CN213560929U - Riveting device for driving part - Google Patents

Abstract

The utility model relates to a driving medium riveting device, include: riveting the bottom plate; move the material device, move the material device and include: the graduator is fixed on the riveting bottom plate; the motor is connected with the graduator; the riveting disc is fixed on the graduator, a discharge chute, an annular riveting groove and a riveting hole arranged on the riveting groove are arranged on the riveting disc, and the discharge chute is arranged on one side of the riveting disc and communicated with the riveting groove; the rotating disc is fixed on an output shaft of the graduator and is provided with at least two assembling holes which are annularly arranged at equal intervals and correspond to the riveting holes, and the riveting holes are small and the assembling holes are small; the material pressing rod is positioned above the rotating disc and is coaxial with the riveting hole; the pressing device is fixed on the riveting bottom plate, and the pressing rod is arranged on the pressing device; the riveting rod is positioned below the riveting disc and is coaxial with the riveting hole; the riveting driving device is fixed on the riveting base plate and connected with the riveting rod. The device carries out continuous riveting through the carousel, has improved riveting efficiency.

Description

Riveting device for driving part

Technical Field

The utility model relates to a lock core production assembly, especially driving medium riveting device.

Background

The tool to lock stirs the tapered end through the driving medium on the lock core and stretches out and draws back, as shown in fig. 14 and fig. 15, the driving medium comprises transmission seat 102 and driving pin 101, and wherein transmission seat 102 is equipped with two, all rotates and installs on driving pin 101, and driving pin 101 one end is equipped with the fender ring, and the other end rotates on driving pin 101 with two transmission seat 102 restrictions through the riveting. At present, manual riveting is mostly adopted, namely, after a transmission part is assembled, the transmission part is put into a riveting machine to rivet and press a transmission pin 101, and the efficiency is low.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides a can carry out the riveting to the driving part automatically, save the step of packing into the riveting machine and taking out the riveting machine, carry out the assembly of driving part in the riveting, the riveting is efficient to simple structure, convenient to use's driving part riveting device, concrete technical scheme is:

transmission part riveting device includes: riveting the bottom plate; move the material device, move the material device and include: the graduator is fixed on the riveting bottom plate; the motor is connected with the graduator and is used for driving the graduator; the riveting plate is fixed on the indexer and is provided with a discharge chute, an annular riveting groove and riveting holes arranged on the riveting groove, and the discharge chute is arranged on one side of the riveting plate and communicated with the riveting groove; the rotating disc is fixed on the output shaft of the indexer and is positioned above the riveting disc, at least two assembling holes are formed in the rotating disc, the assembling holes are annularly arranged at equal intervals and correspond to the riveting holes, and the riveting holes are small and correspond to the assembling holes; the swaging rod is positioned above the rotating disc and is coaxial with the riveting hole; the pressing device is fixed on the riveting bottom plate, and the pressing rod is installed on the pressing device; the riveting pressure rod is positioned below the riveting pressure plate and is coaxial with the riveting hole; the riveting driving device is fixed on the riveting base plate and is connected with the riveting rod; the transmission part riveting device comprises a riveting state and a discharging state: when in the riveting state, the transmission part is movably inserted into the assembling hole, the motor drives the indexer to enable the assembling hole to be sequentially aligned with the riveting hole, the pressing device drives the pressing rod to tightly press the transmission part in the assembling hole, and the riveting driving device drives the riveting rod to rivet the transmission pin; during the ejection of compact state, the driving medium that accomplishes the riveting follows the rolling disc removes the blown down tank department, the driving medium drops.

Through adopting above-mentioned technical scheme, the graduator is the same at every turn pivoted angle, make at every turn after the rotation assembly hole and riveting hole coaxial line, then press the device to compress tightly the driving pin in the assembly hole through pressing the material pole, riveting drive arrangement carries out the riveting of driving pin through riveting the pole, in the riveting, put into the assembly hole with the driving medium that has assembled, the messenger carries out the riveting in proper order, and then realizes continuous riveting, and the driving medium that the riveting was accomplished drops automatically when following the rolling disc and removing to blown down tank department.

The driving pin is arranged while riveting, continuous riveting is realized, and the riveting efficiency is high.

Further, still press the seat including riveting, it is equipped with a plurality ofly to rivet to press the seat, it fixes to rivet to press the seat on the rolling disc, it is equipped with the pilot hole on the seat to rivet to press.

Further, press the material device to include: the material pressing seat is fixed on the riveting bottom plate; the material pressing cylinder is fixed on the material pressing seat and is horizontally arranged; the material pressing plate is slidably mounted on the material pressing seat and connected with the material pressing cylinder, a material loosening plane, a lifting inclined plane and a material pressing plane are sequentially arranged on the material pressing plate, and the height of the material loosening plane is smaller than that of the material pressing plane; the lifting seat is fixed on the material pressing seat, and the material pressing plate is movably inserted on the lifting seat; the lifting pressing block is movably inserted on the lifting seat; the lifting rod is positioned below the lifting pressing block, and a material pressing rod is arranged on the lifting rod; the material pressing guide seat is fixed on the material pressing seat, and the lifting rod is movably inserted on the material pressing guide seat; the material pressing nut is fixed at the top of the lifting rod; the return spring is movably inserted on the lifting rod and is positioned between the material pressing nut and the material pressing guide seat.

The material pressing device is characterized by further comprising a material pressing sliding seat, wherein the material pressing sliding seat is fixed on the material pressing seat, a dovetail groove is formed in the material pressing sliding seat, dovetail slide blocks are arranged on two sides of the material pressing plate, and the material pressing plate is movably inserted into the dovetail groove.

Furthermore, the lifting pressing block further comprises a pressing roller, and the pressing roller is rotatably arranged at the top of the lifting pressing block and pressed on the pressing plate.

Furthermore, the material pressing device further comprises a material pressing shaft sleeve, the material pressing shaft sleeve is fixed on the material pressing guide seat, and the lifting rod is inserted into the material pressing shaft sleeve in a sliding mode.

Furthermore, the lifting rod is connected with the material pressing rod through threads.

Further, the rivet pressing drive device includes: the driving seat is fixed at the bottom of the riveting base plate; the riveting cylinder is fixed on the driving seat; the riveting guide seat is fixed at the top of the riveting base plate; the connecting rod is movably inserted on the riveting guide seat, one end of the connecting rod is connected with the riveting cylinder, and the other end of the connecting rod is provided with a riveting rod.

Furthermore, the riveting device further comprises a limiting ring, wherein the limiting ring is fixed on the connecting rod and is positioned below the riveting guide seat.

Further, still include discharging device, discharging device includes: the discharging cylinder is fixed on the riveting bottom plate; the discharging rod is arranged on a piston rod of the discharging cylinder; and the discharge disc is arranged on the riveting base plate and is positioned below the discharge chute.

Compared with the prior art the utility model discloses following beneficial effect has:

the utility model provides a driving medium riveting device carries out continuous riveting through the carousel, has improved riveting efficiency, presses the material simultaneously through the higher authority, and the carousel is avoided receiving the axial force to the mode of riveting below, makes the operation stable.

Drawings

FIG. 1 is a schematic structural view of a riveting device for a transmission member;

FIG. 2 is a front view of the transmission riveting device;

FIG. 3 is a top view of the material transfer device;

FIG. 4 is an exploded view of the transfer device;

FIG. 5 is a cross-sectional view of the staking station;

FIG. 6 is a schematic structural view of a pressing device;

fig. 7 is a sectional view of the swaging apparatus;

FIG. 8 is a schematic view of the construction of the lifting block;

FIG. 9 is a schematic view of the structure of the nip plate;

FIG. 10 is a schematic view of a swage slide mount;

fig. 11 is a schematic structural view of a riveting driving device;

fig. 12 is a sectional view of the rivet pressing drive apparatus;

FIG. 13 is a schematic view of the discharge unit;

FIG. 14 is a schematic view of the construction of the transmission member;

FIG. 15 is a cross-sectional view of the transmission member.

Detailed Description

The present invention will now be further described with reference to the accompanying drawings.

Example one

As shown in fig. 1 to 13, the driving member riveting device includes: riveting the bottom plate 66; move the material device, move the material device and include: the indexer 64 is fixed on the riveting base plate 66; the motor 65, the motor 65 is connected with the indexer 64, used for driving the indexer 64; the riveting disc 61, the riveting disc 61 is fixed on the indexer 64, the riveting disc 61 is provided with a discharge chute 613, an annular riveting groove 612 and a riveting hole 611 arranged on the riveting groove 612, the discharge chute 613 is arranged at one side of the riveting disc 61 and is communicated with the riveting groove 612; the rotating disc 62 is fixed on the output shaft of the indexer 64 and is positioned above the riveting disc 61, at least two assembly holes 631 are formed in the rotating disc 62, the assembly holes 631 are annularly arranged at equal intervals and correspond to the riveting holes 611, and the riveting holes 611 are smaller than the assembly holes 631; the swaging rod 71, the swaging rod 71 is positioned above the rotating disc 62, and is coaxial with the riveting hole 611; the pressing device is fixed on the riveting bottom plate 66, and the pressing rod 71 is arranged on the pressing device; the riveting rod 89 is positioned below the riveting disc 61 and is coaxial with the riveting hole 611; the riveting driving device is fixed on the riveting base plate 66 and is connected with the riveting rod 89; the transmission part riveting device comprises a riveting state and a discharging state: when in a riveting state, the transmission member is movably inserted into the assembly hole 631, the motor 65 drives the indexer 64 to enable the assembly hole 631 to be sequentially aligned with the riveting hole 611, the pressing device drives the pressing rod 71 to press the transmission member into the assembly hole 631, and the riveting cylinder 92 drives the riveting rod 89 to rivet the transmission pin 101; when the material is discharged, the transmission member that completes riveting moves to the discharge chute 613 along with the rotating disc 62, and the transmission member drops.

Riveting hole 611 is less than pilot hole 631 and makes the driving medium be located pilot hole 631 and not drop, and riveting groove 612 is used for driving pin 101 to follow pilot hole 631 and removes, avoids driving pin 101 and riveting dish 61 friction, avoids driving pin 101 to block on riveting dish 61 simultaneously.

The riveting disk 61 does not rotate, while the rotating disk 62 rotates under the action of the indexer 64.

The angle that the graduator 64 rotated at every turn is the same, make at every turn after-assembly hole 631 and riveting hole 611 coaxial line, then press the device and compress tightly driving pin 101 in assembly hole 631 through swage 71, riveting drive arrangement carries out the riveting of driving pin 101 through riveting pole 89, in the riveting, put into assembly hole 631 with the driving medium that has assembled, the messenger carries out the riveting in proper order, and then realize continuous riveting, and the driving medium that the riveting was accomplished drops automatically when following rotating disc 62 and moving to blown down tank 613 department.

The driving pin 101 is installed while riveting, continuous riveting is realized, and riveting efficiency is high.

Still including riveting seat 63, riveting seat 63 is equipped with a plurality ofly, and riveting seat 63 is fixed on rolling disc 62, is equipped with pilot hole 631 on riveting seat 63.

The staking boss 63 serves to reduce the thickness of the rotating disc 62.

The clinch base 63 is fitted into the positioning hole 621 formed in the rotary plate 62. The positioning holes 621 are arranged in an annular array.

The press device includes: the material pressing seat 83 is fixed on the riveting bottom plate 66; the material pressing cylinder 84 is fixed on the material pressing seat 83 and is horizontally arranged; the material pressing plate 81 is slidably mounted on the material pressing seat 83 and connected with the material pressing cylinder 84, a material loosening plane 811, a lifting inclined plane 812 and a material pressing plane 813 are sequentially arranged on the material pressing plate 81, and the height of the material loosening plane 811 is smaller than that of the material pressing plane 813; the lifting seat 77 is fixed on the material pressing seat 83, and the material pressing plate 81 is movably inserted on the lifting seat 77; the lifting pressing block 78, the lifting pressing block 78 is movably inserted on the lifting seat 77; the lifting rod 75, the lifting rod 75 is positioned below the lifting pressing block 78; the material pressing guide seat 72 is fixed on the material pressing seat 83, and the lifting rod 75 is movably inserted on the material pressing guide seat 72; the pressing nut 76, the pressing nut 76 is fixed on the top of the lifting rod 75; the return spring 74 is movably inserted on the lifting rod 75 and is positioned between the swaging nut 76 and the swaging guide seat 72; the pressing rod 71 and the pressing rod 71 are fixed on the lifting rod 75.

The top of the lifting seat 77 is provided with a material pressing groove, the bottom of the material pressing groove is provided with a lifting hole, and the lifting pressing block 78 is movably inserted in the lifting hole.

The pressing of the transmission pin 101 is realized through the pressing plate 81, and compared with a conventional pneumatic or hydraulic mode, the pressing speed is high, the pressure is low, no pressure rebounds, and the pressing is stable and reliable.

The material pressing device further comprises a material pressing sliding seat 82, the material pressing sliding seat 82 is fixed on the material pressing seat 83, a dovetail groove 821 is formed in the material pressing sliding seat 82, dovetail sliding blocks 814 are arranged on two sides of the material pressing plate 81, and the material pressing plate 81 is movably inserted into the dovetail groove 821.

The elevating base 77 is fixed to the swaging guide 72.

In at least one embodiment, the pressing plate 81 can be slidably mounted on the pressing base 83 by a linear guide pair.

In at least one embodiment, the pressing device further comprises a pressing roller 79, and the pressing roller 79 is rotatably installed on the top of the lifting pressing block 78 and presses on the pressing plate 81.

The material pressing roller 79 can reduce the friction force between the material pressing plate 81 and the lifting pressing block 78, so that the material pressing plate 81 can move smoothly, and the phenomenon of jamming is avoided. The pressing roller 79 may be directly provided with a bearing.

The material pressing device further comprises a material pressing shaft sleeve 73, the material pressing shaft sleeve 73 is fixed on the material pressing guide seat 72, and the lifting rod 75 is inserted into the material pressing shaft sleeve 73 in a sliding mode.

The swaging shaft sleeve 73 can reduce the friction between the lifting rod 75 and the swaging guide seat 72, and the service life is prolonged.

The lifting rod 75 is connected with the material pressing rod 71 through threads. The threaded connection allows the position of the swage rod 71 to be freely adjusted.

During material pressing, the material pressing cylinder 84 drives the material pressing plate 81 to extend out, the lifting pressing block 78 slides to the pressure plane from the material loosening plane 811 through the lifting inclined plane 812, the lifting pressing block 78 drives the lifting rod 75 and the material pressing rod 71 to descend to the material pressing position, the transmission pin 101 is pressed in the assembly fixture, riveting is conducted from the bottom of the transmission pin 101, and the material pressing rod 71 ensures that the position of the transmission pin 101 is not changed. When the material is loosened, the material pressing cylinder 84 drives the material pressing plate 81 to retract, the return spring 74 jacks the lifting rod 75 upwards, the lifting press block 78 slides to the position of the material loosening plane 811 again, and the material pressing rod 71 rises to the upper side of the assembling fixture, so that the next riveting is conveniently carried out.

The riveting drive device includes: the driving seat 921, wherein the driving seat 921 is fixed at the bottom of the riveting base plate 66; the riveting cylinder 92, the riveting cylinder 92 is fixed on the driving seat 921; the riveting guide seat 86 is fixed at the top of the riveting base plate 66; the connecting rod 88, the connecting rod 88 activity is inserted on the riveting guide holder 86, and the one end and the riveting jar 92 of connecting rod 88 are connected, and riveting pole 89 is equipped with to the other end.

The riveting cylinder 92 is a pneumatic or hydraulic cylinder.

The riveting device further comprises a limiting ring 85, wherein the limiting ring 85 is fixed on the connecting rod 88 and is positioned below the riveting guide seat 86.

The limiting ring 85 limits the riveting depth, and the phenomenon that the transmission pin 101 is blocked to block the transmission seat 102 due to the overlarge riveting depth is avoided. The position of the limiting ring 85 is convenient to adjust, the riveting depth is prevented from being adjusted by adjusting the height of the driving seat 921, and the adjustment is convenient and simple.

Example two

On the basis of the first embodiment, as shown in fig. 1, 2 and 13, the device further comprises a discharging device, wherein the discharging device comprises: the discharging air cylinder 96, the discharging air cylinder 96 is fixed on the riveting base plate 66; the discharging rod 97, the discharging rod 97 is installed on the piston rod of the discharging cylinder 96; and a discharging disc 98, wherein the discharging disc 98 is installed on the riveting base plate 66 and is positioned below the discharging groove 613.

The discharging cylinder 96 can be mounted on the pressing base 83 through the discharging plate 95, so that the structure is simple.

Discharging device guarantees that the driving medium of pilot hole 631 can be ejecting completely, avoids the driving medium card to influence follow-up production in pilot hole 631.

The technical principle of the present invention is described above with reference to specific embodiments. The description is made for the purpose of illustrating the principles of the invention and should not be construed in any way as limiting the scope of the invention. Based on the explanations herein, those skilled in the art will be able to conceive of other embodiments of the present invention without any inventive effort, which would fall within the scope of the claims of the present invention.

Claims (10)

1. Transmission member riveting device, its characterized in that includes:

riveting the bottom plate;

move the material device, move the material device and include:

the graduator is fixed on the riveting bottom plate;

the motor is connected with the graduator and is used for driving the graduator;

the riveting plate is fixed on the indexer and is provided with a discharge chute, an annular riveting groove and riveting holes arranged on the riveting groove, and the discharge chute is arranged on one side of the riveting plate and communicated with the riveting groove; and

the rotating disc is fixed on an output shaft of the indexer and is positioned above the riveting disc, at least two assembling holes are formed in the rotating disc, the assembling holes are annularly arranged at equal intervals and correspond to the riveting holes, and the riveting holes are small and correspond to the assembling holes;

the swaging rod is positioned above the rotating disc and is coaxial with the riveting hole;

the pressing device is fixed on the riveting bottom plate, and the pressing rod is installed on the pressing device;

the riveting pressure rod is positioned below the riveting pressure plate and is coaxial with the riveting hole;

the riveting driving device is fixed on the riveting base plate and is connected with the riveting rod;

the transmission part riveting device comprises a riveting state and a discharging state:

when in the riveting state, the transmission part is movably inserted into the assembling hole, the motor drives the indexer to enable the assembling hole to be sequentially aligned with the riveting hole, the pressing device drives the pressing rod to tightly press the transmission part in the assembling hole, and the riveting driving device drives the riveting rod to rivet the transmission pin;

during the ejection of compact state, the driving medium that accomplishes the riveting follows the rolling disc removes the blown down tank department, the driving medium drops.

2. Transmission riveting device according to claim 1,

still press the seat including riveting, it is equipped with a plurality ofly to rivet to press the seat, it fixes to rivet to press the seat on the rolling disc, it is equipped with the pilot hole on the seat to rivet to press.

3. Transmission riveting device according to claim 1,

the press device comprises:

the material pressing seat is fixed on the riveting bottom plate;

the material pressing cylinder is fixed on the material pressing seat and is horizontally arranged;

the material pressing plate is slidably mounted on the material pressing seat and connected with the material pressing cylinder, a material loosening plane, a lifting inclined plane and a material pressing plane are sequentially arranged on the material pressing plate, and the height of the material loosening plane is smaller than that of the material pressing plane;

the lifting seat is fixed on the material pressing seat, and the material pressing plate is movably inserted on the lifting seat;

the lifting pressing block is movably inserted on the lifting seat;

the lifting rod is positioned below the lifting pressing block, and a material pressing rod is arranged on the lifting rod;

the material pressing guide seat is fixed on the material pressing seat, and the lifting rod is movably inserted on the material pressing guide seat;

the material pressing nut is fixed at the top of the lifting rod;

the return spring is movably inserted on the lifting rod and is positioned between the material pressing nut and the material pressing guide seat.

4. Transmission riveting device according to claim 3,

the material pressing device is characterized by further comprising a material pressing sliding seat, the material pressing sliding seat is fixed on the material pressing seat, a dovetail groove is formed in the material pressing sliding seat, dovetail slide blocks are arranged on two sides of the material pressing plate, and the material pressing plate is movably inserted into the dovetail groove.

5. Transmission riveting device according to claim 3,

the material pressing roller is rotatably installed at the top of the lifting pressing block and pressed on the material pressing plate.

6. Transmission riveting device according to claim 3,

the material pressing guide seat is fixed on the material pressing guide seat, and the lifting rod is inserted into the material pressing shaft sleeve in a sliding mode.

7. Transmission riveting device according to claim 3,

the lifting rod is connected with the material pressing rod through threads.

8. Transmission riveting device according to claim 1,

the riveting drive device includes:

the driving seat is fixed at the bottom of the riveting base plate;

the riveting cylinder is fixed on the driving seat;

the riveting guide seat is fixed at the top of the riveting base plate;

the connecting rod is movably inserted on the riveting guide seat, one end of the connecting rod is connected with the riveting cylinder, and the other end of the connecting rod is provided with a riveting rod.

9. Transmission riveting apparatus according to claim 8,

the riveting guide seat is characterized by further comprising a limiting ring, wherein the limiting ring is fixed on the connecting rod and located below the riveting guide seat.

10. Transmission riveting device according to claim 1,

still include discharging device, discharging device includes:

the discharging cylinder is fixed on the riveting bottom plate;

the discharging rod is arranged on a piston rod of the discharging cylinder;

and the discharge disc is arranged on the riveting base plate and is positioned below the discharge chute.

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