CN204674956U - Crystal oscillator automatic packaging machine - Google Patents
Crystal oscillator automatic packaging machine Download PDFInfo
- Publication number
- CN204674956U CN204674956U CN201520411374.2U CN201520411374U CN204674956U CN 204674956 U CN204674956 U CN 204674956U CN 201520411374 U CN201520411374 U CN 201520411374U CN 204674956 U CN204674956 U CN 204674956U
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- crystal oscillator
- aligning gear
- suction material
- automatic packaging
- primary importance
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Abstract
The utility model provides a kind of crystal oscillator automatic packaging machine that automatically can carry out sorting to crystal oscillator, comprise feeding mechanism, connecting gear, testing agency, rejecting mechanism, switching mechanism, location correction mechanism, counting mechanism, package mechanism and controller, controller is electrically connected with feeding mechanism, connecting gear, testing agency, rejecting mechanism, switching mechanism, location correction mechanism, counting mechanism, package mechanism, and described first induction installation, feeding mechanism, rejecting mechanism, switching mechanism, location correction mechanism, counting mechanism and package mechanism are arranged around rotating disk successively.The beneficial effects of the utility model are: by the cooperation of feeding mechanism, connecting gear, testing agency, rejecting mechanism, switching mechanism, location correction mechanism, counting mechanism, package mechanism and controller, make crystal oscillator all enter package mechanism accurately in heads mode, realize the automatic packaging of crystal oscillator.
Description
Technical field
The utility model relates to wrapping machine, specifically crystal oscillator automatic packaging machine.
Background technology
Crystal oscillator refers to and cut thin slice (referred to as wafer) by certain azimuth from one piece of quartz crystal, and the crystal element forming oscillating circuit at the inner IC of interpolation of encapsulation is called crystal oscillator.Its product generally uses packed by metal casing, also useful glass shell, pottery or plastic package.At present, multiple crystal oscillator, after going through the processing procedures such as making, detection, must wire up via package handling by crystal oscillator.The one side of crystal oscillator is printed on product specification etc., and another side has pin, still needs mode via manual detection to confirm that all crystal oscillators are all identical one to face up during packaging.The suitable time and effort consuming of manual detection, significantly increases the time of package handling, also may damage the outward appearance of crystal oscillator because manual detection careless mistake or technology are not good.Therefore, how to provide a kind of and replace manual detection and the crystal oscillator automatic packaging machine that can automatically pack, the problem that reality is made great efforts for industry.
Utility model content
Technical problem to be solved in the utility model is: provide a kind of crystal oscillator automatic packaging machine that automatically can carry out sorting to crystal oscillator.
In order to solve the problems of the technologies described above, the technical solution adopted in the utility model is: crystal oscillator automatic packaging machine, comprise feeding mechanism, connecting gear, testing agency, rejecting mechanism, switching mechanism, location correction mechanism, counting mechanism, package mechanism and controller, described controller is electrically connected with feeding mechanism, connecting gear, testing agency, rejecting mechanism, switching mechanism, location correction mechanism, counting mechanism, package mechanism;
Described connecting gear comprises the first actuating device, rotating disk and multiple device for suction material, multiple device for suction material is arranged on rotating disk equally spacedly along the circumference of rotating disk, the discharging opening of described feeding mechanism is positioned at the below of described device for suction material, and described first actuating device drives dial rotation and lifting;
Described testing agency comprises camera head and the first induction installation, described first induction installation is electrically connected with camera head, described camera head is arranged on above the discharging opening of feeding mechanism, and whether described first induction installation is used for induction has device for suction material through the first induction installation;
Described rejecting mechanism is for blowing off nonconformity crystal oscillator from device for suction material;
Described switching mechanism is used for crystal oscillator to carry out 180 degree of upsets;
Described location correction mechanism is for adjusting the position of the crystal oscillator on device for suction material to adapt to package mechanism;
Described counting mechanism comprises the second induction installation sum counter, and described second induction installation is electrically connected with counting machine, and described second induction installation is for responding on device for suction material whether be adsorbed with crystal oscillator;
Described first induction installation, feeding mechanism, rejecting mechanism, switching mechanism, location correction mechanism, counting mechanism and package mechanism are arranged around rotating disk successively.
Described feeding mechanism involving vibrations feed table and linear vibration feeder, the discharging opening of described vibration feeding disc is connected with the inlet point of linear vibration feeder, and the discharging opening of described linear vibration feeder is positioned at the below of described device for suction material.
Further, described rejecting mechanism comprises air-blast device and breather pipe, and the ventilation inlet of described breather pipe is connected with the air outlet of air-blast device, and the corresponding device for suction material of air outlet of described breather pipe is arranged.
Further, described device for suction material comprises vacuum pump, breather pipe and suction nozzle, and described vacuum pump is connected with suction nozzle by breather pipe, and described suction nozzle is for adsorbing crystal oscillator.
Further, described switching mechanism comprises overturning seat, bearing, flip-arm and upset cylinder, and described bearing is arranged in overturning seat, and described flip-arm is arranged on bearing, and described in described upset air cylinder driven, flip-arm carries out 180 degree of upsets.
Further, described location correction mechanism comprises primary importance aligning gear and second place aligning gear, described primary importance aligning gear and second place aligning gear include base, crystal oscillator standing groove, locating piece and correction cylinder, described crystal oscillator standing groove is arranged on base, the locating piece of described primary importance aligning gear is separately positioned on the two ends of the crystal oscillator standing groove of primary importance aligning gear along the Width of the crystal oscillator standing groove of primary importance aligning gear, the locating piece of the correction air cylinder driven primary importance aligning gear of described primary importance aligning gear moves back and forth along the Width of the crystal oscillator standing groove of primary importance aligning gear, the locating piece of described second place aligning gear is separately positioned on the two ends of the crystal oscillator standing groove of second place aligning gear along the length direction of the crystal oscillator standing groove of second place aligning gear, and the locating piece of the correction air cylinder driven second place aligning gear of described second place aligning gear moves back and forth along the length direction of the crystal oscillator standing groove of second place aligning gear.
Further, described package mechanism comprises packaging endless belt and the second actuating device, and described packaging endless belt is equally spaced is along its length provided with multiple storage tank for holding crystal oscillator, and described second actuating device drives described packaging ring Tape movement.
Further, described camera head comprises CCD camera and support, and described CCD camera is rack-mount.
The beneficial effects of the utility model are: by the cooperation of feeding mechanism, connecting gear, testing agency, rejecting mechanism, switching mechanism, location correction mechanism, counting mechanism, package mechanism and controller, make crystal oscillator all enter package mechanism accurately in heads mode, realize the automatic packaging of crystal oscillator.
Accompanying drawing explanation
Fig. 1 is the block diagram of the utility model embodiment crystal oscillator automatic packaging machine.
Fig. 2 is the birds-eye view of the utility model embodiment crystal oscillator automatic packaging machine.
1, feeding mechanism; 11, vibration feeding disc; 12, linear vibration feeder; 2, connecting gear; 21, the first actuating device; 22, rotating disk; 23, device for suction material; 231, vacuum pump; 232, breather pipe; 233, suction nozzle; 31, camera head; 32, the first induction installation; 4, rejecting mechanism; 5, switching mechanism; 6, location correction mechanism; 7, counting mechanism; 8, package mechanism.
Detailed description of the invention
By describing technology contents of the present utility model in detail, realized object and effect, accompanying drawing is coordinated to be explained below in conjunction with embodiment.
The design of the utility model most critical is: by the cooperation of feeding mechanism, connecting gear, testing agency, rejecting mechanism, switching mechanism, location correction mechanism, counting mechanism, package mechanism and controller, make crystal oscillator all enter package mechanism accurately in heads mode, realize the automatic packaging of crystal oscillator.
Please refer to Fig. 1 and Fig. 2, crystal oscillator automatic packaging machine, comprise feeding mechanism 1, connecting gear 2, testing agency, rejecting mechanism 4, switching mechanism 5, location correction mechanism 6, counting mechanism 7, package mechanism 8 and controller, described controller is electrically connected with feeding mechanism 1, connecting gear 2, testing agency, rejecting mechanism 4, switching mechanism 5, location correction mechanism 6, counting mechanism 7, package mechanism 8;
Described connecting gear 2 comprises the first actuating device 21, rotating disk 22 and multiple device for suction material 23, multiple device for suction material 23 is arranged on rotating disk 22 along the circumference of rotating disk 22 equally spacedly, the discharging opening of described feeding mechanism 1 is positioned at the below of described device for suction material 23, and described first actuating device 21 drives rotating disk 22 to rotate and be elevated;
Described testing agency comprises camera head 31 and the first induction installation 32, described first induction installation 32 is electrically connected with camera head 31, described camera head 31 is arranged on above the discharging opening of feeding mechanism 1, and whether described first induction installation 32 has device for suction material 23 through the first induction installation 32 for induction;
Described rejecting mechanism 4 is for blowing off nonconformity crystal oscillator from device for suction material 23;
Described switching mechanism 5 is for carrying out 180 degree of upsets by crystal oscillator;
Described location correction mechanism 6 is for adjusting the position of the crystal oscillator on device for suction material 23 to adapt to package mechanism 8;
Described counting mechanism 7 comprises the second induction installation sum counter, and described second induction installation is electrically connected with counting machine, and described second induction installation is for responding on device for suction material 23 whether be adsorbed with crystal oscillator;
Described first induction installation 32, feeding mechanism 1, rejecting mechanism 4, switching mechanism 5, location correction mechanism 6, counting mechanism 7 and package mechanism 8 are arranged around rotating disk 22 successively.
During the work of the utility model crystal oscillator automatic packaging machine, crystal oscillator exports from feeding mechanism 1, rotating disk 22 uniform rotation, first induction installation 32 senses that a certain device for suction material 23 is through out-of-date, signal is sent to controller, when controller controls camera head 31 this device for suction material 23 is about to the discharging opening arriving feeding mechanism 1 last device for suction material 23 has just left the discharging opening of feeding mechanism 1, take the photo of the crystal oscillator of feed mechanism discharge outlet and send to controller, controller comparison film judges, when the photo taken be crystal oscillator side upward time be nonconformity, the front of crystal oscillator or reverse side upward time be qualified, crystal oscillator has the one side of pin to be reverse side, the one side relative with reverse side is front, when this device for suction material 23 is just in time positioned at above the discharging opening of feeding mechanism 1, controller controls rotating disk 22 and declines, rotating disk 22 after crystal oscillator absorption is rotated further by device for suction material 23, when rejecting mechanism 4, if this crystal oscillator is judged as nonconformity, then this crystal oscillator is rejected from device for suction material 23 by rejecting mechanism 4, if crystal oscillator is qualified, this device for suction material 23 carries and to face up or anti-supine crystal oscillator turns to switching mechanism 5, if this crystal oscillator be reverse side upward, then device for suction material 23 declines until crystal oscillator enters turning device, crystal oscillator becomes be reversed 180 degree in turning device after to face up and to be adsorbed by device for suction material 23, this device for suction material 23 turns to position aligning gear 6, the position of the crystal oscillator on location correction mechanism 6 pairs of device for suction materials 23 adjusts packs to enter package mechanism 8 accurately, a counting mechanism 7 is also provided with between position aligning gear 6 and package mechanism 8, if device for suction material 23 is adsorbed with crystal oscillator when device for suction material 23 senses through out-of-date second induction installation, counting machine counts crystal oscillator, controls package mechanism 8 travel forward with Time Controller, if device for suction material 23 is unloaded, then counting machine does not count, and package mechanism 8 does not also work.
From foregoing description, the beneficial effects of the utility model are: by the cooperation of feeding mechanism 1, connecting gear 2, testing agency, rejecting mechanism 4, switching mechanism 5, location correction mechanism 6, counting mechanism 7, package mechanism 8 and controller, make crystal oscillator all enter package mechanism 8 accurately in heads mode, realize the automatic packaging of crystal oscillator.
Further, described feeding mechanism 1 involving vibrations feed table 11 and linear vibration feeder 12, the discharging opening of described vibration feeding disc 11 is connected with the inlet point of linear vibration feeder 12, and the discharging opening of described linear vibration feeder 12 is positioned at the below of described device for suction material 23.
Seen from the above description, by the cooperation of vibration feeding disc 11, linear vibration feeder 12, connecting gear 2 and controller, when crystal oscillator delivers to the discharging opening of linear vibration feeder 12 one by one, rotating disk 22 can drive device for suction material 23 to turn to discharge outlet, crystal oscillator absorption comes up and turns to next station by device for suction material 23, can realize automatic charging.
Further, described rejecting mechanism 4 comprises air-blast device and breather pipe, and the ventilation inlet of described breather pipe is connected with the air outlet of air-blast device, and the corresponding device for suction material 23 of air outlet of described breather pipe is arranged.
Seen from the above description, by the cooperation of device for eliminating, conveyer and controller, the automatic rejection of nonconformity crystal oscillator can be realized.
Further, described device for suction material 23 comprises vacuum pump 231, breather pipe 232 and suction nozzle 233, and described vacuum pump 231 is connected with suction nozzle 233 by breather pipe 232, and described suction nozzle 233 is for adsorbing crystal oscillator.
Seen from the above description, before device for suction material 23 adsorbs, when device for suction material 23 is positioned at initial position, vacuum pump 231 is started working, this device for suction material 23 declines, suction nozzle 233 is when crystal oscillator, breather pipe 232 is opened, negative pressure reaches suction nozzle 233 makes crystal oscillator be attracted on suction nozzle 233, and then device for suction material 23 rises, and turns to next station with rotating disk 22; When the crystal oscillator on device for suction material 23 needs to be put down, breather pipe 232 is closed, and the suction at suction nozzle 233 place reduces, and suction nozzle 233 decontrols crystal oscillator, so realizes crystal oscillator by conveyer automatic transport to each station, greatly improves packaging efficiency.Preferably, an electromagnetic valve can be set on rotating disk 22 for controlling the opening and closing of breather pipe 232.
Further, described switching mechanism 5 comprises overturning seat, bearing, flip-arm and upset cylinder, and described bearing is arranged in overturning seat, and described flip-arm is arranged on bearing, and described in described upset air cylinder driven, flip-arm carries out 180 degree of upsets.
Seen from the above description, by the cooperation of testing agency, switching mechanism 5, connecting gear 2 and controller, when the crystal oscillator on device for suction material 23 be reverse side upwards time, this device for suction material 23 is when switching mechanism 5, device for suction material 23 carries crystal oscillator and drops in overturning seat, flip-arm carries out 180 degree of upsets to crystal oscillator and is upwards overturn as facing up by reverse side by crystal oscillator, realizes the automatic turning of crystal oscillator.
Further, described package mechanism 8 comprises packaging endless belt and the second actuating device, and described packaging endless belt is equally spaced is along its length provided with multiple storage tank for holding crystal oscillator, and described second actuating device drives described packaging ring Tape movement.
Further, described location correction mechanism 6 comprises primary importance aligning gear 6 and second place aligning gear 6, described primary importance aligning gear 6 and second place aligning gear 6 include base, crystal oscillator standing groove, locating piece and correction cylinder, described crystal oscillator standing groove is arranged on base, the locating piece of described primary importance aligning gear 6 is separately positioned on the two ends of the crystal oscillator standing groove of primary importance aligning gear 6 along the Width of the crystal oscillator standing groove of primary importance aligning gear 6, the locating piece of the correction air cylinder driven primary importance aligning gear 6 of described primary importance aligning gear 6 moves back and forth along the Width of the crystal oscillator standing groove of primary importance aligning gear 6, the locating piece of described second place aligning gear 6 is separately positioned on the two ends of the crystal oscillator standing groove of second place aligning gear 6 along the length direction of the crystal oscillator standing groove of second place aligning gear 6, and the locating piece of the correction air cylinder driven second place aligning gear 6 of described second place aligning gear 6 moves back and forth along the length direction of the crystal oscillator standing groove of second place aligning gear 6.
Seen from the above description, when crystal oscillator on device for suction material 23 is and faces up, package mechanism 8 can be entered into pack, due to the storage tank on package mechanism 8 be with crystal oscillator one to one, require accurately to control the position of the crystal oscillator entering into package mechanism 8, to avoid crystal oscillator to put into storage tank, therefore, carry out position adjustment by aligning gear before packing, can ensure that crystal oscillator enters storage tank accurately.
Further, described camera head 31 comprises CCD camera and support, and described CCD camera is rack-mount.
Seen from the above description, CCD camera has powerful self-scanning function, and image definition is good, can catch image at any time, can increase work efficiency and the visibility of picture in powerful video image logger software function and working language interface.
Please refer to Fig. 1 and Fig. 2, embodiment of the present utility model is: crystal oscillator automatic packaging machine, comprise feeding mechanism 1, connecting gear 2, testing agency, rejecting mechanism 4, switching mechanism 5, location correction mechanism 6, counting mechanism 7, package mechanism 8 and controller, described controller is electrically connected with feeding mechanism 1, connecting gear 2, testing agency, rejecting mechanism 4, switching mechanism 5, location correction mechanism 6, counting mechanism 7, package mechanism 8; Described connecting gear 2 comprises the first actuating device 21, rotating disk 22 and multiple device for suction material 23, multiple device for suction material 23 is arranged on rotating disk 22 along the circumference of rotating disk 22 equally spacedly, the discharging opening of described feeding mechanism 1 is positioned at the below of described device for suction material 23, and described first actuating device 21 drives rotating disk 22 to rotate and be elevated; Described testing agency comprises camera head 31 and the first induction installation 32, described first induction installation 32 is electrically connected with camera head 31, described camera head 31 is arranged on above the discharging opening of feeding mechanism 1, and whether described first induction installation 32 has device for suction material 23 through the first induction installation 32 for induction; Described rejecting mechanism 4 is for blowing off nonconformity crystal oscillator from device for suction material 23; Described switching mechanism 5 is for carrying out 180 degree of upsets by crystal oscillator; Described location correction mechanism 6 is for adjusting the position of the crystal oscillator on device for suction material 23 to adapt to package mechanism 8; Described counting mechanism 7 comprises the second induction installation sum counter, and described second induction installation is electrically connected with counting machine, and described second induction installation is for responding on device for suction material 23 whether be adsorbed with crystal oscillator; Described first induction installation 32, feeding mechanism 1, rejecting mechanism 4, switching mechanism 5, location correction mechanism 6, counting mechanism 7 and package mechanism 8 are arranged around rotating disk 22 successively.Described feeding mechanism 1 involving vibrations feed table 11 and linear vibration feeder 12, the discharging opening of described vibration feeding disc 11 is connected with the inlet point of linear vibration feeder 12, and the discharging opening of described linear vibration feeder 12 is positioned at the below of described device for suction material 23.Described rejecting mechanism 4 comprises air-blast device and breather pipe, and the ventilation inlet of described breather pipe is connected with the air outlet of air-blast device, and the corresponding device for suction material 23 of air outlet of described breather pipe is arranged.Described device for suction material 23 comprises vacuum pump 231, breather pipe 232 and suction nozzle 233, and described vacuum pump 231 is connected with suction nozzle 233 by breather pipe 232, and described suction nozzle 233 is for adsorbing crystal oscillator.Described switching mechanism 5 comprises overturning seat, bearing, flip-arm and upset cylinder, and described bearing is arranged in overturning seat, and described flip-arm is arranged on bearing, and described in described upset air cylinder driven, flip-arm carries out 180 degree of upsets.Described location correction mechanism 6 comprises primary importance aligning gear 6 and second place aligning gear 6, described primary importance aligning gear 6 and second place aligning gear 6 include base, crystal oscillator standing groove, locating piece and correction cylinder, described crystal oscillator standing groove is arranged on base, the locating piece of described primary importance aligning gear 6 is separately positioned on the two ends of the crystal oscillator standing groove of primary importance aligning gear 6 along the Width of the crystal oscillator standing groove of primary importance aligning gear 6, the locating piece of the correction air cylinder driven primary importance aligning gear 6 of described primary importance aligning gear 6 moves back and forth along the Width of the crystal oscillator standing groove of primary importance aligning gear 6, the locating piece of described second place aligning gear 6 is separately positioned on the two ends of the crystal oscillator standing groove of second place aligning gear 6 along the length direction of the crystal oscillator standing groove of second place aligning gear 6, and the locating piece of the correction air cylinder driven second place aligning gear 6 of described second place aligning gear 6 moves back and forth along the length direction of the crystal oscillator standing groove of second place aligning gear 6.Described package mechanism 8 comprises packaging endless belt and the second actuating device, and described packaging endless belt is equally spaced is along its length provided with multiple storage tank for holding crystal oscillator, and described second actuating device drives described packaging ring Tape movement.Described camera head 31 comprises CCD camera and support, and described CCD camera is rack-mount.
In sum, the crystal oscillator automatic packaging machine beneficial effect that the utility model provides is: by the cooperation of feeding mechanism, connecting gear, testing agency, rejecting mechanism, switching mechanism, location correction mechanism, counting mechanism, package mechanism and controller, make crystal oscillator all enter package mechanism accurately in heads mode, realize the automatic packaging of crystal oscillator.
The foregoing is only embodiment of the present utility model; not thereby the scope of the claims of the present utility model is limited; every equivalents utilizing the utility model specification sheets and accompanying drawing content to do; or be directly or indirectly used in relevant technical field, be all in like manner included in scope of patent protection of the present utility model.
Claims (8)
1. crystal oscillator automatic packaging machine, it is characterized in that: comprise feeding mechanism, connecting gear, testing agency, rejecting mechanism, switching mechanism, location correction mechanism, counting mechanism, package mechanism and controller, described controller is electrically connected with feeding mechanism, connecting gear, testing agency, rejecting mechanism, switching mechanism, location correction mechanism, counting mechanism, package mechanism;
Described connecting gear comprises the first actuating device, rotating disk and multiple device for suction material, multiple device for suction material is arranged on rotating disk equally spacedly along the circumference of rotating disk, the discharging opening of described feeding mechanism is positioned at the below of described device for suction material, and described first actuating device drives dial rotation and lifting;
Described testing agency comprises camera head and the first induction installation, and described camera head is arranged on above the discharging opening of feeding mechanism, and whether described first induction installation is used for induction has device for suction material through the first induction installation;
Described rejecting mechanism is for blowing off nonconformity crystal oscillator from device for suction material;
Described switching mechanism is used for crystal oscillator to carry out 180 degree of upsets;
Described location correction mechanism is for adjusting the position of the crystal oscillator on device for suction material to adapt to package mechanism;
Described counting mechanism comprises the second induction installation sum counter, and described second induction installation is electrically connected with counting machine, and described second induction installation is for responding on device for suction material whether be adsorbed with crystal oscillator;
Described first induction installation, feeding mechanism, rejecting mechanism, switching mechanism, location correction mechanism, counting mechanism and package mechanism are arranged around rotating disk successively.
2. crystal oscillator automatic packaging machine according to claim 1, it is characterized in that: described feeding mechanism involving vibrations feed table and linear vibration feeder, the discharging opening of described vibration feeding disc is connected with the inlet point of linear vibration feeder, and the discharging opening of described linear vibration feeder is positioned at the below of described device for suction material.
3. crystal oscillator automatic packaging machine according to claim 1, it is characterized in that: described rejecting mechanism comprises air-blast device and breather pipe, the ventilation inlet of described breather pipe is connected with the air outlet of air-blast device, and the corresponding device for suction material of air outlet of described breather pipe is arranged.
4. crystal oscillator automatic packaging machine according to claim 1, it is characterized in that: described device for suction material comprises vacuum pump, breather pipe and suction nozzle, described vacuum pump is connected with suction nozzle by breather pipe, and described suction nozzle is for adsorbing crystal oscillator.
5. crystal oscillator automatic packaging machine according to claim 1, it is characterized in that: described switching mechanism comprises overturning seat, bearing, flip-arm and upset cylinder, described bearing is arranged in overturning seat, described flip-arm is arranged on bearing, and described in described upset air cylinder driven, flip-arm carries out 180 degree of upsets.
6. crystal oscillator automatic packaging machine according to claim 1, it is characterized in that: described location correction mechanism comprises primary importance aligning gear and second place aligning gear, described primary importance aligning gear and second place aligning gear include base, crystal oscillator standing groove, locating piece and correction cylinder, described crystal oscillator standing groove is arranged on base, the locating piece of described primary importance aligning gear is separately positioned on the two ends of the crystal oscillator standing groove of primary importance aligning gear along the Width of the crystal oscillator standing groove of primary importance aligning gear, the locating piece of the correction air cylinder driven primary importance aligning gear of described primary importance aligning gear moves back and forth along the Width of the crystal oscillator standing groove of primary importance aligning gear, the locating piece of described second place aligning gear is separately positioned on the two ends of the crystal oscillator standing groove of second place aligning gear along the length direction of the crystal oscillator standing groove of second place aligning gear, and the locating piece of the correction air cylinder driven second place aligning gear of described second place aligning gear moves back and forth along the length direction of the crystal oscillator standing groove of second place aligning gear.
7. crystal oscillator automatic packaging machine according to claim 1, it is characterized in that: described package mechanism comprises packaging endless belt and the second actuating device, described packaging endless belt is equally spaced is along its length provided with multiple storage tank for holding crystal oscillator, and described second actuating device drives described packaging ring Tape movement.
8. crystal oscillator automatic packaging machine according to claim 1, it is characterized in that: described camera head comprises CCD camera and support, described CCD camera is rack-mount.
Priority Applications (1)
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CN201520411374.2U CN204674956U (en) | 2015-06-15 | 2015-06-15 | Crystal oscillator automatic packaging machine |
Applications Claiming Priority (1)
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CN201520411374.2U CN204674956U (en) | 2015-06-15 | 2015-06-15 | Crystal oscillator automatic packaging machine |
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CN201520411374.2U Withdrawn - After Issue CN204674956U (en) | 2015-06-15 | 2015-06-15 | Crystal oscillator automatic packaging machine |
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Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
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CN104960710A (en) * | 2015-06-15 | 2015-10-07 | 莆田市涵江永德兴电子石英有限公司 | Crystal oscillator automatic packaging machine |
CN105599968A (en) * | 2016-01-15 | 2016-05-25 | 中州大学 | Bulb feeding control device of automatic indicator lamp bulb packing machine |
WO2018098667A1 (en) * | 2016-11-30 | 2018-06-07 | Abb Schweiz Ag | Robot based battery sorting system |
CN111215866A (en) * | 2020-03-16 | 2020-06-02 | 安徽中巨机电设备有限公司 | Material receiving device |
CN111230444A (en) * | 2020-03-16 | 2020-06-05 | 安徽中巨机电设备有限公司 | Automatic feeding equipment for plugs |
-
2015
- 2015-06-15 CN CN201520411374.2U patent/CN204674956U/en not_active Withdrawn - After Issue
Cited By (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104960710A (en) * | 2015-06-15 | 2015-10-07 | 莆田市涵江永德兴电子石英有限公司 | Crystal oscillator automatic packaging machine |
CN104960710B (en) * | 2015-06-15 | 2017-03-08 | 莆田市涵江永德兴电子石英有限公司 | Crystal oscillator automatic packaging machine |
CN105599968A (en) * | 2016-01-15 | 2016-05-25 | 中州大学 | Bulb feeding control device of automatic indicator lamp bulb packing machine |
CN105599968B (en) * | 2016-01-15 | 2017-09-05 | 中州大学 | A kind of bulb feeding control device of middle lamp automatic packaging machine |
WO2018098667A1 (en) * | 2016-11-30 | 2018-06-07 | Abb Schweiz Ag | Robot based battery sorting system |
CN111215866A (en) * | 2020-03-16 | 2020-06-02 | 安徽中巨机电设备有限公司 | Material receiving device |
CN111230444A (en) * | 2020-03-16 | 2020-06-05 | 安徽中巨机电设备有限公司 | Automatic feeding equipment for plugs |
CN111215866B (en) * | 2020-03-16 | 2020-12-01 | 安徽中巨机电设备有限公司 | Material receiving device |
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Granted publication date: 20150930 Effective date of abandoning: 20171114 |
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