CN201483288U - Automatic charging device and discharging device aiming at crank shaft - Google Patents
Automatic charging device and discharging device aiming at crank shaft Download PDFInfo
- Publication number
- CN201483288U CN201483288U CN2009201732622U CN200920173262U CN201483288U CN 201483288 U CN201483288 U CN 201483288U CN 2009201732622 U CN2009201732622 U CN 2009201732622U CN 200920173262 U CN200920173262 U CN 200920173262U CN 201483288 U CN201483288 U CN 201483288U
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- China
- Prior art keywords
- hydraulic cylinder
- bent axle
- automatic loading
- frame
- unloading device
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Lifetime
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Abstract
The utility model relates to an automatic charging device and discharging device aiming at a crank shaft, which comprises a left swinging bracket and a right swinging bracket, wherein the swinging brackets consist of a front swinging arm, a back swinging arm and a work piece support frame; the two ends of the work piece support frame are respectively articulated with the upper ends of a left swinging arm and a right swinging arm; the lower ends of the left swinging arm and the right swinging arm are respectively connected with a front rotation shaft and a back rotation shaft; the front rotation shaft and the back rotation shaft are rotatablely connected with a frame by bearings; one of the front rotation shaft and the back rotation shaft is a driving shaft; the driving shaft is connected with a hydraulic drive mechanism; and the hydraulic drive mechanism is provided with a control circuit. A hydraulic cylinder of the hydraulic drive mechanism drives the swinging brackets to swing and automatically charge and discharge, thereby not only improving the work efficiency, and reducing the labor intensity, but also preventing the work piece from being scratched during manually charging and discharging.
Description
Technical field
The utility model relates to a kind of automatic loading and unloading device, and particularly a kind of automatic loading and unloading device at bent axle belongs to the metal cutting manufacture field, can be used for the cylindrical grinder of bent axle processing and the workpiece loading and unloading of other lathes.
Background technology
For adapting to the manufacturing rapid expansion of the demand of the new industrial structure, particularly Hyundai Motor, the efficient of corresponding work machine tool is required to improve constantly.Yet; the general automation equipments such as totally-enclosed protective cover, follower rest and upset radial meter that adopt of present bent axle cylindrical grinder; bent axle loading and unloading method commonly used is to rely on loading and unloading manually or the loading and unloading of control crane; not only labour intensity is big, and through regular meeting scuffing is caused on the bent axle surface.
The utility model content
For overcoming the above-mentioned defective of prior art, the utility model provides a kind of automatic loading and unloading device at bent axle, and is not only laborsaving but also increase work efficiency, and can avoid the scuffing to workpiece.
The technical solution adopted in the utility model:
A kind of automatic loading and unloading device at bent axle, comprise left and right two rockers, described rocker is made of former and later two swing arms and work supporting block, the two ends of described work supporting block are hinged with the upper end of described forward and backward swing arm respectively, the lower end of described forward and backward swing arm connects forward and backward rotating shaft respectively, and described forward and backward rotating shaft is rotatably connected with frame by bearing.
The upper surface of described work supporting block can be provided with the groove that is used for place work piece usually.
Described groove is generally the V-type groove, and the surface that described work supporting block is positioned at described V-type groove front side can be higher than the surface that is positioned at described V-type groove rear side.
Described rocker constitutes parallel-crank mechanism usually with the rack section that this rocker is installed, the parallel-crank mechanism left-right symmetry that described left and right two rockers constitute, and described forward and backward rotating shaft is parallel to each other.
Have one to be driving shaft in the described forward and backward rotating shaft, described driving shaft can be connected with hydraulic drive mechanism, and described hydraulic drive mechanism is provided with control circuit.
Described hydraulic drive mechanism can comprise the hydraulic cylinder of a level, and the piston rod of described hydraulic cylinder extends forward, and slide block of its front end hinge joint is connected with the crank that is slidingly matched with described slide block on the described driving shaft.
Described hydraulic cylinder preferably adopts all adjustable connected mode of upper-lower position and front and back position to be installed on the frame.
Described hydraulic cylinder can be provided with the forward and backward travel switch that matches with piston.
The connected mode of described swing arm lower end and described rotating shaft can be the adjustable connected mode in position, the left and right sides.
Adjustable connected mode between described hydraulic cylinder and the described frame can be installed on the described frame by L shaped hydraulic cylinder frame for described hydraulic cylinder, described L shaped hydraulic cylinder frame comprises vertical section horizontal segment that extends with front and back, be equipped with strip hole on described vertical section and the horizontal segment, the bolted of described hydraulic cylinder by passing the strip hole on described vertical section is on described L shaped hydraulic cylinder frame, and the bolted of described L shaped hydraulic cylinder frame by passing the strip hole on the described horizontal segment is on described frame.
The beneficial effects of the utility model: the utility model carries out automatic loading/unloading by the hydraulic cylinder drive rocker of hydraulic drive mechanism, the artificial loading and unloading that replacement is wasted time and energy, not only saved the time of loading and unloading but also guaranteed that the bent axle of being processed is scratched in the loading and unloading process, improved operating efficiency greatly, simultaneously, adjustment by part parts installation site can also change two distance and amplitudes of fluctuation between the work supporting block, with the requirement of the loading and unloading of satisfying the different size bent axle.
Description of drawings
Fig. 1 is a main TV structure schematic diagram of the present utility model;
Fig. 2 is a plan structure schematic diagram of the present utility model.
The specific embodiment
Fig. 1 and Fig. 2 show the application of automatic loading and unloading device on numerically control grinder at bent axle provided by the utility model, two rockers about this automatic loading and unloading device comprises, described rocker is made of former and later two swing arms 4 and work supporting block 3, the rear and front end of described work supporting block is hinged with the upper end of described former and later two swing arms respectively, so that described swing arm is when driving the motion of described work supporting block, described work supporting block keeps level, the bent axle that transports on it is dropped, rotating shaft 7 before and after the lower end of described former and later two swing arms connects respectively by key connecting, so that described swing arm can be rotated accordingly when described rotating shaft is rotated thereupon, the rotating shaft of described front and back is rotatably connected with frame 10 by bearing, the described frame that is used to install rocker can be arranged to two parts, is fixedly mounted on the left and right sides of the workbench of lathe respectively.
Drive in the process that described work supporting block transports bent axle in described swing arm, the bent axle that described work supporting block drives on it has a downward accelerated motion process, for making described bent axle positioning stablity on described work supporting block, can not come off from described work supporting block because of effect of inertia, can be provided with the groove that is used to be suitable for place work piece at the upper surface of described work supporting block, described groove can be the V-type groove, and described work supporting block is positioned at the surface of described V-type groove front side can be arranged to be higher than the surface that is positioned at described V-type groove rear side.
The distance that two described work supporting block two ends connect between described left and right sides swing arm place equates, simultaneously, for the flexibility ratio that improves described rocker and prevent that generation stuck and can not motion conditions from appearring in described rocker in motion process, the distance that distance between the rotating shaft of described front and back can be arranged to be connected between described left and right sides swing arm place with described work supporting block two ends equates, make described rocker and the rack section that this rocker is installed constitute parallel-crank mechanism, the parallel-crank mechanism symmetry of the left and right sides.
Have one to be driving shaft in the rotating shaft of described front and back, described driving shaft can be that front rotary shaft also can be the back rotating shaft.But be in the consideration on the general structure, can realize the more swing of wide-angle in order to make described rocker, usually front rotary shaft is made as driving shaft, described driving shaft is connected with the hydraulic drive mechanism that is used to drive its rotation, and described hydraulic drive mechanism is provided with control circuit.
Described hydraulic drive mechanism comprises a hydraulic cylinder 9 that front and back are horizontally disposed, the piston rod of described hydraulic cylinder extends forward, slide block 5 of its front end hinge joint is connected with the crank 6 that is slidingly matched with described slide block by key connecting on the described driving shaft, rotates so that described crank drives described driving shaft.
The structure of described slide block and crank and connected mode each other can adopt prior art arbitrarily, can be provided with along the chute of crank bearing of trend on for example described crank, described slide block embed in this chute and with the chute matched in clearance, to be implemented in the slip in the chute.Perhaps described slide block is shaft-like, and described crank is two, is equipped with the through hole that cooperates with described space of slider on it, and two described cranks are enclosed within on the described slide block by through hole separately.When the piston in the described hydraulic cylinder moves, the described piston rod that is connected with described piston is to protracting or contracting backward, described piston rod drives described slide block and moves forward and backward, and then drive described crank and driving shaft and rotate (swing), described driving shaft drives connected described swing arm and rotates, and the described bent axle that described work supporting block is driven on it moves.
Described hydraulic cylinder can adopt all adjustable connected mode of upper-lower position and front and back position to be installed on the frame.By the adjusting of described Position of Hydraulic Cylinder, can regulate the amplitude of fluctuation and the start angle of rocker, the workpiece that rocker is adapted under the different situations transports.Described hydraulic cylinder can adopt following manner to be installed on the described frame: the adjustable connected mode between described hydraulic cylinder and the described frame is that described hydraulic cylinder is installed on the described frame by L shaped hydraulic cylinder frame, described L shaped hydraulic cylinder frame comprises vertical section and horizontal segment, be equipped with strip hole on described vertical section and the horizontal segment, the bolted of described hydraulic cylinder by passing the strip hole on described vertical section is on described L shaped hydraulic cylinder frame, the bolted of described L shaped hydraulic cylinder frame by passing the strip hole on the described horizontal segment is on described frame, when needing to regulate the position of described hydraulic cylinder, only need unscrew corresponding bolts, described hydraulic cylinder is adjusted to assigned address described bolt be screwed get final product again.
The other parts of the described hydraulic drive mechanism beyond the described hydraulic cylinder are arranged on outside the protective cover 1 of lathe, the switch of described protective cover can adopt automatic control also can adopt control manually, article two, pipeline road connects the chamber, front and back of described hydraulic cylinder respectively, by the current of electromagnet break-make on the solenoid directional control valve of controlling described hydraulic drive mechanism, stretching of the piston rod of the described hydraulic cylinder of realization driving, thereby drive the motion of the mechanical part of this automatic loading and unloading device, provide power as this automatic loading and unloading device.Solenoid directional control valve in the described hydraulic drive mechanism is used to control the direction of motion of this device, and flow speed control valve is used to control the movement velocity and the run duration of this device.
Described hydraulic cylinder is provided with two travel switches 8 that match with piston, described travel switch can adopt the magnetic travel switch, the piston of described hydraulic cylinder is provided with the magnetic element that cooperates with described magnetic travel switch, described two travel switches are separately positioned on the two ends of the cylinder body of described hydraulic cylinder, and its particular location is located at the two ends destination county of the design runlength of piston rod.The definite position of the two ends terminal point of described design runlength need determine through debugging, and the criterion of determining is that described work supporting block is in respectively to be waited for material loading and wait for two positions of Working position when making piston rod movement to this two ends terminal point.Described travel switch is under the jurisdiction of the automation control system of this automatic loading and unloading device, and the travel switch on other moving components of the trip switch and lathe is formed monitoring system, finally controls each moving component action interlocking and safe handling by digital control system.
During material loading, the described protective cover of affirmation is opened earlier, and described rocker extend out to waits for the material loading position, manually auxiliary material loading, after material loading is confirmed, described rocker is retracted to the wait Working position, and the wait Working position is arranged to be lower than slightly actual Working position, and back one stroke switch sends signal, the clamping device clamping work pieces, make workpiece break away from described work supporting block, close described protective cover, the processing beginning.
During blanking, process finishing confirms that open described protective cover, clamping device unclamps, and workpiece places on the described work supporting block again, and described rocker continues to extend out to wait material loading position.
The position of described swing arm in described rotating shaft is adjustable, to realize the adjusting to distance between two described work supporting blocks, adapts to the transporting of bent axle of different size.Described spindle keyway can be arranged to be suitable for the length of described rotating shaft, make the position of key in described keyway realize adjustable, the position of stopping means retainingf key in described keyway by cooperating again with key, or a plurality of keyways are set in described rotating shaft, size according to bent axle to be processed, key is arranged in the different keyways, realizes adjusting, can also realize the adjusting of described swing arm position in described rotating shaft by other suitable mode to the distance between the described work supporting block.
For conveniently giving described automatic loading and unloading device feeding at bent axle, material conveying road 2 can also be set on lathe, described material conveying road is arranged on outside the described protective cover, can be connected on the housing of lathe by material road support, be used to load described bent axle, the axis height of described bent axle equated when the axis height that the height in described material conveying road can be arranged to described bent axle when being placed with described bent axle on it and described work supporting block loaded the initial position of described bent axle, transmitted described bent axle with convenient between described material conveying road and described work supporting block.
The design that position and motion path thereof are set of each assembly of described rocker adopts suitable mode to avoid the interior shared space of original workpiece of lathe, in order to avoid cause interference.
The course of work of described automatic loading and unloading device at bent axle is: open described protective cover, control by hydraulic drive mechanism places described work supporting block the position of waiting for material loading, the staff moves on to described bent axle on the described work supporting block, control described hydraulic drive mechanism work by described console, the pipeline road that connects the ante-chamber of described hydraulic cylinder begins to send oil, the pipeline road that connects the back cavity of described hydraulic cylinder begins draining, described piston moves backward, driving described slide block by described piston rod slides in the chute of described crank backward, described crank rotates backward, the described driving shaft that drive is attached thereto rotates synchronously, described driving shaft drives two described swing arms that are attached thereto and rotates synchronously thereupon, setting by parallel-crank mechanism, corresponding rotation is done in another rotating shaft and the described swing arm that upward connects thereof simultaneously, described work supporting block and the described bent axle on it are realized to the back curve translation, when described work supporting block is transported to Working position with described bent axle, described piston moves to the rear end of the cavity in the described hydraulic cylinder, the described travel switch of back is sensed the magnetic element on the described piston on the described hydraulic cylinder, the described travel switch of back generates control signal and controls described hydraulic drive mechanism and stop to send oil and draining to described hydraulic cylinder on the described hydraulic cylinder, described rocker stop motion, clamping device by processing place of described console control workpiece clamps described bent axle, described bent axle and described work supporting block are broken away from, close described protective cover, the staff controls lathe workpiece is processed.After the process finishing, open described protective cover, unclamp described bent axle by console control clamping device, described bent axle is placed on the described work supporting block again, and described hydraulic drive mechanism is worked on, make the pipeline road of the ante-chamber that connects described hydraulic cylinder begin draining, the pipeline road that connects the back cavity of described hydraulic cylinder begins to send oil, described piston forward moves, drive the chute slides forwards of described slide block on described crank inner surface by described piston rod, described crank rotates forward, the described driving shaft that drive is attached thereto rotates synchronously, described driving shaft drives two described swing arms that are attached thereto and rotates synchronously thereupon, setting by parallel-crank mechanism, corresponding rotation is done in another rotating shaft and the described swing arm that upward connects thereof simultaneously, described work supporting block and the described bent axle on it are realized camber line translation forward, when described work supporting block is transported to the position that receives bent axle with described bent axle, described piston moves to the front end of the cavity in the described hydraulic cylinder, the travel switch of front is sensed the magnetic element on the described piston on the described hydraulic cylinder, the described travel switch of front generates control signal and controls described hydraulic drive mechanism and stop to send oil and draining to described hydraulic cylinder on the described hydraulic cylinder, described rocker stop motion, the staff will process the described bent axle in back and fetch from described work supporting block, finish once the automatic loading/unloading of described bent axle.
Described automatic loading and unloading device at bent axle, the shape that can be by changing described two work supporting blocks and the position of distance and described hydraulic cylinder make its adaptation finish automatic loading/unloading to other workpiece.
The foregoing description is the application example of this automatic loading and unloading device on the cylindrical grinder of full protective cover, and the present invention equally also can be used on other lathes or the loading and unloading of other workpiece.
Claims (10)
1. automatic loading and unloading device at bent axle, it is characterized in that comprising left and right two rockers, described rocker is made of former and later two swing arms and work supporting block, the two ends of described work supporting block are hinged with the upper end of described forward and backward swing arm respectively, the lower end of described forward and backward swing arm connects forward and backward rotating shaft respectively, and described forward and backward rotating shaft is rotatably connected with frame by bearing.
2. the automatic loading and unloading device at bent axle as claimed in claim 1 is characterized in that the upper surface of described work supporting block is provided with the groove that is used for place work piece.
3. the automatic loading and unloading device at bent axle as claimed in claim 2 is characterized in that described groove is the V-type groove, and the surface that described work supporting block is positioned at described V-type groove front side is higher than the surface that is positioned at described V-type groove rear side.
4. the automatic loading and unloading device at bent axle as claimed in claim 3, it is characterized in that described rocker and the rack section that this rocker is installed constitute parallel-crank mechanism, the parallel-crank mechanism left-right symmetry that described left and right two rockers constitute, described forward and backward rotating shaft is parallel to each other.
5. as claim 1,2,3 or 4 described automatic loading and unloading devices at bent axle, it is characterized in that having in the described forward and backward rotating shaft one to be driving shaft, described driving shaft is connected with hydraulic drive mechanism, and described hydraulic drive mechanism is provided with control circuit.
6. the automatic loading and unloading device at bent axle as claimed in claim 5, it is characterized in that described hydraulic drive mechanism comprises the hydraulic cylinder of a level, the piston rod of described hydraulic cylinder extends forward, slide block of its front end hinge joint is connected with the crank that is slidingly matched with described slide block on the described driving shaft.
7. the automatic loading and unloading device at bent axle as claimed in claim 6 is characterized in that described hydraulic cylinder adopts upper-lower position and all adjustable connected mode of front and back position to be installed on the frame.
8. the automatic loading and unloading device at bent axle as claimed in claim 7 is characterized in that described hydraulic cylinder is provided with the forward and backward travel switch that matches with piston.
9. the automatic loading and unloading device at bent axle as claimed in claim 8, the connected mode that it is characterized in that described swing arm lower end and described rotating shaft are the adjustable connected mode in position, the left and right sides.
10. the automatic loading and unloading device at bent axle as claimed in claim 9, it is characterized in that the adjustable connected mode between described hydraulic cylinder and the described frame is that described hydraulic cylinder is installed on the described frame by L shaped hydraulic cylinder frame, described L shaped hydraulic cylinder frame comprises vertical section horizontal segment that extends with front and back, be equipped with strip hole on described vertical section and the horizontal segment, the bolted of described hydraulic cylinder by passing the strip hole on described vertical section is on described L shaped hydraulic cylinder frame, and the bolted of described L shaped hydraulic cylinder frame by passing the strip hole on the described horizontal segment is on described frame.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN2009201732622U CN201483288U (en) | 2009-08-25 | 2009-08-25 | Automatic charging device and discharging device aiming at crank shaft |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN2009201732622U CN201483288U (en) | 2009-08-25 | 2009-08-25 | Automatic charging device and discharging device aiming at crank shaft |
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CN201483288U true CN201483288U (en) | 2010-05-26 |
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CN2009201732622U Expired - Lifetime CN201483288U (en) | 2009-08-25 | 2009-08-25 | Automatic charging device and discharging device aiming at crank shaft |
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101653914B (en) * | 2009-08-25 | 2011-07-20 | 北京第二机床厂有限公司 | Automatic loading and unloading device aiming at crankshaft |
CN103978424A (en) * | 2013-04-18 | 2014-08-13 | 廊坊市北方天宇机电技术有限公司 | Shaft body automatic loading and unloading device |
CN104128664A (en) * | 2014-07-11 | 2014-11-05 | 德清县宝华氟塑料工贸有限公司 | Auxiliary bowl edge trimming device of bench drill |
CN109623463A (en) * | 2018-12-12 | 2019-04-16 | 襄阳龙思达智控技术有限公司 | A kind of axis material beveler automatic loading and unloading device |
-
2009
- 2009-08-25 CN CN2009201732622U patent/CN201483288U/en not_active Expired - Lifetime
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101653914B (en) * | 2009-08-25 | 2011-07-20 | 北京第二机床厂有限公司 | Automatic loading and unloading device aiming at crankshaft |
CN103978424A (en) * | 2013-04-18 | 2014-08-13 | 廊坊市北方天宇机电技术有限公司 | Shaft body automatic loading and unloading device |
CN103978424B (en) * | 2013-04-18 | 2016-07-06 | 廊坊市北方天宇机电技术有限公司 | Axis body automatic handling device |
CN104128664A (en) * | 2014-07-11 | 2014-11-05 | 德清县宝华氟塑料工贸有限公司 | Auxiliary bowl edge trimming device of bench drill |
CN109623463A (en) * | 2018-12-12 | 2019-04-16 | 襄阳龙思达智控技术有限公司 | A kind of axis material beveler automatic loading and unloading device |
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Legal Events
Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20100526 Effective date of abandoning: 20090825 |