All conversion pay-offs in the middle of a kind of
Technical field
The utility model relates to pay-off of converting in a kind of middle week.
Background technology
In prior art, bearing roller needs to carry out outward appearance detection after cleaning completes, and when bearing roller was forwarded to appearance detecting device from cleaning apparatus week, general by artificial turnover, not only labour intensity is large, and easily the bump injury of bearing roller occurs, and easily causes complete bearing to produce vibration and occur different sound after there is the bearing roller loading bearing of bump injury, cause the early failure of bearing, reduce the service life of bearing.In addition, belt conveyor can be adopted to have enough to meet the need, although reduce labour intensity, because bearing roller is out rambling from cleaning apparatus afterwards, is easy to blocking turnover passage, thus affects follow-up detection efficiency.
Summary of the invention
There is above-mentioned deficiency to overcome in prior art, the utility model provide a kind of simple and compact for structure, easy to use, labour intensity is low, not easily bump injury, queuing feeding, feeding uniform in the middle of week conversion pay-off.
The technical scheme in the invention for solving the technical problem is: pay-off of converting in week in the middle of a kind of, comprise bench board, this bench board is turned left from the right side and is provided with the first feeding belt and the second feeding belt side by side, described first feeding belt by the first feeding driven by motor thus rotate, the rear end of described first feeding belt is inlet point, the front end of described first feeding belt is discharge import, described second feeding belt by the second feeding driven by motor thus rotate, the rear end of described second feeding belt is Discharge outlet, and the front end of described second feeding belt is discharging opening;
Discharge mechanism is provided with between described first feeding belt and the second feeding belt, this discharge mechanism comprises the multilayer adapter plate be arranged side by side, adapter plate described in one deck of low order end is just to described discharge import, adapter plate described in one deck of high order end is just to described Discharge outlet, be provided with between adapter plate described in adjacent two and driven by discharge driver train thus can go up, the portable plate of lower movement, the upper end of described adapter plate and portable plate is equipped with the inclined-plane of described first feeding belt dorsad, the upper surface that upper surface is moving down adapter plate described in the one deck on the right side of Shi Keyu of described portable plate flushes, described in the one deck on the left of the upper Shi Keyu of moving of the upper surface of described portable plate, the upper surface of adapter plate flushes,
The top of described discharge import is provided with the first pusher pushed to from described first feeding belt by workpiece on described adapter plate, the front of this first pusher is provided with front apron, this front apron is provided with first sensor, the rear of this first pusher is provided with the first erecting frame, and this first erecting frame is provided with the second sensor;
The outside at the middle part of described second feeding belt is provided with splicing case, the top of described second feeding belt is provided with the second pusher pushed to from described second feeding belt by workpiece in described splicing case, the front described second feeding belt being positioned at described Discharge outlet is provided with the second erecting frame, this second erecting frame is provided with sensor for countering, described second feeding belt is positioned at the front of described second erecting frame and the rear being positioned at described second pusher is provided with the 3rd erecting frame, the 3rd erecting frame is provided with the 3rd sensor.
Further, described discharge driver train comprises discharge cylinder, the mouth of this discharge cylinder is fixed with discharge push pedal, and the lower end of portable plate described in multilayer is all fixed in described discharge push pedal;
The front and rear sides of described adapter plate is provided with discharge baffle plate, and the forward and backward two ends of adapter plate described in multilayer are separately fixed on corresponding described discharge baffle plate.
Further, described first pusher comprises the first pusher cylinder, the mouth of this first pusher cylinder is provided with the first expeller in the discharge import being placed in described first feeding belt, this first expeller is provided with and runs through from front to back and downward opening first pusher road, and this first expeller can move between adapter plate described in one deck of described first feeding belt and low order end under the drive of described first pusher cylinder;
Described second pusher comprises the second pusher cylinder, the mouth of this second pusher cylinder is provided with the second expeller be placed on described second feeding belt, this second expeller is provided with and runs through from front to back and downward opening second pusher road, and this second expeller can move under the drive of described second pusher cylinder between described second feeding belt and described splicing case.
Further, the both sides of described first feeding belt and the second feeding belt are equipped with side shield.
The utility model in use, bearing roller enters the inlet point of the first feeding belt from the discharging opening of cleaning apparatus after cleaning apparatus is cleaned, first feeding belt rotates under the drive of the first feeding motor, bearing roller is transported to discharge import from inlet point by the first feeding belt, bearing roller enters in the first pusher passage of the first expeller one by one, whether the front end of first sensor to the first pusher passage has bearing roller to detect, whether the rear end of the second sensor to the first pusher passage has bearing roller to detect, when first sensor and the second sensor have detected bearing roller simultaneously, first pusher cylinder drives the first expeller to move to left thus is transferred on first adapter plate of low order end by row's bearing roller from the first feeding belt, then the first pusher cylinder drives the first expeller travelling backwards, now, the upper surface of the upper surface of portable plate and one deck adapter plate on right side flushes, upper surface due to adapter plate and portable plate is provided with the inclined-plane of the first feeding belt dorsad, such row's bearing roller is rolled to first portable plate from first adapter plate, then discharge cylinder drives in discharge push pedal and moves, discharge push pedal drives multi-layer movable plate to move simultaneously, now the upper surface of the upper surface of portable plate and one deck adapter plate in left side flushes, then row's bearing roller is rolled into second adapter plate from first portable plate, then discharge cylinder drives discharge push pedal to move down, discharge push pedal drives multi-layer movable plate to move down simultaneously, now the upper surface of portable plate flushes with the upper surface of one deck adapter plate on right side again, then row's bearing roller is rolled into second portable plate from second adapter plate, thus realize row's bearing roller to move on a rear portable plate from previous portable plate, circulate and so forth, until row's bearing roller moves to the Discharge outlet of the second feeding belt from one deck adapter plate of high order end, from the bearing roller formation formula in column that discharge mechanism gets off, then the second feeding belt rotates under the drive of the second feeding motor, second feeding belt drives bearing roller to be fed forward one by one from Discharge outlet, bearing roller passes from the second pusher passage of the second expeller one by one and is transported to one by one discharging opening, then enter appearance detecting device by discharging opening and carry out outward appearance detection, the number of sensor for countering to bearing roller is added up, when outward appearance detection speed is slow, then can block in the discharge outlet of the second feeding belt, 3rd sensor detects the bearing roller on the second feeding belt, when being positioned at the bearing roller pause several seconds of below of the 3rd sensor, second pusher cylinder drives the second expeller to move to left thus is transferred in splicing case by row's bearing roller from the second feeding belt, then the second pusher cylinder drives the second expeller travelling backwards, wait for action next time.
The beneficial effects of the utility model are: adopt said structure, realize the middle of bearing roller by two feeding belts and a discharge device and have enough to meet the need queuing feeding, not only simple and compact for structure, easy to use, labour intensity is low, and not easily bump injury, feeding speed can control.
Accompanying drawing explanation
Fig. 1 is birds-eye view of the present utility model.
Fig. 2 is front view of the present utility model.
Fig. 3 is block diagram of the present utility model.
Detailed description of the invention
Below in conjunction with the drawings and specific embodiments, the utility model is described in further detail.
With reference to Fig. 1 ~ Fig. 3, all conversion pay-offs in the middle of a kind of, comprise bench board 1, this bench board is turned left from the right side and is provided with the first feeding belt 2 and the second feeding belt 3 side by side, described first feeding belt is driven by the first feeding motor 4 thus is rotated, the rear end of described first feeding belt is inlet point 5, the front end of described first feeding belt is discharge import 6, described second feeding belt is driven by the second feeding motor 7 thus is rotated, the rear end of described second feeding belt is Discharge outlet 8, and the front end of described second feeding belt is discharging opening 9;
Discharge mechanism is provided with between described first feeding belt and the second feeding belt, this discharge mechanism comprises the multilayer adapter plate 10 be arranged side by side, adapter plate described in one deck of low order end is just to described discharge import 6, adapter plate described in one deck of high order end is just to described Discharge outlet 8, be provided with between adapter plate described in adjacent two and driven by discharge driver train thus can go up, the portable plate 11 of lower movement, the upper end of described adapter plate 10 and portable plate 11 is equipped with the inclined-plane of described first feeding belt dorsad, the upper surface that upper surface is moving down adapter plate described in the one deck on the right side of Shi Keyu of described portable plate flushes, described in the one deck on the left of the upper Shi Keyu of moving of the upper surface of described portable plate, the upper surface of adapter plate flushes,
The top of described discharge import 6 is provided with the first pusher pushed to from described first feeding belt by workpiece on described adapter plate, the front of this first pusher is provided with front apron 12, this front apron is provided with first sensor, the rear of this first pusher is provided with the first erecting frame 13, and this first erecting frame is provided with the second sensor;
The outside at the middle part of described second feeding belt is provided with splicing case 14, the top of described second feeding belt is provided with the second pusher pushed to from described second feeding belt by workpiece in described splicing case, the front described second feeding belt being positioned at described Discharge outlet is provided with the second erecting frame 15, this second erecting frame is provided with sensor for countering, described second feeding belt is positioned at the front of described second erecting frame and the rear being positioned at described second pusher is provided with the 3rd erecting frame the 16, three erecting frame is provided with the 3rd sensor.
Described discharge driver train comprises discharge cylinder 17, the mouth of this discharge cylinder is fixed with discharge push pedal 18, and the lower end of portable plate 11 described in multilayer is all fixed in described discharge push pedal 18;
The front and rear sides of described adapter plate 10 is provided with discharge baffle plate 19, and the forward and backward two ends of adapter plate 10 described in multilayer are separately fixed on corresponding described discharge baffle plate 19.
Described first pusher comprises the first pusher cylinder 20, the mouth of this first pusher cylinder be provided be placed in described first feeding belt discharge import on the first expeller 21, this first expeller is provided with and runs through from front to back and downward opening first pusher road, and this first expeller 21 can move between adapter plate 10 described in one deck of described first feeding belt 2 and low order end under the drive of described first pusher cylinder 20;
Described second pusher comprises the second pusher cylinder 22, the mouth of this second pusher cylinder is provided with the second expeller 23 be placed on described second feeding belt, this second expeller is provided with and runs through from front to back and downward opening second pusher road, and this second expeller 23 can move under the drive of described second pusher cylinder 22 between described second feeding belt 3 and described splicing case 14.
The both sides of described first feeding belt 2 and the second feeding belt 3 are equipped with side shield 24.
The utility model in use, bearing roller enters the inlet point 5 of the first feeding belt 2 from the discharging opening of cleaning apparatus after cleaning apparatus is cleaned, first feeding belt 2 rotates under the drive of the first feeding motor 4, bearing roller is transported to discharge import 6 from inlet point 5 by the first feeding belt, bearing roller enters in the first pusher passage of the first expeller 21 one by one, whether the front end of first sensor to the first pusher passage has bearing roller to detect, whether the rear end of the second sensor to the first pusher passage has bearing roller to detect, when first sensor and the second sensor have detected bearing roller simultaneously, first pusher cylinder 20 drives the first expeller 21 to move to left thus is transferred on first adapter plate 10 of low order end by row's bearing roller from the first feeding belt 2, then the first pusher cylinder 20 drives the first expeller 21 travelling backwards, now, the upper surface of the upper surface of portable plate 11 and one deck adapter plate 10 on right side flushes, upper surface due to adapter plate 10 and portable plate 11 is provided with the inclined-plane of the first feeding belt 2 dorsad, such row's bearing roller is rolled to first portable plate 11 from first adapter plate 10, then discharge cylinder 17 drives in discharge push pedal 18 and moves, discharge push pedal drives multi-layer movable plate 11 to move simultaneously, now the upper surface of the upper surface of portable plate 11 and one deck adapter plate 10 in left side flushes, then row's bearing roller is rolled into second adapter plate 10 from first portable plate 11, then discharge cylinder 17 drives discharge push pedal 18 to move down, discharge push pedal drives multi-layer movable plate 11 to move down simultaneously, now the upper surface of portable plate 11 flushes with the upper surface of one deck adapter plate 10 on right side again, then row's bearing roller is rolled into second portable plate 11 from second adapter plate 10, thus realize row's bearing roller to move on a rear portable plate from previous portable plate, circulate and so forth, until row's bearing roller moves to the Discharge outlet 8 of the second feeding belt 3 from one deck adapter plate 10 of high order end, from the bearing roller formation formula in column that discharge mechanism gets off, then the second feeding belt 3 rotates under the drive of the second feeding motor 7, second feeding belt 3 drives bearing roller to be fed forward one by one from Discharge outlet 8, bearing roller passes from the second pusher passage of the second expeller 23 one by one and is transported to discharging opening 9 one by one, then enter appearance detecting device by discharging opening 9 and carry out outward appearance detection, the number of sensor for countering to bearing roller is added up, when outward appearance detection speed is slow, then can block at discharging opening 9 place of the second feeding belt 3, 3rd sensor detects the bearing roller on the second feeding belt 3, when being positioned at the bearing roller pause several seconds of below of the 3rd sensor, second pusher cylinder 22 drives the second expeller 23 to move to left thus is transferred in splicing case 14 by row's bearing roller from the second feeding belt 3, then the second pusher cylinder 22 drives the second expeller 23 travelling backwards, wait for action next time.