CN110666507A - Equipment for assembling insulating cap and screw - Google Patents

Abstract

The invention relates to equipment for assembling an insulating cap and a screw, which comprises a workbench, a screw vibrating disk, a screw direct vibrating device, an insulating cap vibrating disk, an insulating cap direct vibrating device, a central rotating disk, a pre-pressing mechanism and a final pressing mechanism, wherein the screw vibrating disk and the insulating cap vibrating disk are sequentially circulated on the central rotating disk, a feeding groove, a final pressing table board and a discharging groove for assembling the insulating cap and the screw through pre-pressing and final pressing respectively; the equipment for assembling the insulating cap and the screw, provided by the invention, has a compact structure and stable operation, and can meet the requirements of large-scale industrial production.

Description

Equipment for assembling insulating cap and screw

Technical Field

The invention relates to screw assembling equipment, in particular to equipment for assembling an insulating cap and a screw.

Background

In modern industrial design and production, automatic screw rigging equipment is a common fixed mode, and the wide application is in electronic product, automotive industry, household electrical appliances trade, mechanical industry, and some automatic screw rigging equipment can't satisfy the demand in the market, and in addition, current assembly mode is manual assembly, uses simple and easy compress tightly the frock and realizes, can't satisfy the use needs of industrial production, also does not have the relevant equipment that can directly use in the market moreover.

The invention relates to automatic assembly of screw assembly of an insulating cap, in particular to high-efficiency equipment for assembling the insulating cap and the screw.

Aiming at the problems, the invention mainly solves the technical problem of providing efficient equipment for assembling the insulating cap and the screw, which has compact structure and stable operation and can meet different processing beats and quality requirements.

Disclosure of Invention

In order to solve the technical problems, the invention aims to provide equipment for assembling insulating caps and screws, which has a compact structure and stable operation and can be used for large-scale industrial production.

The equipment for assembling the insulating cap and the screw comprises a workbench, a screw feeding mechanism, an insulating cap feeding mechanism, a pre-pressing mechanism and a final pressing mechanism, wherein the screw feeding mechanism and the insulating cap feeding mechanism respectively feed materials to the screw feeding mechanism and the insulating cap feeding mechanism, the screw feeding mechanism comprises a screw vibrating disc, a screw direct vibrating device and a screw discharging groove, the insulating cap feeding mechanism comprises an insulating cap vibrating disc, an insulating cap direct vibrating device and an insulating cap discharging groove, the pre-pressing mechanism comprises a central rotating disc, a central rotating disc driving motor angle divider assembly, a screw in-place sensor, an insulating cap in-place sensor, pre-pressing upper and lower cylinders and an auxiliary pushing cylinder, and the final pressing mechanism comprises a feeding groove, a feeding direct vibrating device, a material feeding sensor, a final pressing upper and lower cylinder group, The screw end-pressing material pushing cylinder group, the discharge chute, the end-pressing table board and the end-pressing material moving cylinder are arranged on the rotary table, the output end of the screw vibrating disc is connected with a central rotary disc through the screw discharging chute, the screw direct vibrating device is arranged at the lower end of the screw discharging chute, the output end of the insulating cap vibrating disc is connected with the central rotary disc through the insulating cap discharging chute, the insulating cap direct vibrating device is arranged at the lower end of the insulating cap discharging chute, the pre-pressing upper and lower cylinders are arranged at the joint of the insulating cap discharging chute and the central rotary disc, the pre-pressing upper and lower cylinders are provided with the screw end-position sensor respectively in communication connection with the central rotary disc driving motor angle divider assembly body and the insulating cap end-position sensor in communication connection with the pre-pressing upper and lower cylinders, the rotary disc of the central rotary disc is fixed on, the auxiliary pushing cylinder is further fixed on a fixing shaft in the center of the rotating disc, the feeding groove is formed in the pushing direction of the auxiliary pushing cylinder in communication connection with the material arrival inductor, the final pressing table board is connected with the central rotating disc through the feeding groove, the feeding direct vibration device is arranged at the lower end of the feeding groove, the material arrival inductor and the final pressing upper and lower cylinder groups in communication connection with the final pressing table board are arranged above the final pressing table board, the final pressing pushing cylinder group is arranged on one side, far away from the feeding groove, of the final pressing table board, the discharging groove located below the feeding groove is formed in the other side of the final pressing table board, and the final pressing upper and lower cylinder groups and the final pressing pushing cylinder group alternately complete final pressing through the final pressing material moving cylinder and push materials into the discharging groove.

Furthermore, the pressing direction of the final pressing upper cylinder group and the final pressing lower cylinder group, the material pushing direction of the final pressing material pushing cylinder group and the material moving direction of the final pressing material moving cylinder are perpendicular to each other.

Further, the final-pressing upper cylinder group and the final-pressing lower cylinder group comprise two upper cylinders and two lower cylinders which are arranged in parallel, and the final-pressing pushing cylinder group comprises two pushing cylinders which are arranged in parallel.

Furthermore, the screw vibration disc is fixed on the workbench through a screw vibration disc base plate, and the insulation cap vibration disc is fixed on the workbench through an insulation cap vibration disc base plate.

Furthermore, a fixing ring on the periphery of the central rotating disk is fixed on the workbench through a supporting rod, and the feeding groove is erected on the fixing ring and is in abutting connection with the central rotating disk.

Further, screw feed mechanism includes that screw feed storehouse, screw feed storehouse directly shake and screw feed storehouse magnetic inductor, insulating cap feed mechanism includes that insulating cap feed storehouse, insulating cap directly shake and insulating cap magnetic inductor, the below in screw feed storehouse is equipped with screw feed storehouse directly shakes, is located screw vibration dish top the exit in screw feed storehouse is equipped with takes the guide arm screw feed storehouse magnetic inductor, the below in insulating cap feed storehouse is equipped with insulating cap feed storehouse directly shakes, is located insulating cap vibration dish top the exit in insulating cap feed storehouse is equipped with takes the guide arm insulating cap feed storehouse magnetic inductor.

Further, the material-arriving inductor is a material-arriving magnetic photoelectric inductor.

Furthermore, the discharge chute is a discharge chute with a slope.

By the scheme, the invention at least has the following advantages:

the equipment for assembling the insulating cap and the screw solves the following problems existing in the existing manual assembly: the assembly efficiency is low, and the cost of operators is high. The advanced automatic assembly process replaces the complicated manual operation, and has the advantages of small volume, high assembly speed, low noise, high qualification rate and the like.

The foregoing description is only an overview of the technical solutions of the present invention, and in order to make the technical solutions of the present invention more clearly understood and to implement them in accordance with the contents of the description, the following detailed description is given with reference to the preferred embodiments of the present invention and the accompanying drawings.

Drawings

FIG. 1 is a schematic view showing the construction of an apparatus for assembling an insulative cap and a screw according to the present invention;

FIG. 2 is a schematic structural view of an apparatus for assembling an insulation cap and a screw according to the present invention;

fig. 3 is an enlarged schematic view of the final-pressure mechanism in fig. 2.

Detailed Description

The following detailed description of embodiments of the present invention is provided in connection with the accompanying drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

1-3, the equipment for assembling the insulation cap and the screw comprises a workbench 1, a screw feeding mechanism 2, an insulation cap feeding mechanism 3, a screw feeding mechanism 4, an insulation cap feeding mechanism 5, a prepressing mechanism 6 and a final pressing mechanism 7, wherein the screw feeding mechanism 2 and the insulation cap feeding mechanism 3 respectively feed the screw feeding mechanism 4 and the insulation cap feeding mechanism 5, the screw feeding mechanism 4 comprises a screw vibrating disk 41, a screw direct vibrating device 42 and a screw discharging groove 43, the insulation cap feeding mechanism 5 comprises an insulation cap vibrating disk 51, an insulation cap direct vibrating device 52 and an insulation cap discharging groove 53, the prepressing mechanism 6 comprises a central rotating disk 61, a central rotating disk driving motor angle divider assembly 62, a screw in-place sensor 63, an insulation cap in-place sensor 64, a prepressing upper and lower cylinder 65 and an auxiliary pushing cylinder 66, the final pressing mechanism 7 comprises a feeding groove 71, a screw in-place sensor 71, A feeding direct vibration device 72, a feeding sensor 73, a final pressing upper and lower cylinder group 74, a final pressing pushing cylinder group 75, a discharge chute 76, a final pressing table 77 and a final pressing material moving cylinder 78, wherein the output end of the screw vibration disk 41 is connected with the central rotating disk 61 through a screw discharge chute 43, the lower end of the screw discharge chute 43 is provided with the screw direct vibration device 42, the output end of the insulation cap vibration disk 51 is connected with the central rotating disk 61 through an insulation cap discharge chute 53, the lower end of the insulation cap discharge chute 53 is provided with the insulation cap direct vibration device 52, the joint of the insulation cap discharge chute 53 and the central rotating disk 61 is provided with a pre-pressing upper and lower cylinder 65, the pre-pressing upper and lower cylinder 65 is provided with a screw in-position sensor 63 respectively communicated with the central rotating disk driving motor angle divider 62 and an insulation cap in-position sensor 64 communicated with the pre-pressing upper and lower cylinder 65, the rotating disk 611 of the central rotating disk 61 is fixed on the, an auxiliary pushing cylinder 66 is further fixed on the fixed shaft 612 in the center of the rotating disc 611, a feeding groove 71 is formed in the pushing direction of the auxiliary pushing cylinder 66 in communication connection with the material arrival sensor 73, a final pressing table 77 is connected with the central rotating disc 61 through the feeding groove 71, a feeding straight vibration device 72 is arranged at the lower end of the feeding groove 71, the material arrival sensor 73 and a final pressing upper and lower cylinder group 74 in communication connection with the final pressing table 77 are arranged above the final pressing table 77, a final pressing material pushing cylinder group 75 is arranged on one side of the final pressing table 77 away from the feeding groove 71, a discharging groove 76 located below the feeding groove 71 is arranged on the other side of the final pressing table 77, and the final pressing upper and lower cylinder group 74 and the final pressing material pushing cylinder 75 alternately complete final pressing through the final pressing material moving cylinder 78 and push the cylinder groups into the discharging groove.

The equipment for assembling the insulating cap and the screw provided by the invention is used in the following process:

(1) the screw feeding mechanism 4 comprises a screw vibrating disk 41, a screw direct-vibrating device 42 and a screw discharging groove 43, the insulating cap and the screw adjust the discharging direction through the corresponding vibrating disks respectively, the vibrating frequency converter controls the matched discharging speed, the insulating cap and the screw are connected with the direct-vibrating device below the vibrating disk through signals and work in a matching mode, the insulating cap and the screw are enabled to feed materials to a central rotating disk 61 through the discharging groove, and the insulating cap and the screw are connected with other parts without signals.

(2) The prepressing mechanism 6 is characterized in that a central rotating disk 61 is positioned at a convergence part of outlet ends of a screw discharging groove 43 and an insulating cap discharging groove 53, a rotating disk 611 of the central rotating disk 61 is fixed on an angle divider of a central rotating disk driving motor angle divider assembly 62, positioning rotation is realized by a screw in-place sensor 63 which is arranged on a prepressing upper cylinder 65 and is respectively in communication connection with the central rotating disk driving motor angle divider assembly 62 and an insulating cap in-place sensor 64 which is in communication connection with the prepressing upper cylinder 65, a plurality of assembling holes 615 for screwing screws are uniformly formed in the outer circumferential wall of the central rotating disk 61, the screws are screwed into the assembling holes 615 on the central rotating disk 61, and prepressing of the insulating caps is waited. The screw is driven to the position of the pre-pressing mechanism through the central rotating disk 61, the screw in-place sensor 63 generates a signal, the insulating cap is sent to the central rotating disk 611 through the insulating cap feeding mechanism 5 and rotates to the pre-pressing in position, so that the insulating cap in-place sensor 64 generates a signal, the pre-pressing upper air cylinder 65 and the pre-pressing lower air cylinder 65 generate pressing-in action, the insulating cap is lightly pressed into the head assembly position of the screw, the pre-pressed insulating cap-covered screw is driven by the central rotating disk 61 and reaches the final pressing mechanism 7 under the pushing of the auxiliary pushing air cylinder 66, the auxiliary pushing air cylinder 66 is in communication connection with the material sensor 73 to generate linkage, and when no material to be finally pressed exists on the final pressing table-board 77, the pre-pressed insulating cap-covered screw on the central.

(3) The final pressing mechanism 7, the final pressing mechanism 7 includes a feeding groove 71, a feeding direct vibration device 72, a feeding inductor 73, a final pressing upper and lower cylinder groups 74, a final pressing pushing cylinder group 75, a discharging groove 76, a final pressing table 77 and a final pressing material moving cylinder 78, the final pressing upper and lower cylinder groups 74 complete the pressing action of the pre-pressed insulating cap screws entering the final pressing holes 771 formed in the final pressing table 77 through the feeding groove 71, the final pressing pushing cylinder group 75 ejects the finally pressed insulating cap screws into the discharging groove, and the final pressing upper and lower cylinder groups 74 and the final pressing pushing cylinder group 75 complete the alternate action through the final pressing material moving cylinder 78 located at one end of the final pressing table 77.

In the present embodiment, in order to alternately perform a series of actions of final pressing and pushing into the discharging chute 76, the pressing direction of the final pressing upper and lower cylinder groups 74, the pushing direction of the final pressing and pushing cylinder group 75 and the moving direction of the final pressing and moving cylinder 78 are perpendicular to each other.

In the present embodiment, in order to reduce the press-in waiting time and increase the cylinder life, the final press-fit upper and lower cylinder group 74 includes two upper and lower cylinders arranged in parallel, and the final press-push cylinder group 75 includes two push-push cylinders arranged in parallel.

In this embodiment, the screw vibration plate 41 is fixed to the table 1 via a screw vibration plate base plate 44, and the insulation cap vibration plate 51 is fixed to the table 1 via an insulation cap vibration plate base plate 54.

In this embodiment, in order to make the rotating disc 611 rotate relatively to perform feeding and discharging, the fixing ring 613 on the periphery of the central rotating disc 61 is fixed on the worktable 1 through the supporting rod 614, and the feeding chute 71 is erected on the fixing ring 613 and is connected with the central rotating disc 61 in an abutting manner.

In this embodiment, the screw feeding mechanism 2 includes a screw feeding bin 21, a screw feeding bin direct vibration 22 and a screw feeding bin magnetic sensor 23, the insulating cap feeding mechanism 3 includes an insulating cap feeding bin 31, an insulating cap direct vibration 32 and an insulating cap magnetic sensor 33, the screw feeding bin direct vibration 22 is provided below the screw feeding bin 21, the screw feeding bin magnetic sensor 23 with a guide rod is provided at an outlet of the screw feeding bin 21 above the screw vibration plate 41, the insulating cap feeding bin direct vibration 32 is provided below the insulating cap feeding bin 31, the insulating cap feeding bin magnetic sensor 33 with a guide rod is provided at an outlet of the insulating cap feeding bin 31 above the insulating cap vibration plate 51, the same number of insulating caps and screws are poured into the screw feeding bin 21 and the insulating cap feeding bin 31, and outlet baffles flowing to the screw vibration plate 41 and the insulating cap vibration plate 51 are opened, through the online operation of the magnetic photoelectric sensor with the guide rod between the feeding bin and the vibration disc, when the material level in the vibration disc is insufficient, the guide rod position becomes low and is disconnected with the magnetic photoelectric sensor, the feeding bin vibrator works at the moment, the prepared material is vibrated and flows into the vibration disc, otherwise, the magnetic photoelectric sensor is normally opened, and the feeding bin vibrator stops working.

In the present embodiment, the to-stock sensor 73 is an to-stock magnetic photoelectric sensor in order to give a signal to the final pressing upper and lower cylinder groups 74, the final pressing pusher cylinder group 75, and the final pressing take-up cylinder 78 to complete a series of final pressing actions.

In this embodiment, for convenient quick ejection of compact, prevent that the material from appearing piling up, blown down tank 76 is the blown down tank 76 of taking the slope.

The invention aims to provide efficient equipment for assembling an insulating cap and a screw, which solves the following problems existing in the existing manual assembly: the assembly efficiency is low, and the cost of operators is high. The invention replaces the fussy manual work with the advanced automatic assembly process, has the advantages of small volume, high assembly speed, low noise and high qualification rate, the material supply bin can be added with proper spare parts according to the production scheduling requirement, the material is automatically supplemented through the magnetic photoelectric sensor connected on the vibration disc, the manual guard is not needed, the optical fiber sensor or the magnetic sensor is installed, and the qualification rate of the product is ensured.

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, it should be noted that, for those skilled in the art, several modifications and variations can be made without departing from the technical principle of the present invention, and such modifications and variations should also be regarded as the protection scope of the present invention.

Claims (8)

1. An apparatus for assembling an insulative cap and a screw, comprising: including workstation (1), screw feed mechanism (2), insulating cap feed mechanism (3), screw feed mechanism (4), insulating cap feed mechanism (5), prepressing mechanism (6) and final pressure mechanism (7), screw feed mechanism (2) and insulating cap feed mechanism (3) respectively to screw feed mechanism (4) and insulating cap feed mechanism (5) feed, screw feed mechanism (4) are including screw vibration dish (41), screw directly shake device (42) and screw row material groove (43), insulating cap feed mechanism (5) are including insulating cap vibration dish (51), insulating cap directly shake device (52) and insulating cap row material groove (53), prepressing mechanism (6) are including central rotary disk (61), central rotary disk driving motor angle decollator (62), screw sensor (63), insulating cap sensor (64) that targets in place, the insulating cap assembly body (53), prepressing mechanism (6) are including central rotary disk (61), central rotary disk driving motor angle decollator (62), screw sensor (63), insulating cap sensor (64) that targets in place, Pre-pressing upper and lower cylinders (65) and an auxiliary pushing cylinder (66), wherein the final pressing mechanism (7) comprises a feeding groove (71), a feeding direct vibration device (72), a material sensor (73), a final pressing upper and lower cylinder group (74), a final pressing pushing cylinder group (75), a discharge groove (76), a final pressing table top (77) and a final pressing material moving cylinder (78), the output end of the screw vibration disc (41) is connected with a central rotating disc (61) through the screw discharging groove (43), the lower end of the screw discharging groove (43) is provided with the screw direct vibration device (42), the output end of the insulation cap vibration disc (51) is connected with the central rotating disc (61) through the insulation cap discharging groove (53), the lower end of the insulation cap discharging groove (53) is provided with the insulation cap direct vibration device (52), the joint of the insulation cap discharging groove (53) and the central rotating disc (61) is provided with the pre-pressing upper and lower cylinders (65), the pre-pressing upper and lower air cylinders (65) are provided with the screw in-place sensor (63) which is respectively in communication connection with the central rotating disc driving motor angle divider assembly body (62) and the insulating cap in-place sensor (64) which is in communication connection with the pre-pressing upper and lower air cylinders (65), the rotating disc (611) of the central rotating disc (61) is fixed on the central rotating disc driving motor angle divider assembly body (62), the auxiliary pushing air cylinder (66) is also fixed on the fixed shaft (612) in the center of the rotating disc (611), the feeding groove (71) is arranged in the pushing direction of the auxiliary pushing air cylinder (66) which is in communication connection with the material arrival sensor (73), the final pressure table board (77) is connected with the central rotating disc (61) through the feeding groove (71), and the feeding direct vibration device (72) is arranged at the lower end of the feeding groove (71), the material arrival sensor (73) and the final pressing upper and lower cylinder groups (74) in communication connection with the material arrival sensor are arranged above the final pressing table board (77), the final pressing pushing cylinder group (75) is arranged on one side, away from the feeding groove (71), of the final pressing table board (77), the discharging groove (76) located below the feeding groove (71) is arranged on the other side of the final pressing table board (77), and the final pressing upper and lower cylinder groups (74) and the final pressing pushing cylinder group (75) alternately complete final pressing and push materials into the discharging groove (76) through the final pressing material moving cylinder (78).

2. An apparatus for assembling an insulation cap and a screw according to claim 1, wherein: the pressing direction of the final pressing upper cylinder group (74), the pushing direction of the final pressing pushing cylinder group (75) and the material moving direction of the final pressing material moving cylinder (78) are perpendicular to each other.

3. An apparatus for assembling an insulation cap and a screw according to claim 1, wherein: the final pressing upper cylinder group (74) comprises two upper cylinders and two lower cylinders which are arranged in parallel, and the final pressing pushing cylinder group (75) comprises two pushing cylinders which are arranged in parallel.

4. An apparatus for assembling an insulation cap and a screw according to claim 1, wherein: the screw vibration disc (41) is fixed on the workbench (1) through a screw vibration disc base plate (44), and the insulation cap vibration disc (51) is fixed on the workbench (1) through an insulation cap vibration disc base plate (54).

5. An apparatus for assembling an insulation cap and a screw according to claim 1, wherein: a fixed ring (613) on the periphery of the central rotating disk (61) is fixed on the workbench (1) through a support rod (614), and the feed chute (71) is erected on the fixed ring (613) and is connected with the central rotating disk (61) in an abutting mode.

6. An apparatus for assembling an insulation cap and a screw according to claim 1, wherein: screw feed mechanism (2) directly shakes (22) and screw feed storehouse magnetic inductor (23) including screw feed storehouse (21), screw feed storehouse, insulator cap feed mechanism (3) directly shakes (32) and insulator cap magnetic inductor (33) including insulator cap feed storehouse (31), insulator cap, the below in screw feed storehouse (21) is equipped with screw feed storehouse directly shakes (22), is located screw vibration dish (41) top the exit in screw feed storehouse (21) is equipped with takes the guide arm screw feed storehouse magnetic inductor (23), the below in insulator cap feed storehouse (31) is equipped with insulator cap feed storehouse directly shakes (32), is located insulator cap vibration dish (51) top the exit in insulator cap feed storehouse (31) is equipped with and takes the guide arm insulator cap feed storehouse magnetic inductor (33).

7. An apparatus for assembling an insulation cap and a screw according to claim 1, wherein: the material arriving inductor (73) is a material arriving magnetic photoelectric inductor.

8. An apparatus for assembling an insulation cap and a screw according to claim 1, wherein: the discharge chute (76) is a discharge chute (76) with a slope.

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