CN108190443A - A kind of reversible bearing machining charging gear - Google Patents

Abstract

The purpose of the present invention is to provide a kind of reversible bearing machining charging gear, for solving to enable bearing (ball) cover with positive the technical issues of entering processing unit (plant).A kind of reversible bearing machining charging gear, including control system, feed hopper mechanism, detecting system, switching mechanism and the guide groove being electrically connected with control system；Invention advantageous effect：The present invention can be ensured that bearing (ball) cover, positive always to enter following process equipment.The feeder can realize that bearing (ball) cover gradually vertically enters the guiding groove mechanism；The detecting system can end the bearing (ball) cover from guide groove temporarily, and carry out forward and reverse detection；Bearing (ball) cover in reverse state can be carried out tuning by the switching mechanism.

Description

A kind of reversible bearing machining charging gear

Technical field

The present invention relates to bearing machining charging gear technical field, specifically a kind of reversible bearing machining feed Device.

Background technology

Bearing (ball) cover is one of common mechanical part in bearing assembling, needs processing one on a side end face of bearing (ball) cover Circle and the matched groove of other components.After Pocket Machining on bearing (ball) cover, it is also necessary to by following process equipment to recessed Slot carries out further friction finish-milling.It, not only cannot be to bearing if the direction that bearing (ball) cover is put into following process equipment is not right End cap is processed or even following process equipment can be damaged.

Invention content

The purpose of the present invention is to provide a kind of reversible bearing machining charging gear, for solving to enable bearing (ball) cover Enough the technical issues of processing unit (plant) is entered with forward direction.

The technical scheme adopted by the invention to solve the technical problem is that：

A kind of reversible bearing machining charging gear, including control system, the feed hopper machine being electrically connected with control system Structure, detecting system, switching mechanism and guide groove；The feed hopper mechanism includes rotatable delivery plate, mounted on delivery plate Interior interconnected feed sieve plate and feeder trough, the outlet of feeder trough is connected with the feed-stock outlet on delivery plate；The guide groove It is obliquely installed, the upper end of guide groove is connected with the feed-stock outlet, and guide groove lower end is connected with the feed inlet of detecting system；It is described Detecting system include the monitor station being obliquely installed, the testing stand on monitor station, the detect tank passed through below the testing stand, For detecting detection switch that part enters in detect tank, for detecting the detection switch of part end face characteristic state, Yi Jiyong In to entering the fixed cut-off cylinder of detected part in detect tank；The switching mechanism is located at the rear end of monitor station, including Turnover disc, the rotatable turning groove in turnover disc, turnover disc are equipped with corresponding with the both ends of turning groove respectively turn over Rotate into material mouth and overturning discharge port；The both ends of the detect tank connect respectively with the guide groove and overturning feed inlet.

Further, using arcuate structure, the front lower ends for being fed sieve plate are feeding screen mouth for the forepart of the feed sieve plate, The height of feeding screen mouth is more than double thickness of the thickness less than part to be processed of part to be processed.

Further, the distance of the bottom end of the feeder trough and delivery plate upper end is less than the thickness of part to be processed, feed The inner width of slot is more than the diameter of part to be processed but less than twice of size of part to be processed diameter.

Further, the feed-stock outlet uses slope.

Further, on the outside of the upper end of the guide groove anti-fall plate is equipped with the feed-stock outlet corresponding position.

Further, the internal height of the guide groove is more than the radius of part to be processed, and the inner broadside of guide groove is big In the thickness of part to be processed, but less than 1.2 times of part to be processed thickness.

The effect provided in invention content is only the effect of embodiment rather than invents all whole effects, above-mentioned A technical solution in technical solution has the following advantages that or advantageous effect：

The present invention can be ensured that bearing (ball) cover, positive always to enter following process equipment.The feeder can be real Existing bearing (ball) cover gradually vertically enters the guiding groove mechanism；The detecting system can be to the bearing end from guide groove The interim cut-off of lid, and carry out forward and reverse detection；The switching mechanism can adjust the bearing (ball) cover in reverse state To.

Description of the drawings

Fig. 1 is the overall structure schematic top plan view of the embodiment of the present invention；

Fig. 2 is the overall structure schematic side view of the embodiment of the present invention；

Fig. 3 is the structure schematic elevation view of detecting system in the embodiment of the present invention；

In figure：1. to rack；2. it is fed driving motor；3. delivery plate；4. it is fed sieve plate；5. feeder trough；6. feed-stock outlet； 7. feeding screen mouth；8. guide groove；9. anti-fall plate；10. monitor station；11. testing stand；12. detect tank；13. end cylinder；14. into Material detection optoelectronic switch；15. end surface measurement optoelectronic switch；16. turnover disc；17. turn drive motor；18. turning groove；After 19. Continuous process equipment feed inlet；20. control cabinet.

Specific embodiment

In order to clearly illustrate the technical characterstic of this programme, below by specific embodiment, and its attached drawing is combined, to this Invention is described in detail.It should be noted that illustrated component is not drawn necessarily to scale in the accompanying drawings.Present invention omits right Known assemblies and technology describe to be unnecessarily limiting the present invention.

As shown in Figure 1 to Figure 3, a kind of reversible bearing machining charging gear including feed hopper mechanism, is oriented to scouring machine Structure, detecting system, switching mechanism and control system.

The feeder is located at the peak of package unit, and feeder includes to rack 1, feed driving motor 2, gives Charging tray 3, feed sieve plate 4 and feeder trough 5.Support and the other portions of installation are played in the bottom for being located at feeder to rack 1 The effect of part；The bottom end of the delivery plate 3 is rotatably mounted on the upper end to rack 1 by bearing.Feed driving electricity Machine 2 is mounted on on rack 1, and the power output end of feed driving motor 2 is connect with the shaft of the delivery plate 3, for driving The rotation of delivery plate 3；The signal end of feed driving motor 2 is electrically connected with the control system.It is used to hold in the delivery plate 3 Processed bearing (ball) cover is needed, and bearing (ball) cover is sent into the guiding groove mechanism；Delivery plate 3 is whole to use cylindrical tube shape Structure, the side of delivery plate 3 are equipped with the feed-stock outlet 6 connected with the guiding groove mechanism entrance.The feed sieve plate 4 is mounted on Side in the delivery plate 3, the front end of feed sieve plate 4 are connect with the internal chamber wall of delivery plate 3, are fed rear end and the institute of sieve plate 4 State the outside connection of feeder trough 5；The front lower ends for being fed sieve plate 4 are equipped with feeding screen mouth 7, and the height of feeding screen mouth 7 is more than bearing The thickness of end cap is less than the double thickness of bearing (ball) cover, and feeding screen mouth 7 connects delivery plate 3 and feeder trough 5；Before being fed sieve plate 4 Portion uses arcuate structure, bearing (ball) cover to be facilitated to enter feeding screen mouth 7.The feeder trough 5 is mounted in the delivery plate 3, and Positioned at the outside of the feed sieve plate 4；Inner cavity of the both ends of the cell wall of feeder trough 5 respectively with delivery plate 3 is connect, feeder trough 5 The distance of bottom end and 3 upper end of delivery plate is less than the thickness of bearing (ball) cover, and the inner width of feeder trough 5 is more than the diameter of bearing (ball) cover But less than twice of size of bearing (ball) cover diameter；The outlet of the feeder trough 5 is connected with the feed-stock outlet 6.It is described to be fed out Mouth 6 is vertical to enter in guiding groove mechanism to ensure bearing (ball) cover after the landing of feed-stock outlet 6 using slope.At work, Delivery plate 3 is rotated by being fed the driving of driving motor 2, and the bearing (ball) cover in delivery plate 3 will gradually be entered by feeding screen mouth 7 to be given In hopper 5；Bearing (ball) cover in feeder trough 5 continues to be acted on by 3 upper end frictional force of delivery plate, along 5 outside sidesway of feeder trough It is dynamic, enter eventually by feeding screen mouth 7 and be oriented in groove mechanism.

The groove mechanism that is oriented to is used to the interior bearing (ball) cover slid of delivery plate 3 being oriented to the detecting system, guide groove Mechanism is diagonally-installed, and the upper end for being oriented to groove mechanism is mounted at the feed-stock outlet 6 of the delivery plate 3, is oriented to the lower end of groove mechanism At the charging port of detecting system.The guiding groove mechanism includes leading truck and guide groove 8, and guide groove 8 is mounted on and leads To the upper end of frame, the internal height of guide groove 8 is more than the radius of bearing (ball) cover, and the inner broadside of guide groove 8 is more than bearing (ball) cover Thickness, but less than 1.2 times of bearing (ball) cover thickness；It can ensure that bearing (ball) cover smoothly rolls downwards in guide groove 8 in this way It is dynamic.Anti-fall plate 9 is equipped with 6 corresponding position of feed-stock outlet on the outside of the upper end of the guide groove 8, the anti-fall plate 9 can prevent When bearing (ball) cover slides at feed-stock outlet 6, guide groove 8 is dropped out due to excessive velocities.

The detecting system is sent to institute for whether detecting bearing (ball) cover in positive setting direction by signal is detected State control system, control system is to decide whether to adjust the direction of bearing (ball) cover by switching mechanism.The detecting system packet Include monitor station 10, testing stand 11, detect tank 12, cut-off cylinder 13, charging detection optoelectronic switch 14 and end surface measurement optoelectronic switch 15, the monitor station 10 is located at the lower end of the guide groove 8, and the upper surface of monitor station 10 is using inclined-plane, 12 oblique peace of detect tank On monitor station 10, the lower end outlet of the upper end of detect tank 12 and the guide groove 8, the lower end of detect tank 12 with it is described Switching mechanism connects；The internal height of detect tank 12 be more than bearing (ball) cover radius but less than bearing (ball) cover diameter three/ Two, the inner broadside of detect tank 12 is more than the thickness of bearing (ball) cover, but less than 1.2 times of bearing (ball) cover thickness.The charging inspection It surveys optoelectronic switch 14 and is mounted on the front end side of the detect tank 12, for detecting whether there is bearing (ball) cover to enter detect tank 12, Charging detection optoelectronic switch 14 is electrically connected with the control system.The testing stand 11 uses frame structure, and testing stand 11 is installed In the top of the monitor station 10, the detect tank 12 is passed through from the lower section of testing stand 11.The cut-off cylinder 13 is mounted on institute The upper end of testing stand 11 is stated, is passed through out of detect tank 12 for ending bearing (ball) cover temporarily, cut-off cylinder 13 is automatically controlled by cylinder Switch and tracheae are connect with external air feed equipment, and cylinder electric-controlled switch is electrically connected with the control system.The end surface measurement light Electric switch 15 is mounted on the side on the testing stand 11, for detecting the end of bearing (ball) cover ended by cut-off cylinder 13 temporarily Planar condition, and it is transferred to the control system by signal is detected.At work, when charging detection Photoelectric Detection to bearing (ball) cover Into after detect tank 12, control system is to stretch out the axis for pressing into detect tank 12 by ending the power output end of cylinder 13 Socket end covers end, and then end surface measurement optoelectronic switch 15 is detected whether have processing ditch to the bearing face side pressed Slot, and testing result is transferred to control system；Then, the power output end of control system control cut-off cylinder 13 is retracted, inspection Bearing (ball) cover after survey enters the switching mechanism.If the bearing (ball) cover that end surface measurement optoelectronic switch 15 detects is in just To processing groove end face, then bearing (ball) cover will pass through switching mechanism and enter following process equipment；If end face is examined Survey the state that the bearing (ball) cover that optoelectronic switch 15 detects is in opposite with positive processing groove end face, then bearing (ball) cover enters After switching mechanism, switching mechanism will drive 180 ° of steerings of bearing (ball) cover, then enter back into following process equipment.

The switching mechanism is mounted on the rear end of the monitor station 10, and switching mechanism includes turnover disc 16, overturning driving electricity Machine 17 and turning groove 18.The upper end of the turnover disc 16 is equipped with overturning feed inlet, overturns under feed inlet and the detect tank 12 Hold discharge end connection；The lower end of turnover disc 16 is equipped with overturning discharge port, overturning discharge port and bearing (ball) cover following process equipment into Material mouth 19 connects.The turning groove 18 is rotatably mounted in the turnover disc 16, and the turn drive motor 17 is installed In the lower end of the turnover disc 16, the rotation axis connection of the power output end of turn drive motor 17 and the turning groove 18；It turns over Turn driving motor 17 to be electrically connected with the control system.Feed inlet is corresponding sets with the overturning for one end of the turning groove 18 It puts, the other end is correspondingly arranged with the overturning discharge port.When the bearing (ball) cover that end surface measurement optoelectronic switch 15 detects is in just To processing groove end face, switching mechanism be in reset stationary state, then bearing (ball) cover will pass through turning groove 18 into Enter following process equipment；If the bearing (ball) cover that end surface measurement optoelectronic switch 15 detects is in and forward direction processing groove end face phase Anti- state, then after bearing (ball) cover enters turning groove 18, turn drive motor 17 will drive turning groove 18 to carry out 180 ° of steerings, I.e. 180 ° of bearing (ball) cover enters back into following process equipment after turning to；It can be ensured that bearing (ball) cover is positive always in this way and enter follow-up add Construction equipment feed inlet 19.

The control system includes control cabinet 20, controller and manipulation plate, and the controller and control panel are pacified respectively On control cabinet 20, control cabinet 20 is mounted on the monitor station 10.The controller use microcontroller, controller respectively with Above-mentioned each control function component electrical connection.

This have the advantage that：The present invention can be ensured that bearing (ball) cover, positive always to be set into following process It is standby.The feeder can realize that bearing (ball) cover gradually vertically enters the guiding groove mechanism；The detecting system Bearing (ball) cover from guide groove can be ended temporarily, and carry out forward and reverse detection；The switching mechanism can will be in The bearing (ball) cover of reverse state carries out tuning.

It is the known technology of those skilled in the art in addition to the technical characteristic described in specification.

Above-mentioned, although the foregoing specific embodiments of the present invention is described with reference to the accompanying drawings, not protects model to the present invention The limitation enclosed, on the basis of technical solution of the present invention, those skilled in the art, which would not require any inventive effort, to be done The various modifications or changes gone out are still within the scope of the present invention.

Claims (6)

1. a kind of reversible bearing machining charging gear, it is characterized in that, including control system, be electrically connected with control system to Feed bin mechanism, detecting system, switching mechanism and guide groove；The feed hopper mechanism includes rotatable delivery plate, is mounted on The feed sieve plate and feeder trough being interconnected in delivery plate, the outlet of feeder trough is connected with the feed-stock outlet on delivery plate；It is described Guide groove is obliquely installed, and the upper end of guide groove is connected with the feed-stock outlet, and the feed inlet of guide groove lower end and detecting system connects It is logical；The detecting system includes the monitor station being obliquely installed, the testing stand on monitor station, passes through below the testing stand Detect tank, for detect detection switch that part enters in detect tank, for detect the detection switch of part end face characteristic state, And for entering the fixed cut-off cylinder of detected part in detect tank；After the switching mechanism is located at monitor station End, including turnover disc, the rotatable turning groove in turnover disc, turnover disc be equipped with respectively with the both ends pair of turning groove The overturning feed inlet and overturning discharge port answered；The both ends of the detect tank connect respectively with the guide groove and overturning feed inlet It is logical.

2. a kind of reversible bearing machining charging gear according to claim 1, it is characterized in that, the feed sieve plate Forepart uses arcuate structure, and the front lower ends for being fed sieve plate are feeding screen mouth, and the height of feeding screen mouth is more than part to be processed Thickness is less than the double thickness of part to be processed.

3. a kind of reversible bearing machining charging gear according to claim 1, it is characterized in that, the bottom of the feeder trough The distance of end and delivery plate upper end is less than the thickness of part to be processed, and the inner width of feeder trough is more than the diameter of part to be processed But less than twice of size of part to be processed diameter.

4. a kind of reversible bearing machining charging gear according to claim 1, it is characterized in that, the feed-stock outlet is adopted Use slope.

5. a kind of reversible bearing machining charging gear according to claim 4, it is characterized in that, the guide groove it is upper End outside is equipped with anti-fall plate with the feed-stock outlet corresponding position.

6. a kind of reversible bearing machining charging gear according to claim 1, it is characterized in that, the guide groove it is interior Portion's height is more than the radius of part to be processed, and the inner broadside of guide groove is more than the thickness of part to be processed, but less than processed 1.2 times of part thickness.