CN215033011U - Electric riveting device and electric riveting machine - Google Patents

Abstract

The utility model relates to an electronic riveting device, include the frame and set up in the dead lever of frame, activity ejector pin and climbing mechanism, the dead lever is located directly over the activity ejector pin, climbing mechanism drive activity ejector pin goes up and down, climbing mechanism includes the motor, drive wheel and jacking seat, the drive wheel is rotatory and the eccentric shaft is provided with to the eccentricity under motor drive, eccentric shaft periphery cover is equipped with the eccentric wheel, the jacking seat is along vertical sliding in the frame and being provided with the linkage chamber that holds the eccentric block, the height in linkage chamber is unanimous with the eccentric wheel, the width in linkage chamber is greater than the eccentric wheel, form the activity space that supplies the relative linkage chamber lateral shifting of eccentric wheel, activity ejector pin is installed in the jacking seat and goes up and down with the jacking seat is synchronous. With the adoption of the scheme, the utility model provides an guarantee finished product quality's electronic riveting device.

Description

Electric riveting device and electric riveting machine

Technical Field

The utility model relates to a riveting equipment, concretely relates to electronic riveting device still relates to an electronic riveting machine.

Background

The riveting machine is a device for automatically riveting two metal parts, and generally comprises a rack, a transmission device arranged on the rack, a first part feeding device, a second part feeding device and a riveting device, wherein the transmission device transmits the first part to the second part feeding device after receiving the first part, the second part feeding device places the second part on the first part, the transmission device transmits the first part and the second part to the riveting device for riveting, and the transmission device finally transmits a riveted finished product to a finished product collection part.

The riveting device comprises a fixed rod, a movable ejector rod and a jacking mechanism, the fixed rod is located above the movable ejector rod, the movable ejector rod is located below the movable ejector rod, the jacking mechanism drives the movable ejector rod to ascend and approach to the fixed rod, and the riveting process is completed by extruding the first part and the second part. The jacking mechanism generally selects an oil cylinder or an air cylinder, and in the process that the movable ejector rod is driven by the oil cylinder or the air cylinder to rise, the heights of the movable ejector rod are different after the movable ejector rod rises in place every time, so that the deformation degree of each group of parts II and the deformation degree of the parts I during riveting are different, and the quality of finished products is different.

Disclosure of Invention

Not enough to prior art exists, the utility model aims to provide an guarantee finished product quality's electronic riveting device.

In order to achieve the above purpose, the utility model provides a following technical scheme: including the frame and set up in dead lever, activity ejector pin and the climbing mechanism of frame, the dead lever be located directly over the activity ejector pin, climbing mechanism drive activity ejector pin go up and down, its characterized in that: the jacking mechanism comprises a motor, a driving wheel and a jacking seat, the driving wheel rotates under the driving of the motor and is eccentrically provided with an eccentric shaft, an eccentric wheel is sleeved on the periphery of the eccentric shaft, the jacking seat vertically slides on the rack and is provided with a linkage cavity for accommodating an eccentric block, the height of the linkage cavity is consistent with that of the eccentric wheel, the width of the linkage cavity is larger than that of the eccentric wheel, a movable space for the eccentric wheel to transversely move relative to the linkage cavity is formed, and the movable ejector rod is installed on the jacking seat and synchronously ascends and descends with the jacking seat.

Through adopting above-mentioned technical scheme, the eccentric wheel by motor drive can drive the jacking seat and go up and down, because the highest height that the eccentric wheel rises at every turn is same height, so the jacking seat of installation activity ejector pin keeps unanimous at every turn the highest height that rises to make the pressure that part one and part two received and deformation unanimously, thereby guarantee the finished product quality after the riveting.

The utility model discloses further set up to: the eccentric wheel is in running fit with the eccentric shaft, and the upper side and the lower side of the eccentric wheel are respectively provided with a linkage plane which is attached to the wall of the linkage cavity.

By adopting the technical scheme, the linkage plane is additionally arranged, and the linkage stability of the eccentric wheel and the linkage cavity is improved.

The utility model discloses further set up to: the frame along vertical lift spout that is provided with, activity ejector pin below be provided with and slide in the last linkage piece of lift spout, jacking seat top be provided with and slide in the lower linkage piece of lift spout, last linkage piece below and lower linkage piece top be provided with dovetail and the forked tail piece that constitutes both synchronous motion respectively, the notch of lift spout be provided with the limiting plate of spacing in the lift spout of last linkage piece and lower linkage piece.

By adopting the technical scheme, the lifting chute enables the lifting of the movable ejector rod to be more stable and accurate, the upper linkage block is matched with the lower linkage block to form the lifting linkage matching of the movable ejector rod and the jacking seat, and meanwhile, the limiting plate is additionally arranged to ensure that the linkage matching of the upper linkage block and the lower linkage block can be stably kept.

The utility model discloses further set up to: jacking seat and lower linkage piece between be provided with the regulating block, regulating block top along vertically being provided with the T-slot, the below is provided with down the T-slot along transversely, lower linkage piece be provided with along the last T-shaped piece of last T-slot removal, jacking seat be provided with extend to T-slot inslot down and the tip be the regulation post of T-shaped piece down.

By adopting the technical scheme, the two groups of T-shaped grooves are matched with the T-shaped blocks to form longitudinal and transverse relative position adjustment of the lower linkage block of the jacking seat relative to the jacking seat, so that the matching of the lower linkage block and the upper linkage block is more accurate and stable.

The utility model discloses further set up to: guide holes are respectively vertically formed in two sides of the jacking seat, and guide rods respectively penetrating through the guide holes are fixedly arranged on the rack.

Through adopting above-mentioned technical scheme, the guide bar on the frame passes the guiding hole of jacking seat, improves the lift stability of jacking seat.

The utility model also provides an adopt electronic riveting machine of electronic riveting device to a following technical scheme is provided: the frame is provided with a transmission device, a first feeding device and a second feeding device, the transmission device transmits the first part to the second feeding device after receiving the first part, the second feeding device places the second part on the first part, the transmission device transmits the first part and the second part to the riveting device for riveting, and the transmission device finally transmits a riveted finished product to a finished product collection place.

Through adopting above-mentioned technical scheme, transmission device, first loading attachment and second loading attachment cooperate and realize the automatic riveting of part one and part two to ejection of compact one by one after the riveting improves machining efficiency.

The utility model discloses further set up to: the conveying device comprises a shifting track, a plurality of shifting claws and a shifting mechanism, wherein the shifting track is provided with a plurality of stopping positions, namely a part I feeding position corresponding to the first feeding device, a part II feeding position corresponding to the second feeding device, a riveting position corresponding to the riveting device and a discharging position, the shifting mechanism drives the shifting claws to move back and forth between the adjacent stopping positions, and the shifting claws are obliquely arranged and gradually reduce along with the height of the shifting track.

Through adopting above-mentioned technical scheme, a plurality of shifting claws of single aversion mechanism drive synchronous movement realizes the transfer of part between each stop position, and the action is more synchronous, and the structure is more retrencied, and in addition, because part two generally is miniature thin slice component, the aversion of traditional flat putting is grabbed and is difficult to stable propelling movement part, so the installation angle to the slope form of adjusting the shifting claw to improve the area of contact with the part side, improve propelling movement stability.

The utility model discloses further set up to: the shifting mechanism comprises a base, a base track, a base cylinder and a claw body cylinder, the base track and the shifting track are arranged in parallel, the base cylinder drives the base to slide on the base track in a reciprocating mode, the upper end face of the base serves as an installation face for installing the claw body cylinder in an inclined mode, and the claw body cylinder corresponds to the shifting claws one by one and drives the shifting claws to be close to or far away from the base track.

By adopting the technical scheme, the base uniformly drives each group of the claw body cylinder and the displacement claw to move, so that the actions are more synchronous, and the structure is more simplified.

The utility model discloses further set up to: first loading attachment include first material loading track, first vibration dish, first shake always, side kicking block and side push cylinder, first material loading track and aversion track parallel arrangement, one end is as first feed end and is connected with first vibration dish, the other end as first discharge end and with the orbital part material loading level of aversion coincide mutually, first shake always be located first material loading track below and drive part one and remove to first discharge end from first feed end, side kicking block under the drive of side push cylinder, will be located the first material loading track part one and push to the part material loading level.

Through adopting above-mentioned technical scheme, the part that first vibration dish was arranged moves along first material loading track one by one, and until reaching first discharge end, promote to shift the track by the side ejector pad and realize automatic material loading function one by one, make shift claw and part one can accurate one-to-one.

The utility model discloses further set up to: second loading attachment include that second material loading track includes that second material loading track, second vibration dish, second directly shake, adsorb the piece and adsorb displacement mechanism, second material loading track one end be as the second feed end and be connected with second vibration dish, the other end as the second discharge end and extend to the position that is close with part two material loading levels, the drive of adsorption displacement mechanism adsorb the piece, shift to the part two that is located the second discharge end to be located part two on the part one of material loading level.

Through adopting above-mentioned technical scheme, the part two that the second vibration dish was arranged moves along second material loading track one by one, until reaching the second discharge end, shifts to the aversion track by the absorption piece and realizes automatic material loading function one by one, can also accomplish the automation of part two and part one simultaneously and pile up.

The utility model discloses further set up to: the frame be located the ejection of compact position be provided with the ejection of compact ramp that links up with ejection of compact position and be located the detection sensor of ejection of compact position top, the frame be provided with the side of drive ejection of compact ramp and move the cylinder, make ejection of compact ramp have with the relative certified products transmission position of aversion track and with the wrong unqualified products transmission position of aversion track.

Through adopting above-mentioned technical scheme, according to the testing result of detection sensor, ejection of compact ramp guides qualified dish to finished product collection department, and the nonconforming quality then can fall in nonconforming quality collection department under the ejection of compact ramp, accomplishes the letter sorting in the time of the ejection of compact.

Drawings

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

fig. 2 is a perspective view of a riveting device according to an embodiment of the present invention;

FIG. 3 is a perspective view of the motor and the eccentric wheel in accordance with an embodiment of the present invention;

FIG. 4 is a perspective view of the eccentric wheel and the lifting seat in accordance with an embodiment of the present invention;

fig. 5 is a perspective view of a transfer device in an embodiment of the invention;

fig. 6 is a perspective view of a first feeding device in an embodiment of the present invention;

fig. 7 is a perspective view of a second feeding device in the embodiment of the present invention;

fig. 8 is a perspective view of a discharge ramp in an embodiment of the invention.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

As shown in fig. 1, the utility model discloses an electric riveting machine, including frame 1 and set up in transmission device 2 of frame 1, first loading attachment 3, second loading attachment 4 and riveting device 5, transmission device 2 receives and transmits part one to second loading attachment 4 after the part one, and second loading attachment 4 places part two on part one, and transmission device 2 is transmitting part one and part two to riveting device 5 and carries out the riveting, and transmission device 2 transmits the finished product after the riveting to the finished product department of collecting at last. The transmission device 2, the first feeding device 3, the second feeding device 4 and the riveting device 5 are matched to realize automatic riveting of the first part and the second part, and discharge is performed one by one after riveting, so that the processing efficiency is improved.

As shown in fig. 2 to 4, the riveting device 5 includes a fixed rod 51, a movable ejector rod 52 and a jacking mechanism, the fixed rod 51 is located right above the movable ejector rod 52, the jacking mechanism drives the movable ejector rod 52 to ascend and descend, the jacking mechanism includes a motor 53, a driving wheel 56 and a jacking seat 55, the driving wheel 56 is driven by the motor 53 to rotate and is eccentrically provided with an eccentric shaft 561, an eccentric wheel 54 is sleeved on the outer periphery of the eccentric shaft 561, the jacking seat 55 vertically slides on the frame 1 and is provided with a linkage cavity 551 for accommodating the eccentric wheel 54, the height of the linkage cavity 551 is the same as that of the eccentric wheel 54, the width of the linkage cavity 551 is larger than that of the eccentric wheel 54, a movable space 552 for allowing the eccentric wheel 54 to transversely move relative to the linkage cavity 551 is formed, the movable ejector rod 52 is mounted on the jacking seat 55 and ascends and descends synchronously with the jacking seat 55, and the motor 53 generally cooperates with the speed reducer 531 for increasing torque.

The eccentric wheel 54 is in rotating fit with the eccentric shaft 561, the upper side and the lower side of the eccentric wheel 54 are respectively provided with a linkage plane 541 which is attached to the cavity wall of the linkage cavity 551, and the linkage plane 541 is additionally arranged, so that the linkage stability of the eccentric wheel 54 and the linkage cavity 551 is improved.

The frame 1 is vertically provided with a lifting chute 11, an upper linkage block 521 sliding on the lifting chute 11 is arranged below the movable ejector rod 52, a lower linkage block 551 sliding on the lifting chute 11 is arranged above the jacking seat 55, a dovetail groove 522 and a dovetail block 552 forming synchronous movement of the upper linkage block 521 and the lower linkage block 551 are respectively arranged below the upper linkage block 521 and above the lower linkage block 551, a limiting plate 111 limiting the upper linkage block 521 and the lower linkage block 551 in the lifting chute 11 is arranged on a notch of the lifting chute 11, the lifting of the movable ejector rod 52 is more stable and accurate due to the lifting chute 11, the upper linkage block 521 cooperates with the lower linkage block 551 to form lifting linkage cooperation of the movable ejector rod 52 and the jacking seat 55, and meanwhile, the limiting plate 111 is additionally arranged to ensure that the linkage cooperation of the upper linkage block 521 and the lower linkage block 551 can be stably maintained.

The adjusting block 554 is arranged between the jacking seat 55 and the lower linkage block 551, an upper T-shaped groove 5541 is longitudinally arranged above the adjusting block 554, a lower T-shaped groove 5542 is transversely arranged below the adjusting block 554, the lower linkage block 551 is provided with an upper T-shaped block 5511 which moves along the upper T-shaped groove 5541, the jacking seat 55 is provided with an adjusting column 555 which extends into the lower T-shaped groove 5542 and the end part of which is the lower T-shaped block 5551, the two groups of T-shaped grooves are matched with the T-shaped blocks to form longitudinal and transverse relative position adjustment of the lower linkage block of the jacking seat relative to the jacking seat, and the matching of the lower linkage block and the upper linkage block is more accurate and stable.

Guide holes 553 are respectively vertically formed in two sides of the jacking seat 55, guide rods 12 respectively penetrating through the guide holes 553 are fixedly arranged on the rack 1, the guide rods 12 on the rack 1 penetrate through the guide holes 553 of the jacking seat 55, and therefore the lifting stability of the jacking seat 55 is improved. A

As shown in fig. 5, the conveying device 2 includes a shifting rail 21, a plurality of shifting claws 22, and a shifting mechanism, wherein the shifting rail 21 has a plurality of stop positions, which are a first part loading position a corresponding to the first loading device 3, a second part loading position b corresponding to the second loading device 4, a riveting position c corresponding to the riveting device 5, and a discharging position d, the shifting mechanism drives the shifting claws 22 to reciprocate between adjacent stop positions, the shifting claws are obliquely arranged and gradually decrease in height as approaching the shifting rail 21, the single shifting mechanism drives the plurality of shifting claws 22 to synchronously move, so as to realize the transfer of parts between the stop positions, the movement is more synchronous, the structure is more simplified, and in addition, since the second part is generally a small sheet member, the conventional horizontally arranged shifting claws are difficult to stably push the parts, the installation angle of the shifting claws 22 is adjusted to be inclined, thereby improve the area of contact with the part side, improve propelling movement stability.

The shifting mechanism comprises a base 23, a base track 13, a base cylinder 131 and claw cylinders 231, wherein the base track 13 and the shifting track 21 are arranged in parallel, the base cylinder 131 drives the base 23 to slide on the base track 13 in a reciprocating mode, the upper end face of the base 23 serves as an installation face 232 of the inclined claw cylinder 231, the claw cylinders 231 correspond to the shifting claws 22 one by one and drive the shifting claws 22 to be close to or far from the base track 13, the base 23 drives the claw cylinders 231 and the shifting claws 22 to move in a unified mode, the action is synchronous, the structure is simplified, and the base track 13 can be fixed in an inclined mode to achieve inclined installation of the shifting claws 22.

As shown in fig. 6, the first feeding device 3 includes a first feeding rail 31, a first vibration plate 32, the first straight vibration 33 is arranged in parallel with the shifting track 21, one end of the first straight vibration 33 is used as a first feeding end 311 and is connected with the first vibration disc 32, the other end of the first straight vibration 33 is used as a first discharging end 312 and is overlapped with a feeding position of a part of the shifting track 21, the first straight vibration 33 is positioned below the first feeding track 31 and drives the part I to move from the first feeding end 311 to the first discharging end 312, the side push block 34 is driven by the side push cylinder 35 to push the part I positioned on the first feeding track 31 to the feeding position of the part I, the part I arranged on the first vibration disc 32 moves along the first feeding track 31 one by one until reaching the first discharging end 312, the part I is pushed to the shifting track 21 by the side push block 34 to realize an automatic one-by-one feeding function, and the shifting claws 22 and the part I can accurately correspond one by one.

As shown in fig. 7, the second feeding device 4 includes a second feeding rail including a second feeding rail 41, a second vibration plate 42, a second straight vibration 43, an adsorption member 44, and an adsorption displacement mechanism 45, one end of the second feeding rail 41 is used as a second feeding end 411 and connected to the second vibration plate 42, the other end is used as a second discharging end 412 and extends to a position close to a second feeding position, the adsorption displacement mechanism 45 drives the adsorption member 44 to transfer a second part at the second discharging end to a first part at the second feeding position, the second parts arranged on the second vibration plate 42 move along the second feeding rail 41 one by one until reaching the second discharging end, the adsorption member 44 is transferred to the displacement rail 21 to realize an automatic one-by-one feeding function, and simultaneously, an automatic stacking of the second part and the first part can be completed, furthermore, the adsorption displacement mechanism 45 is an existing axial displacement mechanism, the adsorption member 44 can realize XYZ axial displacement by magnetic force or negative pressure, the second discharging end 412 of the second feeding rail 41 is provided with a dislocation seat 46 for receiving the second part and dislocating the second part, and the dislocation seat 46 is driven by the dislocation cylinder 461, so that the adsorbing members 44 can adsorb one by one conveniently.

As shown in fig. 8, the frame 1 is provided with a discharging ramp 14 connected with the discharging position and a detecting sensor 15 above the discharging position at the discharging position, the frame 1 is provided with a lateral shifting cylinder 141 driving the discharging ramp 14 to laterally shift, so that the discharging ramp 14 has a qualified product transmission position opposite to the shifting rail 21 and a rejected product transmission position staggered with the shifting rail 21, according to the detection result of the detecting sensor 15, the discharging ramp 14 guides the qualified trays to a finished product collection place (generally, a finished product frame or a transmission belt), while the rejected products fall to a rejected product collection place (i.e., a collection box 142 in the figure) right below the discharging ramp 14, and the discharging is completed at the same time.

Claims (10)

1. The utility model provides an electronic riveting device, includes the frame and sets up in dead lever, activity ejector pin and the climbing mechanism of frame, the dead lever be located directly over the activity ejector pin, climbing mechanism drive activity ejector pin go up and down, its characterized in that: the jacking mechanism comprises a motor, a driving wheel and a jacking seat, the driving wheel rotates under the driving of the motor and is eccentrically provided with an eccentric shaft, an eccentric wheel is sleeved on the periphery of the eccentric shaft, the jacking seat vertically slides on the rack and is provided with a linkage cavity for accommodating an eccentric block, the height of the linkage cavity is consistent with that of the eccentric wheel, the width of the linkage cavity is larger than that of the eccentric wheel, a movable space for the eccentric wheel to transversely move relative to the linkage cavity is formed, and the movable ejector rod is installed on the jacking seat and synchronously ascends and descends with the jacking seat.

2. The electric rivet apparatus according to claim 1, wherein: the frame along vertical lift spout that is provided with, activity ejector pin below be provided with and slide in the last linkage piece of lift spout, jacking seat top be provided with and slide in the lower linkage piece of lift spout, last linkage piece below and lower linkage piece top be provided with dovetail and the forked tail piece that constitutes both synchronous motion respectively, the notch of lift spout be provided with the limiting plate of spacing in the lift spout of last linkage piece and lower linkage piece.

3. The electric rivet apparatus according to claim 2, wherein: jacking seat and lower linkage piece between be provided with the regulating block, regulating block top along vertically being provided with the T-slot, the below is provided with down the T-slot along transversely, lower linkage piece be provided with along the last T-shaped piece of last T-slot removal, jacking seat be provided with extend to T-slot inslot down and the tip be the regulation post of T-shaped piece down.

4. The electric rivet apparatus according to claim 1, wherein: guide holes are respectively vertically formed in two sides of the jacking seat, and guide rods respectively penetrating through the guide holes are fixedly arranged on the rack.

5. An electric riveter using the electric riveter according to claim 1, wherein: the frame is provided with a transmission device, a first feeding device and a second feeding device, the transmission device transmits the first part to the second feeding device after receiving the first part, the second feeding device places the second part on the first part, the transmission device transmits the first part and the second part to the riveting device for riveting, and the transmission device finally transmits a riveted finished product to a finished product collection place.

6. The electric riveter of claim 5, wherein: the conveying device comprises a shifting track, a plurality of shifting claws and a shifting mechanism, wherein the shifting track is provided with a plurality of stopping positions, namely a part I feeding position corresponding to the first feeding device, a part II feeding position corresponding to the second feeding device, a riveting position corresponding to the riveting device and a discharging position, the shifting mechanism drives the shifting claws to move back and forth between the adjacent stopping positions, and the shifting claws are obliquely arranged and gradually reduce along with the height of the shifting track.

7. The electric riveter according to claim 6, characterized in that: the shifting mechanism comprises a base, a base track, a base cylinder and a claw body cylinder, the base track and the shifting track are arranged in parallel, the base cylinder drives the base to slide on the base track in a reciprocating mode, the upper end face of the base serves as an installation face for installing the claw body cylinder in an inclined mode, and the claw body cylinder corresponds to the shifting claws one by one and drives the shifting claws to be close to or far away from the base track.

8. The electric riveter according to claim 6, characterized in that: first loading attachment include first material loading track, first vibration dish, first shake always, side kicking block and side push cylinder, first material loading track and aversion track parallel arrangement, one end is as first feed end and is connected with first vibration dish, the other end as first discharge end and with the orbital part material loading level of aversion coincide mutually, first shake always be located first material loading track below and drive part one and remove to first discharge end from first feed end, side kicking block under the drive of side push cylinder, will be located the first material loading track part one and push to the part material loading level.

9. The electric riveter according to claim 6, characterized in that: second loading attachment include that second material loading track includes that second material loading track, second vibration dish, second directly shake, adsorb the piece and adsorb displacement mechanism, second material loading track one end be as the second feed end and be connected with second vibration dish, the other end as the second discharge end and extend to the position that is close with part two material loading levels, the drive of adsorption displacement mechanism adsorb the piece, shift to the part two that is located the second discharge end to be located part two on the part one of material loading level.

10. The electric riveter according to claim 6, characterized in that: the frame be located the ejection of compact position be provided with the ejection of compact ramp that links up with ejection of compact position and be located the detection sensor of ejection of compact position top, the frame be provided with the side of drive ejection of compact ramp and move the cylinder, make ejection of compact ramp have with the relative certified products transmission position of aversion track and with the wrong unqualified products transmission position of aversion track.

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