CN211248010U - Automatic steel ball riveting equipment - Google Patents
Automatic steel ball riveting equipment Download PDFInfo
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- CN211248010U CN211248010U CN201921310189.9U CN201921310189U CN211248010U CN 211248010 U CN211248010 U CN 211248010U CN 201921310189 U CN201921310189 U CN 201921310189U CN 211248010 U CN211248010 U CN 211248010U
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Abstract
The utility model relates to an automatic change steel ball riveting equipment, include: the electric punching machine is provided with a punching slide block in a sliding mode and is used for driving the punching slide block to do reciprocating lifting motion, and a die head for pressing steel balls is arranged on the punching slide block; bear in the feedway of electronic punch press, feedway includes: the material storage box, the middle rotating discharging seat, the press mounting seat, the material suction pipe and the air blowing pipe are arranged on the material storage box; and, a encasement assembly. When assembling the steel balls, the steel balls are stored in the storage box, the steel balls are guided into the press-fitting seat one by one through the material suction pipe and the air blowing pipe, then the electric punch is started to drive the die head to operate to rivet and press the steel balls into the riveting holes of the guide sleeve, then the guide sleeve is slid or rotated to enable the next riveting hole to be aligned with the press-fitting holes, and the processes are repeated, so that the steel balls can be assembled on the guide sleeve one by one, and the manual intervention is reduced in the assembling process, so that the assembling efficiency and the assembling precision are improved.
Description
Technical Field
The utility model relates to a guide pin bushing processing equipment technical field, in particular to change steel ball and rivet equipment.
Background
The steel ball guide sleeve moves axially and radially at high precision, the matching shaft and the sleeve can be assembled without clearance by interference fit, and the combination precision is extremely high, so that the steel ball guide sleeve is widely applied to the die industry, the machine equipment industry and the high-precision operation or movement industry. In the processing of the steel ball guide sleeve, the assembly of the steel ball is a crucial step, the current steel ball guide sleeve is generally assembled manually, and the assembly efficiency is low and the precision is poor.
SUMMERY OF THE UTILITY MODEL
For solving the technical problem, the utility model provides an automatic change steel ball and rivet equipment has the advantage that improves assembly efficiency and assembly precision.
In order to achieve the above purpose, the technical scheme of the utility model is as follows:
an automated steel ball riveting apparatus, comprising:
the electric punching machine is provided with a punching slide block in a sliding mode and is used for driving the punching slide block to do reciprocating lifting motion, and a die head for pressing steel balls is arranged on the punching slide block;
bear in the feedway of electronic punch press, feedway includes: the steel ball press fitting device comprises a storage box fixed on the electric punch press, a transfer discharging seat fixed on the electric punch press, a press fitting seat fixed on the electric punch press and corresponding to the die head, a material sucking pipe communicated with the storage box and the transfer discharging seat and used for sucking steel balls into the transfer discharging seat, and an air blowing pipe communicated with the transfer discharging seat and used for blowing the steel balls into the press fitting seat, wherein press fitting holes matched with the steel balls are formed in the press fitting seat, the material sucking pipe is connected with air sucking equipment, the air blowing pipe is connected with air blowing equipment, and a guide pipe used for guiding the steel balls into the press fitting seat from the transfer discharging seat is arranged between the transfer discharging seat and the press fitting seat; and the number of the first and second groups,
the sleeving assembly is borne on the electric punch and used for sleeving the guide sleeves to be pressed so that the guide sleeves to be pressed move or rotate to enable the riveting holes of the guide sleeves to be pressed to correspond to the pressing holes one by one.
When the steel balls are assembled, the steel balls are stored in the storage box, one or more steel balls are sucked through the suction pipe and stored in the middle rotating discharging seat, then one steel ball is blown into the press-fitting seat through the guide pipe through the blowing pipe and stored in the press-fitting hole, then the guide sleeve to be pressed is sleeved on the sleeving component, the riveting hole in the guide sleeve is aligned with the press-fitting hole, the electric punch is started to drive the punching slider to press downwards, the die head is pressed into the press-fitting hole to rivet the steel ball into the riveting hole of the guide sleeve, so that riveting of one steel ball is completed, then the guide sleeve is slid or rotated to align the next riveting hole with the press-fitting hole, and the processes are repeated, so that the steel balls can be assembled on the guide sleeve one by one.
As an optimized scheme of the utility model, be equipped with pan feeding passageway, discharging channel and intercommunication in the transfer discharging base pan feeding passageway with discharging channel's guide passageway, the pan feeding passageway with inhale the material pipe and link to each other, discharging channel one end with the gas blow pipe is linked together, the other end with the guide pipe is linked together, the slope of guide passageway sets up downwards, just the guide passageway with discharging channel looks convergence department is equipped with the reservation groove.
According to the technical scheme, the steel balls enter the feeding channel when being sucked from the material suction pipe, roll into the discharging channel from the material guide channel and are limited in the retention groove, and the steel balls can be blown into the press-fitting seat by blowing the discharging channel through the blowing pipe.
As a preferred scheme of the utility model, the pressure equipment seat includes: the electric punching machine comprises a mounting seat assembled with a frame of an electric punching machine, a first clamping seat fixed on the mounting seat, and a sliding type assembled on the mounting seat, a second clamping seat arranged opposite to the first clamping seat, and an elastic part with one end fixed on the second clamping seat and the other end fixed on the resetting of the mounting seat, wherein a first clamping groove is arranged on the first clamping seat, a second clamping groove is arranged on the second clamping seat, the elastic part for resetting orders the second clamping seat to clamp the first clamping seat relatively and the first clamping groove to form the press mounting hole in a butt joint mode with the second clamping groove, the press mounting hole is in an inverted cone shape, and the diameter of the bottom of the press mounting hole is smaller than that of a steel ball.
According to the technical scheme, under a normal state, the second clamping seat is clamped with the first clamping seat relatively under the action of the reset elastic piece, so that the steel balls are limited in the press-fitting holes, when the die head is pressed downwards, the second clamping seat is separated from the first clamping seat under the pushing of the steel balls, the press-fitting holes are enlarged, the steel balls can fall down and are pressed on the guide sleeve, when the die head is separated from the press-fitting holes, and the second clamping seat is clamped with the first clamping seat relatively under the action of the reset elastic piece again.
As an optimized scheme of the utility model, lie in on the electric punch press one side of punching press slider is equipped with laser sensor, and works as laser sensor's detection light shines when on the punching press slider, gas blowing equipment passes through the gas blow pipe blows off a steel ball extremely in the pressure equipment seat, just the punching press slider breaks away from when laser sensor's the testing light, the equipment of breathing in passes through the material pipe is followed at least a steel ball of suction extremely in the storage box in the material seat is expected in the transfer.
Realize above-mentioned technical scheme, when laser sensor's detection light shines on the punching press slider, electric punch press is in the state of not punching press, blow in the going on of waiting for the pressure equipment process in the pressure equipment seat this moment with the steel ball, and laser sensor's detection light is when not shining on the punching press slider, electric punch press impresses the steel ball in the guide sleeve this moment, in the material seat of transferring out in inhaling the steel ball this moment, be convenient for in time blow in the pressure equipment hole with the steel ball after the punching press, whether the detection light through detecting laser sensor shines on the punching press slider, the continuous feed of steel ball has been realized.
As a preferred aspect of the present invention, the kit assembly includes: the fixing seat is detachably connected with the fixing seat, corresponds to the press-fitting seat and is used for sleeving a sleeving rod for sleeving the guide sleeve to be pressed.
According to the technical scheme, the guide sleeve is sleeved on the sleeving rod, and the riveting holes can be aligned with the press-fitting holes one by sliding or rotating the guide sleeve.
As an optimized scheme of the utility model, the pressure testing mouth has been seted up on the suit pole, the entry of pressure testing mouth with the pressure equipment hole is mutually aligned.
According to the technical scheme, the steel ball is subjected to pressure testing before the press-fitting process through the pressure testing port, so that whether the steel ball is normally discharged or not can be conveniently detected.
As an optimized scheme of the utility model, the tip of suit pole is equipped with the locating piece, seted up on the fixing base with the constant head tank of locating piece looks adaptation, the fixing base is fixed with through the retaining member locking compress tightly in the briquetting of locating piece.
Realize above-mentioned technical scheme, cooperate through constant head tank and locating piece, realize the accurate location to the suit pole, compressing tightly the locating piece through the briquetting, can be fixed with the suit pole, can change the suit pole of unidimensional not according to the size of treating the pressure equipment guide pin bushing simultaneously.
As a preferred aspect of the present invention, the die head includes: the device comprises a locking rod, an ejector rod matched with the press-fitting hole and a conical connecting part arranged between the locking rod and the ejector rod.
According to the technical scheme, the locking rod is convenient to assemble with the stamping slide block, and the steel ball is convenient to eject through the ejector rod.
To sum up, the utility model discloses following beneficial effect has:
the embodiment of the utility model provides an automatic change steel ball riveting equipment, include: the electric punching machine is provided with a punching slide block in a sliding mode and is used for driving the punching slide block to do reciprocating lifting motion, and a die head for pressing steel balls is arranged on the punching slide block; bear in the feedway of electronic punch press, feedway includes: the steel ball press fitting device comprises a storage box fixed on the electric punch press, a transfer discharging seat fixed on the electric punch press, a press fitting seat fixed on the electric punch press and corresponding to the die head, a material sucking pipe communicated with the storage box and the transfer discharging seat and used for sucking steel balls into the transfer discharging seat, and an air blowing pipe communicated with the transfer discharging seat and used for blowing the steel balls into the press fitting seat, wherein press fitting holes matched with the steel balls are formed in the press fitting seat, the material sucking pipe is connected with air sucking equipment, the air blowing pipe is connected with air blowing equipment, and a guide pipe used for guiding the steel balls into the press fitting seat from the transfer discharging seat is arranged between the transfer discharging seat and the press fitting seat; and the sleeving assembly is borne on the electric punch and used for sleeving the guide sleeves to be pressed so that the guide sleeves to be pressed move or rotate to enable the riveting holes of the guide sleeves to be pressed to correspond to the pressing holes one by one. When assembling the steel balls, the steel balls are stored in a storage box, one or more steel balls are sucked in through a suction pipe and stored in a transfer discharging seat, then one steel ball is blown into a press-fitting seat through a material guide pipe and stored in a press-fitting hole through an air blowing pipe, then a guide sleeve to be pressed is sleeved on a sleeving assembly, a riveting hole in the guide sleeve is aligned with the press-fitting hole, an electric punch is started to drive a punching slider to press downwards, a die head is pressed into the press-fitting hole to rivet the steel ball into the riveting hole of the guide sleeve, so that the riveting of one steel ball is completed, then the guide sleeve is slid or rotated to align the next riveting hole with the press-fitting hole, and the processes are repeated, so that the steel balls can be assembled on the guide sleeve one by one.
Drawings
In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.
Fig. 1 is a schematic structural diagram of an embodiment of the present invention.
Fig. 2 is a front view of the feeding base in the embodiment of the present invention.
Fig. 3 is a schematic structural view of the die head and the press-fitting seat in the embodiment of the present invention.
Fig. 4 is a schematic structural diagram of the kit assembly according to an embodiment of the present invention.
The corresponding part names indicated by the numbers and letters in the drawings:
1. an electric punching machine; 11. stamping a sliding block; 12. a die head; 121. a locking lever; 122. a top rod; 123. A tapered connection portion; 13. a laser sensor; 2. a feeding device; 21. a storage box; 22. a middle rotating discharging seat; 221. a feeding channel; 222. a discharge channel; 223. a material guide channel; 224. a retention groove; 23. a press mounting seat; 231. a mounting seat; 232. a first holder; 233. a second holder; 234. a restoring elastic member; 235. press-fitting holes; 24. a material suction pipe; 25. an air blowing pipe; 26. a material guide pipe; 3. sleeving the assembly; 31. a fixed seat; 311. positioning a groove; 312. briquetting; 313. a locking member; 32. sleeving a rod; 321. a pressure test port; 322. and (5) positioning the blocks.
Detailed Description
The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.
Examples
An automatic steel ball riveting device, as shown in fig. 1 to 4, comprises: the punching device comprises an electric punching machine 1, wherein a punching slide block 11 is slidably assembled on the electric punching machine 1, the electric punching machine 1 is used for driving the punching slide block 11 to do reciprocating lifting motion, and a die head 12 for press-mounting steel balls is arranged on the punching slide block 11; a feeding device 2 carried on the electric punch 1; and the sleeving assembly 3 is borne on the electric punch 1 and used for sleeving the guide sleeve to be pressed so that the guide sleeve to be pressed moves or rotates.
Specifically, the die 12 includes: the locking rod 121, the ejector rod 122 matched with the press-fitting hole 235 and the conical connecting part 123 arranged between the locking rod 121 and the ejector rod 122 are conveniently assembled with the stamping slider 11 through the locking rod 121, and the steel ball is conveniently ejected through the ejector rod 122.
The supply device 2 includes: the automatic steel ball transfer device comprises a storage box 21 fixed on the electric punch press 1, a transfer discharging seat 22 fixed on the electric punch press 1, a press-mounting seat 23 fixed on the electric punch press 1 and corresponding to the die head 12, a material suction pipe 24 communicating the storage box 21 and the transfer discharging seat 22 and used for sucking steel balls into the transfer discharging seat 22, and an air blowing pipe 25 communicated with the transfer discharging seat 22 and used for blowing the steel balls into the press-mounting seat 23, wherein press-mounting holes 235 matched with the steel balls are formed in the press-mounting seat 23, the material suction pipe 24 is connected with air suction equipment, the air blowing pipe 25 is connected with air blowing equipment, and a guide pipe 26 used for guiding the steel balls into the press-mounting seat 23 from the transfer discharging seat 22 is arranged between the transfer discharging seat 22.
A feeding channel 221, a discharging channel 222 and a material guiding channel 223 communicating the feeding channel 221 and the discharging channel 222 are arranged in the middle transferring discharging seat 22, the feeding channel 221 is connected with the material sucking pipe 24, one end of the discharging channel 222 is communicated with the air blowing pipe 25, the other end of the discharging channel 222 is communicated with the material guiding pipe 26, the material guiding channel 223 is arranged obliquely downwards, a remaining groove 224 is arranged at the intersection of the material guiding channel 223 and the discharging channel 222, and the remaining groove 224 is an arc-shaped groove; when the steel balls are sucked from the material suction pipe 24, the steel balls enter the material feeding channel 221, roll into the material discharging channel 222 from the material guiding channel 223 and are limited in the retention groove 224, and the steel balls can be blown into the press-mounting seat 23 by blowing the material discharging channel 222 through the air blowing pipe 25.
The press-fitting seat 23 includes: the electric punching machine comprises a mounting seat 231 assembled with a frame of the electric punching machine 1, a first clamping seat 232 fixed on the mounting seat 231, a second clamping seat 233 which is assembled on the mounting seat 231 in a sliding manner and is arranged opposite to the first clamping seat 232, and a resetting elastic member 234 of which one end is fixed on the second clamping seat 233 and the other end is fixed on the mounting seat 231, wherein the first clamping seat 232 is provided with a first clamping groove, the second clamping seat 233 is provided with a second clamping groove, the resetting elastic member 234 drives the second clamping seat 233 to be clamped opposite to the first clamping seat 232 under a natural state and the first clamping groove and the second clamping groove are butted to form a press mounting hole 235, the press mounting hole 235 is in an inverted cone shape, and the diameter of the bottom of the press mounting hole 235 is smaller than that of a steel ball; under normal conditions, the second clamping seat 233 is clamped with the first clamping seat 232 relatively under the action of the reset elastic member 234, so that the steel balls are limited in the press-fitting holes 235, when the die head 12 is pressed downwards, the second clamping seat 233 is separated from the first clamping seat 232 under the pushing of the steel balls, so that the press-fitting holes 235 are enlarged, the steel balls can fall down and be pressed on the guide sleeve, and when the die head 12 is separated from the press-fitting holes 235, the second clamping seat 233 is clamped with the first clamping seat 232 relatively under the action of the reset elastic member 234 again.
Further, a laser sensor 13 is arranged on one side, located on the stamping slide block 11, of the electric punch press 1, the laser sensor 13 is connected with a control system of the equipment, and the air blowing equipment and the air suction equipment are also controlled in a centralized manner by the control system; when the detection light of the laser sensor 13 irradiates on the stamping slider 11, the blowing device blows a steel ball into the press-fitting seat 23 through the blowing pipe 25, and when the stamping slider 11 is separated from the detection light of the laser sensor 13, the suction device sucks at least one steel ball from the storage box 21 into the transfer discharging seat 22 through the suction pipe 24; when the detection light of the laser sensor 13 irradiates on the stamping slide block 11, the electric punch press 1 is in a non-stamping state, the steel balls are blown into the press-fitting seat 23 to wait for the press-fitting process, and when the detection light of the laser sensor 13 does not irradiate on the stamping slide block 11, the electric punch press 1 presses the steel balls into the guide sleeve at the moment, the steel balls are sucked into the middle rotating discharging seat 22 at the moment, so that the steel balls are timely blown into the press-fitting holes 235 after stamping, and whether the detection light of the laser sensor 13 irradiates on the stamping slide block 11 or not is detected, so that the continuous feeding of the steel balls is realized.
The set assembly 3 includes: the fixing seat 31 and the sleeving rod 32 which is detachably connected to the fixing seat 31, corresponds to the press-fitting seat 23 and is used for sleeving the guide sleeves to be pressed, the guide sleeves to be pressed are sleeved on the sleeving rod 32, and the riveting holes of the guide sleeves to be pressed correspond to the press-fitting holes 235 one by one when the guide sleeves are rotated or moved; meanwhile, a pressure testing port 321 is formed in the sleeving rod 32, an inlet of the pressure testing port 321 is aligned with the press-fitting hole 235, and pressure testing of the steel balls is performed through the pressure testing port 321 before the press-fitting process is performed, so that whether the steel balls are normally discharged or not can be conveniently detected.
Furthermore, a positioning block 322 is arranged at the end of the sleeving rod 32, a positioning groove 311 matched with the positioning block 322 is formed in the fixing seat 31, the positioning block 322 and the positioning groove 311 are prismatic, and a pressing block 312 pressed on the positioning block 322 is fixed on the fixing seat 31 in a locking manner through a locking part 313; through the cooperation of constant head tank 311 and locating piece 322, realize the accurate positioning to suit pole 32, compressing tightly locating piece 322 through briquetting 312, can be fixed suit pole 32, can be according to the not unidimensional suit pole 32 of the size change of treating the pressure equipment guide pin bushing simultaneously.
The electric punch 1 adopts the existing structure, and the working principle is as follows: the motor drives the flywheel to rotate through the belt mechanism and synchronously drives the crankshaft connecting rod mechanism to perform reciprocating linear movement, the stamping slide block 11 is connected with the power output end of the crankshaft connecting rod mechanism so as to perform reciprocating lifting movement under the driving of the crankshaft connecting rod mechanism, the flywheel is coaxially connected with the crankshaft connecting rod mechanism, a clutch is arranged between the flywheel and the driving connecting rod mechanism, the clutch is controlled to be combined or separated through an electric control switch, whether the crankshaft connecting rod mechanism acts or not is realized, the electric control switch is usually operated conveniently by adopting a foot-operated switch, the electric control switch is not started once, and the crankshaft connecting rod mechanism acts once.
When assembling the steel balls, the steel balls are stored in the storage box 21, one or more steel balls are sucked in through the suction pipe 24 and stored in the middle rotating discharging seat 22, then one steel ball is blown into the press-fitting seat 23 through the guide pipe 26 and stored in the press-fitting hole 235 through the air blowing pipe 25, then the guide sleeve to be pressed is sleeved on the sleeving component 3, the riveting hole in the guide sleeve is aligned with the press-fitting hole 235, the electric punch press 1 is started to drive the punching slider 11 to press downwards, the die head 12 is pressed into the press-fitting hole 235 to rivet the steel ball into the riveting hole of the guide sleeve, so that the riveting of one steel ball is completed, then the guide sleeve is slid or rotated to align the next riveting hole with the press-fitting hole 235, and the processes are repeated, so that the steel balls can be assembled on the guide sleeve one by one, and the manual intervention is reduced in the assembling process, so that the assembling efficiency and the assembling precision are improved.
The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.
Claims (8)
1. The utility model provides an automatic steel ball riveting equipment which characterized in that includes:
the electric punching machine is provided with a punching slide block in a sliding mode and is used for driving the punching slide block to do reciprocating lifting motion, and a die head for pressing steel balls is arranged on the punching slide block;
bear in the feedway of electronic punch press, feedway includes: the steel ball press fitting device comprises a storage box fixed on the electric punch press, a transfer discharging seat fixed on the electric punch press, a press fitting seat fixed on the electric punch press and corresponding to the die head, a material sucking pipe communicated with the storage box and the transfer discharging seat and used for sucking steel balls into the transfer discharging seat, and an air blowing pipe communicated with the transfer discharging seat and used for blowing the steel balls into the press fitting seat, wherein press fitting holes matched with the steel balls are formed in the press fitting seat, the material sucking pipe is connected with air sucking equipment, the air blowing pipe is connected with air blowing equipment, and a guide pipe used for guiding the steel balls into the press fitting seat from the transfer discharging seat is arranged between the transfer discharging seat and the press fitting seat; and the number of the first and second groups,
the sleeving assembly is borne on the electric punch and used for sleeving the guide sleeves to be pressed so that the guide sleeves to be pressed move or rotate to enable the riveting holes of the guide sleeves to be pressed to correspond to the pressing holes one by one.
2. The automatic steel ball riveting equipment according to claim 1, wherein a feeding channel, a discharging channel and a material guiding channel communicating the feeding channel and the discharging channel are arranged in the transfer discharging seat, the feeding channel is connected with the material suction pipe, one end of the discharging channel is communicated with the air blowing pipe, the other end of the discharging channel is communicated with the material guiding pipe, the material guiding channel is arranged obliquely downwards, and a retention groove is arranged at the intersection of the material guiding channel and the discharging channel.
3. The automated steel ball riveting apparatus according to claim 1 or 2, wherein the press-fitting seat comprises: the electric punching machine comprises a mounting seat assembled with a frame of an electric punching machine, a first clamping seat fixed on the mounting seat, and a sliding type assembled on the mounting seat, a second clamping seat arranged opposite to the first clamping seat, and an elastic part with one end fixed on the second clamping seat and the other end fixed on the resetting of the mounting seat, wherein a first clamping groove is arranged on the first clamping seat, a second clamping groove is arranged on the second clamping seat, the elastic part for resetting orders the second clamping seat to clamp the first clamping seat relatively and the first clamping groove to form the press mounting hole in a butt joint mode with the second clamping groove, the press mounting hole is in an inverted cone shape, and the diameter of the bottom of the press mounting hole is smaller than that of a steel ball.
4. The automatic steel ball riveting equipment according to claim 3, wherein a laser sensor is arranged on one side of the electric punch press, which is located on the stamping slide block, and when detection light of the laser sensor irradiates on the stamping slide block, the blowing equipment blows one steel ball into the press-fitting seat through the blowing pipe, and when the stamping slide block is separated from the detection light of the laser sensor, the suction equipment sucks out at least one steel ball from the storage box into the transfer discharging seat through the suction pipe.
5. The automated steel ball riveting apparatus of claim 3, wherein the encasement assembly comprises: the fixing seat is detachably connected with the fixing seat, corresponds to the press-fitting seat and is used for sleeving a sleeving rod for sleeving the guide sleeve to be pressed.
6. The automatic steel ball riveting equipment according to claim 5, wherein the sleeving rod is provided with a pressure testing port, and an inlet of the pressure testing port is aligned with the pressure mounting hole.
7. The automatic steel ball riveting equipment according to claim 5, wherein a positioning block is arranged at the end of the sleeving rod, a positioning groove matched with the positioning block is formed in the fixing seat, and a pressing block pressed on the positioning block is fixed on the fixing seat in a locking manner through a locking piece.
8. The automated steel ball riveting apparatus of claim 1, wherein the die head comprises: the device comprises a locking rod, an ejector rod matched with the press-fitting hole and a conical connecting part arranged between the locking rod and the ejector rod.
Priority Applications (1)
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CN201921310189.9U CN211248010U (en) | 2019-08-13 | 2019-08-13 | Automatic steel ball riveting equipment |
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CN201921310189.9U CN211248010U (en) | 2019-08-13 | 2019-08-13 | Automatic steel ball riveting equipment |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN110496910A (en) * | 2019-08-13 | 2019-11-26 | 苏州钛盟科技精密模具有限公司 | Automate steel ball riveting equipment |
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2019
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110496910A (en) * | 2019-08-13 | 2019-11-26 | 苏州钛盟科技精密模具有限公司 | Automate steel ball riveting equipment |
CN110496910B (en) * | 2019-08-13 | 2024-05-14 | 苏州钛盟科技精密模具有限公司 | Automatic steel ball riveting equipment |
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