CN221140259U - Simple stacking material receiving machine - Google Patents

Abstract

The utility model discloses a simple stacking and receiving machine which comprises a frame, a feeding conveying line, a discharging conveying line, a material blocking frame, a material receiving table and a lifting mechanism. The feeding conveyor line is reasonable in structural design, the feeding conveyor line feeds the platy products, the platy products are accurately conveyed to the receiving platform when being conveyed to the tail end position and matched with the material blocking frame, then the lifting mechanism automatically drives the receiving platform to descend by a corresponding height, the upper surface of the platy products positioned at the highest position on the receiving platform is enabled to be level with the feeding conveyor line, stacking of the platy products of the next round is waited, manual stacking is not needed, investment of manual labor degree is reduced, and labor cost is saved. After stacking to required height, the lifting mechanism drives the material receiving table to rise to a height lower than that of the discharging conveying line, stacked platy products are placed on the discharging conveying line, the stacked platy products are conveyed to the next working procedure through the discharging conveying line, discharging speed and efficiency are effectively improved, and the requirement of mass production is met.

Description

Simple stacking material receiving machine

Technical Field

The utility model relates to the technical field of stacking, in particular to a simple stacking and receiving machine.

Background

At present, in the production and manufacturing of plate-shaped products, the formed plate-shaped products can be conveyed to a conveying line, workers are arranged beside the conveying line, the plate-shaped products are stacked and placed on a receiving tray through the workers, after the receiving tray is fully stacked with the plate-shaped products, the plate-shaped products are conveyed out through a conveying belt, in the whole process, manual stacking is adopted to enable the stacking efficiency of the plate-shaped products to be very low, labor intensity of manual input is high, labor cost is increased, and moreover, the stacking of the plate-shaped products is irregular easily caused in a manual stacking mode, so that the stacking quality of the plate-shaped products cannot be guaranteed.

In order to solve the above problems, as disclosed in the patent with publication number CN213111567U, the utility model entitled a stacking device discloses a stacking device, which comprises a conveying line assembly, a positioning lifting assembly, a lifting assembly and a plurality of trays, wherein the trays are firstly transported to the position of the positioning lifting assembly through the conveying line assembly, a lifting electric cylinder in the lifting assembly drives a lifting plate connected with a floating head connector, the lifting plate is lifted upwards to lift the trays, when the lifting is at a preset position, two C-shaped positioning plates are driven by the positioning cylinder to approach inwards, after clamping, the trays are lifted through a buffer cushion block, and the lifting assembly descends and resets to complete the stacking of the first tray; and then carrying out conveying of a second tray, when the second tray is conveyed to the position of the positioning lifting assembly, the clamping jaws on the two C-shaped positioning plates are outwards opened under the driving of the positioning air cylinders, the trays are lifted by the buffer cushion blocks to be placed on the second placed trays for overlapping, after the trays are placed stably, the trays are lifted up by the lifting plates upwards, the second lifting is carried out to a preset position, the two C-shaped positioning plates are inwards close for the second time under the driving of the positioning air cylinders, the clamping of the second time to the trays is completed, the lifting assemblies are continuously lifted through the buffer cushion blocks, the second descending and the resetting of the lifting assembly are completed, the stacking of the second time to the trays is completed, and step limiting pins on the trays of the layer are in limiting fit with limiting holes at the bottoms of the trays of the upper layer, if necessary, the stacking is continued, and the process is repeated. Although the automatic stacking can be realized, after the stacking to the required number, the stacking still needs to be manually carried and transferred to a production line of the next working procedure, such as a detection production line, an assembly production line or a packaging production line.

Disclosure of utility model

Aiming at the defects, the utility model aims to provide a simple stacking and receiving machine which is reasonable in structural design and can stack soft plates.

In order to achieve the above purpose, the technical scheme provided by the utility model is as follows:

The utility model provides a simple and easy receipts material machine that piles up, its includes frame, feeding transfer chain, ejection of compact transfer chain, keeps off work or material rest, connects material platform and elevating system, be equipped with high installation position and low installation position in the frame, the feeding transfer chain sets up on the high installation position, ejection of compact transfer chain sets up on the low installation position, just the head end of ejection of compact transfer chain is located the terminal below position of feeding transfer chain, it is located to keep off the work or material rest the terminal rear position of feeding transfer chain, elevating system is located the head end below position of ejection of compact transfer chain, connect the material platform to install on the elevating system, and receive elevating system's drive is stretched out or is retracted the upper surface of ejection of compact transfer chain.

As a preferable scheme of the utility model, the feeding conveying line comprises a fixed plate, a horizontal sliding rail, side frames, positive and negative screw rods, positive and negative screw nuts, a feeding driving device and feeding belt pulley groups, wherein the two fixed plates are relatively fixed at the positions of the two sides in front of the high installation position, the horizontal sliding rail is transversely arranged at the position behind the high installation position, the two side frames are respectively movably arranged on the horizontal sliding rail through sliding seats and can relatively move close to or separate from each other, the two ends of the positive and negative screw rods are arranged on the two fixed plates through bearings, the positive and negative screw rods are arranged on the two side frames and are matched with the positive and negative screw rods, the two groups of feeding belt pulley groups are correspondingly arranged on the two side frames, and the feeding driving device is arranged on the fixed plate and can drive the two groups of feeding belt pulley groups to operate, so that the purpose of conveying plate-shaped products is realized through the two groups of feeding belt pulley groups.

As a preferable scheme of the utility model, the feeding driving device comprises a feeding motor, a coupler and a spline shaft, wherein two ends of the spline shaft are arranged on two fixed plates through bearings, the feeding motor is arranged on the fixed plates and connected with the spline shaft through the coupler, and the spline shaft is driven to rotate through the feeding motor.

As a preferable scheme of the utility model, the feeding belt wheel set comprises a feeding driving wheel, a feeding driven wheel and a feeding belt, wherein the feeding driving wheel is arranged on the spline shaft through a spline shaft sleeve, and the feeding driven wheel is arranged at the head end of the side frame through a rotating shaft and is connected with the feeding driving wheel through the feeding belt. The feeding driving wheel drives the driven wheel to operate through the feeding belt, and the feeding belt bears the plate-shaped product, so that the feeding purpose is realized.

As a preferable scheme of the utility model, the side baffles are arranged on the side frames, so that the flow direction of the plate-shaped products can be better controlled, and the plate-shaped products are prevented from falling off in the conveying process.

As a preferable scheme of the utility model, the material blocking frame is L-shaped, one end of the material blocking frame is fixed on the fixed plate, the other end of the material blocking frame extends to the tail end of the feeding conveying line, and a blocking arm which extends vertically downwards is arranged, so that the plate-shaped product can be accurately positioned on the material receiving table through blocking of the blocking arm.

As a preferable scheme of the utility model, the discharging conveying line comprises a conveying frame, a plurality of groups of discharging belt wheel groups and a discharging driving device, wherein the plurality of groups of discharging belt wheel groups are arranged on the conveying frame at intervals, the discharging driving device is arranged on the conveying frame and can drive the plurality of groups of discharging belt wheel groups to synchronously operate, and the stacked plate-shaped products are sent out together through the synchronous operation of the plurality of groups of discharging belt wheel groups.

As a preferable scheme of the utility model, the discharging belt wheel set comprises a discharging driving shaft, a discharging driven shaft, a discharging driving wheel, a discharging driven wheel, a discharging belt and a discharging motor, wherein the discharging driving wheel is arranged at the front end of a conveying frame through the discharging driving shaft, the discharging driven wheel is arranged at the tail end of the conveying frame through the discharging driven shaft and is connected with the discharging driving wheel through the discharging belt, and the discharging motor is arranged on the conveying frame and is connected with the discharging driving shaft and is driven by the discharging motor to rotate.

As a preferable scheme of the utility model, the lifting mechanism comprises a vertical frame, a lifting seat, a lifting supporting rod, a vertical sliding rail, a lifting motor and a lifting screw rod, wherein the vertical frame is arranged on the frame or the conveying frame, the vertical sliding rail is arranged on the vertical frame, the position of the lifting screw rod corresponding to the vertical sliding rail is arranged on the vertical frame through a bearing seat, the lifting seat is movably arranged on the vertical sliding rail and is provided with a lifting nut matched with the lifting screw rod, the lifting motor is arranged on the vertical frame and is connected with the lifting screw rod, the lower end of the lifting supporting rod is fixed on the lifting seat, the upper end of the lifting supporting rod is aligned with the position between two adjacent discharging belt pulley groups, the material receiving table is arranged at the upper end of the lifting supporting rod, and the width of the material receiving table is smaller than the interval between the two adjacent discharging belt pulley groups so as to enable lifting action to be performed at the interval between the two adjacent discharging belt pulley groups.

As a preferable scheme of the utility model, the automatic material receiving device further comprises a material receiving replacing device, wherein the two material receiving replacing devices are symmetrically arranged at the tail ends of the two side frames, each material receiving replacing device comprises a support plate, a telescopic cylinder and a material receiving lifting plate, the telescopic cylinder is arranged at the outer side position of the side frame through the support plate, the material receiving lifting plate is arranged on a piston rod of the telescopic cylinder and driven by the telescopic cylinder to extend into the inner side position of the side frame, the purpose of temporarily receiving materials is achieved, the material receiving device waits for the bearing of a lifting mechanism, the normal operation of equipment is ensured, and the machine does not need to be stopped and waiting.

The beneficial effects of the utility model are as follows: the feeding conveyor line is reasonable in structural design, the feeding conveyor line feeds the platy products, the platy products are accurately conveyed to the receiving platform when being conveyed to the tail end position and matched with the material blocking frame, then the lifting mechanism automatically drives the receiving platform to descend by a corresponding height, the upper surface of the platy products positioned at the highest position on the receiving platform is enabled to be level with the feeding conveyor line, stacking of the platy products of the next round is waited, manual stacking is not needed, investment of manual labor degree is reduced, and labor cost is saved. After stacking to the required height, the lifting mechanism drives the material receiving table to be lifted to a height lower than that of the discharging conveying line, so that stacked platy products are placed on the discharging conveying line and conveyed to the next working procedure by the discharging conveying line, the discharging speed and efficiency are effectively improved, and the requirement of mass production is met; in addition, the whole structure is simple, the implementation is easy, the cost is low, and the wide popularization and application are facilitated.

The utility model will be further described with reference to the drawings and examples.

Drawings

Fig. 1 is a schematic perspective view of the present utility model.

Fig. 2 is a schematic view of the structure of the feed conveyor line in the present utility model.

Fig. 3 is a schematic view of an alternative material receiving device according to the present utility model.

Fig. 4 is a schematic structural view of the outfeed conveyor line in the present utility model.

Fig. 5 is a schematic structural view of the lifting mechanism in the present utility model.

Detailed Description

Referring to fig. 1 to 5, the present embodiment provides a simple stacking and receiving machine, which includes a frame 1, a feeding conveying line 2, a discharging conveying line 3, a material blocking frame 4, a material receiving table 5, a lifting mechanism 6 and a substitute material receiving device 7.

The machine frame 1 is provided with a high installation position 11 and a low installation position 12, and the height of the high installation position 11 is higher than that of the low installation position 12, so that a height difference is formed. The feeding conveying line 2 is arranged on the high mounting position 11, specifically, the feeding conveying line 2 comprises a fixing plate 21, a horizontal sliding rail 22, side frames 23, a positive and negative screw 24, a positive and negative screw 25, a feeding driving device 26 and a feeding belt pulley group 27, the two fixing plates 21 are relatively fixed at the front two sides of the high mounting position 11, the horizontal sliding rail 22 is transversely arranged at the rear position of the high mounting position 11, the two side frames 23 are respectively movably arranged on the horizontal sliding rail 22 through sliding seats and can relatively draw close or separate, the two ends of the positive and negative screw 24 are arranged on the two fixing plates 21 through bearings, the positive and negative screw 24 is matched with the positive and negative screw, and the positive and negative screw 24 can be manually or electrically driven to rotate so as to correspondingly adjust the interval between the two side frames 23, thereby being suitable for conveying plate-shaped products with different sizes.

The two feeding belt pulley groups 27 are correspondingly arranged on the two side frames 23, the feeding driving device 26 is arranged on the fixed plate 21 and can drive the two feeding belt pulley groups 27 to operate, and the purpose of conveying plate-shaped products is achieved through the two feeding belt pulley groups 27. The feeding driving device 26 comprises a feeding motor, a coupler and a spline shaft, two ends of the spline shaft are arranged on the two fixing plates 21 through bearings, the feeding motor is arranged on the fixing plates 21 and connected with the spline shaft through the coupler, and the spline shaft is driven to rotate through the feeding motor. The feeding belt pulley group 27 comprises a feeding driving pulley, a feeding driven pulley and a feeding belt, wherein the feeding driving pulley is arranged on the spline shaft through a spline shaft sleeve, and the feeding driven pulley is arranged at the head end of the side frame 23 through a rotating shaft and is connected with the feeding driving pulley through the feeding belt. The feeding driving wheel drives the driven wheel to operate through the feeding belt, and the feeding belt bears the plate-shaped product, so that the feeding purpose is realized. Preferably, the side baffles 28 are arranged on the side frames 23, so that the flow direction of the plate-shaped products can be better controlled through the guiding of the side baffles 28, and the plate-shaped products are prevented from falling off in the conveying process.

The discharging conveying line 3 is arranged on the low mounting position 12, and the head end of the discharging conveying line 3 is positioned below the tail end of the feeding conveying line 2. Preferably, the discharging conveyor line 3 may be disposed on the low mounting position 12 by a longitudinal slide bar 34, so as to adjust the position of the discharging conveyor line 3 relative to the feeding conveyor line 2, so as to adapt to the stacking of the plate-shaped products with different sizes. Specifically, the discharging conveying line 3 includes a conveying frame 31, a discharging belt pulley set 32 and a discharging driving device 33, where multiple groups of discharging belt pulley sets 32 are arranged at intervals on the conveying frame 31, in this embodiment, the number of the discharging belt pulley sets 32 is four, and in other embodiments, the number of the discharging belt pulley sets 32 can also be set independently according to the requirement, such as three groups, five groups, and so on. The discharge driving device 33 is disposed on the conveying frame 31, and can drive the multiple groups of discharge belt wheel sets 32 to run synchronously, and the stacked plate-shaped products are sent out together through the multiple groups of discharge belt wheel sets 32 to run synchronously. The discharging belt wheel set 32 comprises a discharging driving shaft, a discharging driven shaft, a discharging driving wheel, a discharging driven wheel, a discharging belt and a discharging motor, wherein the discharging driving wheel is arranged at the front end of the conveying frame 31 through the discharging driving shaft, the discharging driven wheel is arranged at the tail end of the conveying frame 31 through the discharging driven shaft and is connected with the discharging driving wheel through the discharging belt, and the discharging motor is arranged on the conveying frame 31 and is connected with the discharging driving shaft and is driven by the discharging motor to rotate.

The material blocking frame 4 is located at the rear end position of the feeding conveying line 2, specifically, the material blocking frame 4 is in an L shape, one end of the material blocking frame 4 is fixed on the fixed plate 21, the other end of the material blocking frame extends to the tail end position of the feeding conveying line 2, and a blocking arm 41 extending vertically downwards is arranged, and the plate-shaped product can be accurately positioned on the material receiving table 5 through blocking of the blocking arm 41.

The lifting mechanism 6 is located at a position below the head end of the discharging conveying line 3, and the receiving platform 5 is mounted on the lifting mechanism 6 and driven by the lifting mechanism 6 to extend or retract the upper surface of the discharging conveying line 3. Specifically, the lifting mechanism 6 includes a vertical frame 61, a lifting seat 62, a lifting supporting rod 63, a vertical sliding rail 64, a lifting motor 65 and a lifting screw rod 66, where the vertical frame 61 is disposed on the conveying frame 31, in other embodiments, the vertical frame 61 may also be disposed on the frame 1, the vertical sliding rail 64 is disposed on the vertical frame 61, the lifting screw rod 66 is disposed on the vertical frame 61 through a bearing seat corresponding to the position of the vertical sliding rail 64, the lifting seat 62 is movably disposed on the vertical sliding rail 64, and is provided with a lifting nut matched with the lifting screw rod 66, the lifting motor 65 is disposed on the vertical frame 61 and is connected with the lifting screw rod 66, the lower end of the lifting supporting rod 63 is fixed on the lifting seat 62, the upper end of the lifting supporting rod 63 is aligned with a position between two adjacent discharging belt pulley sets 32, and the material receiving platform 5 is mounted on the upper end of the lifting supporting rod 63, and the width of the material receiving platform 5 is smaller than the interval between two adjacent discharging belt pulley sets 32 so as to enable lifting motion between two adjacent discharging belt pulley sets 32.

The two replacing material receiving devices 7 are symmetrically arranged at the tail ends of the two side frames 23, each replacing material receiving device 7 comprises a support plate 71, a telescopic cylinder 72 and a lifting plate 73, the telescopic cylinder 72 is arranged at the outer side position of each side frame 23 through the support plate 71, the lifting plates 73 are arranged on piston rods of the telescopic cylinders 72 and driven by the telescopic cylinders 72 to extend into the inner side positions of the side frames 23, the purpose of temporary material receiving is achieved, the supporting of the lifting mechanism 6 is waited, the normal operation of equipment is ensured, and the waiting of shutdown is not needed.

During operation, the feeding conveyor line 2 feeds the platy products, the platy products are accurately conveyed to the receiving table 5 under the cooperation of the material blocking frame 4 at the tail end position, and then the lifting mechanism 6 automatically drives the receiving table 5 to descend by a corresponding height, so that the upper surface of the platy products positioned at the highest position on the receiving table 5 is level with the feeding conveyor line 2, and the platy products are stacked on the next round. After stacking to the required height, the lifting mechanism 6 drives the material receiving table 5 to be lifted to a height lower than the discharging conveying line 3, so that stacked platy products are placed on the discharging conveying line 3 and conveyed to the next process by the discharging conveying line 3. During the descending of the lifting mechanism 6, the piston rods of the two telescopic cylinders 72 extend simultaneously, so that the two receiving and lifting plates 73 extend into the inner side positions of the side frames 23 relatively simultaneously, at this time, the plate-shaped products limited by the material blocking frame 4 are automatically positioned on the two receiving and lifting plates 73, the two receiving and lifting plates 73 temporarily support the plate-shaped products, when the lifting mechanism 6 lifts the stacked plate-shaped products on the discharging conveying line 3 again, the receiving platform 5 passes through the receiving and lifting plates 73 from between the two receiving and lifting plates 73 to take over the plate-shaped products on the receiving and lifting plates 73, then, the piston rods of the two telescopic cylinders 72 retract simultaneously to drive the receiving and lifting plates 73 to retract to the initial positions, at this time, the receiving platform 5 supports the plate-shaped products, no shutdown is needed, the normal operation of the feeding conveying line 2 is ensured, and the working efficiency is high.

Variations and modifications to the above would be obvious to persons skilled in the art to which the utility model pertains from the foregoing description and teachings. Therefore, the utility model is not limited to the specific embodiments disclosed and described above, but some modifications and changes of the utility model should be also included in the scope of the claims of the utility model. In addition, although specific terms are used in the present specification, these terms are used for convenience of description and do not limit the present utility model in any way, and machines using other structures identical or similar thereto are all within the scope of the present utility model.

Claims (10)

1. The utility model provides a simple and easy receipts material machine that piles up, its includes the frame, its characterized in that, it includes feeding transfer chain, ejection of compact transfer chain, keeps off the work or material rest, connects material platform and elevating system, be equipped with high installation position and low installation position in the frame, feeding transfer chain sets up on the high installation position, ejection of compact transfer chain sets up on the low installation position, just the head end of ejection of compact transfer chain is located the terminal below position of feeding transfer chain, it is located to keep off the work or material rest the terminal rear position of feeding transfer chain, elevating system is located the head end below position of ejection of compact transfer chain, connect the material platform to install elevating system is last, and receive elevating system's drive is stretched out or is retracted the upper surface of ejection of compact transfer chain.

2. The simple stacking and receiving machine of claim 1, wherein: the feeding conveying line comprises fixing plates, horizontal sliding rails, side frames, positive and negative tooth screws, positive and negative tooth nuts, a feeding driving device and feeding belt pulley groups, wherein the two fixing plates are relatively fixed at the positions of the two sides in front of a high installation position, the horizontal sliding rails are transversely arranged at the positions of the rear of the high installation position, the two side frames are respectively movably arranged on the horizontal sliding rails through sliding seats and can relatively move close to or separate from each other, the two ends of the positive and negative tooth screws are arranged on the two fixing plates through bearings, the positive and negative tooth nuts are arranged on the two side frames and are matched with the positive and negative tooth screws, the two groups of feeding belt pulley groups are correspondingly arranged on the two side frames, and the feeding driving device is arranged on the fixing plates and can drive the two groups of feeding belt pulley groups to operate.

3. The simple stacking and receiving machine of claim 2, wherein: the feeding driving device comprises a feeding motor, a coupler and a spline shaft, wherein two ends of the spline shaft are arranged on two fixing plates through bearings, and the feeding motor is arranged on the fixing plates and connected with the spline shaft through the coupler.

4. A simple stacking and receiving machine according to claim 3, wherein: the feeding belt pulley group comprises a feeding driving wheel, a feeding driven wheel and a feeding belt, wherein the feeding driving wheel is arranged on the spline shaft through a spline shaft sleeve, and the feeding driven wheel is arranged at the head end of the side frame through a rotating shaft and is connected with the feeding driving wheel through the feeding belt.

5. The simple stacking and receiving machine of claim 4, wherein: and a side baffle is arranged on the side frame.

6. The simple stacking and receiving machine of claim 2, wherein: the material blocking frame is L-shaped, one end of the material blocking frame is fixed on the fixed plate, the other end of the material blocking frame extends to the tail end of the feeding conveying line, and a blocking arm extending vertically downwards is arranged.

7. The simple stacking and receiving machine of claim 2, wherein: the discharging conveying line comprises a conveying frame, discharging belt pulley groups and a discharging driving device, wherein a plurality of groups of discharging belt pulley groups are arranged at intervals on the conveying frame, and the discharging driving device is arranged on the conveying frame and can drive the plurality of groups of discharging belt pulley groups to synchronously operate.

8. The simple stacked receiver of claim 7, wherein: the discharging belt wheel set comprises a discharging driving shaft, a discharging driven shaft, a discharging driving wheel, a discharging driven wheel, a discharging belt and a discharging motor, wherein the discharging driving wheel is arranged at the front end of the conveying frame through the discharging driving shaft, the discharging driven wheel is arranged at the tail end of the conveying frame through the discharging driven shaft, the discharging belt is connected with the discharging driving wheel, and the discharging motor is arranged on the conveying frame and is connected with the discharging driving shaft.

9. The simple stacked receiver of claim 7, wherein: the lifting mechanism comprises a vertical frame, a lifting seat, a lifting supporting rod, a vertical sliding rail, a lifting motor and a lifting screw rod, wherein the vertical frame is arranged on the frame or the conveying frame, the vertical sliding rail is arranged on the vertical frame, the lifting screw rod corresponds to the position of the vertical sliding rail and is arranged on the vertical frame through a bearing seat, the lifting seat is movably arranged on the vertical sliding rail and is provided with a lifting nut matched with the lifting screw rod, the lifting motor is arranged on the vertical frame and is connected with the lifting screw rod, the lower end of the lifting supporting rod is fixed on the lifting seat, the upper end of the lifting supporting rod is aligned with the position between two adjacent discharging belt pulley groups, and the material receiving table is arranged at the upper end of the lifting supporting rod, and the width of the material receiving table is smaller than the interval between two adjacent discharging belt pulley groups.

10. The simple stacking and receiving machine according to any one of claims 2-9, wherein: the device comprises a side frame, a piston rod, a telescopic cylinder, a lifting plate, a support plate, a telescopic cylinder and a lifting plate.