheath shell 110 and the rotating shaft 130 are positioned on the same axis;

the matching frame 620 is in a disc-shaped structure, the clamping grooves are formed along the radial direction of the matching frame 620, the pneumatic clamps 630 are arranged on the groove walls on two sides of the clamping grooves, and the pneumatic clamps 630 are clamped on the outer wall of the shell.

The automatic positioning and inserting shaft device is used for enabling a through groove of the rotating shaft 130 to be opposite to the FPC wire 120, the inserting assembly 530 inserts the FPC wire 120 into the through groove and movably inserts the FPC wire 120 and the rotating shaft 130 to the joint of the two shells, and the specific operation flow is as follows:

the rotating shaft 130 is horizontally conveyed through the conveying belt assembly 300, the rotating shaft 130 is conveyed through shaft body conveying belts on two sides, the rotating shaft 130 is centered by utilizing the guide plates, the rotating shaft 130 is guided into the conveying groove 430, the rotating wheels 410 continuously rotate through the transmission gears 420, the rotating shaft 130 are sequentially conveyed, when the rotating shaft 130 passes through the rotating assembly 700, the rotating wheels 410 roll on the outer wall of the shaft body of the rotating shaft 130 to rotate the rotating shaft 130 for one circle, and when the end part of the inserting assembly 530 abuts against a notch connected to the through groove, the rotating shaft 130 does not rotate any more, so that the groove of the through groove corresponds to the radial direction of the rotating wheels 410;

when the five rotating shafts 130 are horizontally conveyed to the rotating wheel 410, the plug-in assembly 530 in the transfer assembly 500 inserts one end of the FPC wire 120 into the through groove of the rotating shaft 130, then the connection structure of the FPC wire 120 and the rotating shaft 130 is limited by the plug-in assembly 530, the telescopic cylinder 510 is utilized to drive the connecting disc 520 and the plug-in assembly 530 connected with the connecting disc 520 to move towards the shell on the matching frame 620, one side of each of the two shells is provided with the connecting hinge 140, and the other side of each of the two shells is not connected with the connecting hinge 140;

the inserting assembly 530 is driven by the radial cylinder 531 to move along the radial direction, the positioning clamp 532 is driven to be inserted into the through groove of the rotating shaft 130, the elastic sheet 532c is in an initial state during insertion, the FPC flat cable 120 is effectively limited, when the connecting part of the housing is inserted, the sliding column 532d moves towards the electromagnet 532b side, the elastic sheet 532c is driven to be gradually straightened from the initial state, the FPC flat cable 120 is separated from the placing groove, and then the telescopic cylinder 510 is used for driving the inserting assembly 530 to reset;

the assembled pneumatic clamp 630 is released, after the assembled keyboard leather sheath 100 is blanked, the two shells preloaded with the connecting hinge 140 are placed on the matching frame 620, and the rotating shaft 130 is continuously inserted into the connecting hinge 140, so that the circulating operation of the process of penetrating the rotating shaft 130 is formed.

The embodiment has been described above with reference to the embodiment, but the embodiment is not limited to the above-described specific implementation, which is only illustrative and not restrictive, and many forms can be made by those of ordinary skill in the art, given the benefit of this disclosure, are within the scope of this embodiment.

Claims (3)

1. An automatic positioning rotating shaft penetrating device is used for penetrating an FPC (flexible printed circuit) flat cable (120) into a rotating shaft (130) in a keyboard leather sheath (100), inserting the rotating shaft (130) into the rotating shaft of the leather sheath shell (110), and opening a through groove in the rotating shaft (130) along the direction perpendicular to an axis, and is characterized in that the rotating shaft penetrating device comprises a workbench (200), a conveying belt component (300), a conveying component (400), a transferring component (500) and an assembling component (600), wherein the conveying belt component (300), the conveying component (400), the transferring component (500) and the assembling component (600) are all arranged on the workbench (200), the conveying component (400) comprises a rotating wheel (410), the rotating wheel (410) is provided with a conveying groove (430), the conveying belt component (300) is used for horizontally conveying the rotating shaft (130) onto the conveying groove (430), the transferring component (500) comprises a telescopic cylinder (510), a connecting disc (520) and a plugging component (530), the connecting disc (520) is arranged on one end of a piston rod of the telescopic cylinder (510), the plugging component (530) is annularly distributed on the outer wall of the conveying belt component (300), the connecting disc (520) moves the rotating wheel (410) towards one end of the rotating wheel (130), the telescopic cylinder (510) drives the inserting assembly (530) to insert the rotating shaft (130) and the FPC flat cable (120) connected with the rotating shaft into the assembling assembly (600);

the assembly component (600) comprises a servo motor (610), a matching frame (620) and a pneumatic clamp (630), wherein an output shaft of the servo motor (610) is connected to the matching frame (620), a plurality of clamping grooves are formed in the outer wall of the matching frame (620), the pneumatic clamp (630) is arranged in the groove walls of the clamping grooves, the Pi Taoke (110) is inserted into the clamping grooves, and the rotating shaft of the Pi Taoke (110) and the rotating shaft (130) are positioned on the same axis;

the plug-in assembly (530) comprises a radial cylinder (531) and a positioning clamp (532), and the positioning clamp (532) is arranged at one end of a piston rod of the radial cylinder (531);

the positioning clamp (532) comprises a base (532 a), an elastic piece (532 c), a sliding column (532 d) and an electromagnet (532 b), wherein a chute is formed in the inner wall of one side of the base (532 a), the sliding column (532 d) is arranged on the outer walls of the two ends of the elastic piece (532 c), the bottom end of the sliding column (532 d) is slidably connected in the chute, and the electromagnet (532 b) is arranged on the walls of two sides of the chute;

the outer wall of the top end of the base (532 a) is provided with a placing groove, the initial state of the elastic sheet (532 c) is in an arc-shaped structure, and the bottom end of the elastic sheet (532 c) is abutted against and connected to the outer wall of the FPC flat cable (120) arranged in the placing groove;

when the electromagnet (532 b) adsorbs the sliding column (532 d), the radian of the arc-shaped structure of the elastic sheet (532 c) is reduced, the elastic sheet (532 c) is moved out of the placing groove, and the FPC flat cable (120) is released from the base (532 a);

a bracket is arranged on one side of the workbench (200) close to the conveying belt assembly (300), a rotating assembly (700) is arranged on the outer wall of one side of the bracket close to the conveying assembly (400), and the rotating assembly (700) is used for rotating a rotating shaft (130) conveyed on the rotating wheel (410);

the rotating assembly (700) comprises a second driving motor (710) and a rotating roller (720), an output shaft of the second driving motor (710) is connected with the rotating roller (720), and the outer wall of the rotating roller (720) is in abutting connection with the outer wall of a rotating shaft (130) positioned on the rotating wheel (410);

when the rotating roller (720) drives the rotating shaft (130) to rotate in the conveying groove (430), the tail end of the inserting assembly (530) is in abutting connection with the outer wall of the rotating shaft (130), and the through groove on the rotating shaft (130) is in abutting connection with the tail end of the inserting assembly (530), so that the groove direction of the through groove of the rotating shaft (130) is consistent with the radial direction of the rotating wheel (410).

2. An automatic positioning rotating shaft penetrating device according to claim 1, wherein a transmission gear (420) is arranged on one side of the rotating wheel (410), a first driving motor (450) is arranged on the workbench (200), a driving gear (440) is arranged on an output shaft of the first driving motor (450), and the driving gear (440) is in meshed connection with the transmission gear (420).

3. An automatic positioning rotating shaft penetrating device according to claim 2, wherein a slot is formed in one side of the rotating wheel (410) away from the transmission gear (420), the slot extends to the outer wall of the rotating wheel (410), and the tail end of the plug-in component (530) faces the slot.