CN215853763U - Keel sheet combining device and keel stacking device - Google Patents

Abstract

A fossil fragments close piece device and a fossil fragments pile up neatly device includes: the first positioning device and the rotating mechanism are arranged along the conveyor, and the rotating mechanism is positioned at the upstream of the first positioning device; the first positioning device is configured to stop the keel and convey the keel to the downstream; the rotating mechanism is configured to lift the first keel stopped by the first positioning device, rotate the first keel to enable the opening direction of the first keel to be downward and then loosen the first keel; the utility model provides a technical scheme has improved the stability that the limit fossil fragments closed the piece action and has closed the regularity of piece back limit bone, avoids the limit fossil fragments to produce the phenomenon of falling over. Greatly reducing the manual intervention degree and improving the production efficiency.

Description

Keel sheet combining device and keel stacking device

Technical Field

This paper relates to but not limited to fossil fragments closes piece technical field, especially relates to but not a limit fossil fragments and closes piece device.

Background

Compared with the common keel, the side keel is an irregular keel, and the heights of the left side and the right side of the keel are different and narrower. Therefore, the package and transportation of the edge keel are very complicated, and a large amount of manpower and material resources are occupied.

The edge bone sheet combining machine is a device which folds and buckles edge bones with two openings in the same direction to complete the sheet combining function of the edge bones, and edge keels after sheet combining are regular geometric bodies, so that the edge keel sheet combining machine is convenient to package and transport. Most of laminating machines used in the existing production line are in single linkage, and the consistency and the simultaneity of the cover turning action are difficult to keep. The flip success rate is not high; in the process, manual intervention is needed, and after the side keels are combined, the left side and the right side of each side keel are different in height, so that the side keels are easy to fall apart in the automatic transportation process (as shown in the attached drawing 6). Thereby the production cost is high; the production efficiency is low.

SUMMERY OF THE UTILITY MODEL

The following is a summary of the subject matter described in detail herein. This summary is not intended to limit the scope of the present application.

The embodiment of the application provides a keel sheet combining method, which comprises the following steps: carry appointed position with first fossil fragments, rotatory make behind the lifting of first fossil fragments opening direction is downward, carries appointed position with another fossil fragments, transfers first fossil fragments to make first fossil fragments and second fossil fragments lock together, obtains to close piece fossil fragments.

The keel sheet combining method provided by the embodiment of the application is characterized in that the first keel is placed after the first keel is turned over, the first keel enables the first keel and the second keel to be buckled together, the sheet combining edge keel is avoided, the influence of vibration generated when the keel is generally combined with sheets and then transferred back to a conveying device in the prior art on the sheet combining success rate of the sheet combining keel is avoided, the stability of the sheet combining action of the edge keel and the uniformity of the edge keel after the sheet combining are improved, and the phenomenon that the edge keel is inverted is avoided. Greatly reducing the manual intervention degree and improving the production efficiency.

In the keel sheet combining method provided by the embodiment of the application, the keels can be side keels, and the keel sheet combining method is obtained by buckling two side keels together in a rotating mode.

The embodiment of the application also provides a keel sheet combining device which comprises a first positioning device, a keel conveying device, a rotating mechanism and a control device;

the first positioning device and a rotating mechanism are arranged along the conveyor, the rotating mechanism being located upstream of the first positioning device;

the first positioning device is configured to stop the keel and convey the keel to the downstream;

the rotating mechanism is configured to be capable of rotating the first keel stopped by the first positioning device after being lifted, so that the opening direction of the first keel is downwards and then released;

the control device is configured to drive the first positioning mechanism to lift before the first keel is conveyed to the first positioning mechanism, so that the first keel stops at a specified position; driving the rotating mechanism to lift the first keel and rotate the first keel for 180 degrees; then the keel conveying device is driven to convey the second keel to the first positioning device; and then the rotating mechanism is driven to lower the first keel so that the first keel and the second keel are combined to obtain a combined keel.

The fossil fragments close piece device that this application embodiment provided can realize the limit fossil fragments of high success rate and close piece operation, has reduced workman's intensity of labour, the packing efficiency of the fossil fragments that improve.

Additional features and advantages of the application will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by the practice of the application. Other advantages of the present application may be realized and attained by the instrumentalities and methods described in the specification.

Drawings

The accompanying drawings are included to provide an understanding of the present disclosure and are incorporated in and constitute a part of this specification, illustrate embodiments of the disclosure and together with the examples serve to explain the principles of the disclosure and not to limit the disclosure.

Fig. 1 is a front view of the structure of a side keel stacking device in an embodiment of the application;

fig. 2 is a structural plan view of a side keel stacking device in an embodiment of the application;

FIG. 3 is a schematic view of the operation of the pusher, at which time the pusher waits for the side runners to be in place;

fig. 4 is a schematic diagram of the operation of the cargo pushing device, at which the cargo pushing device pulls the side keel to the second conveyor;

FIG. 5 is a schematic diagram of the operation of the pushing device, wherein the pushing device is reset and the protrusion is not extended to wait for the next pulling;

fig. 6 is a schematic view of the rotation mechanism, wherein the rotation mechanism waits for the first keel to be in place;

FIG. 7 is a schematic view of the rotation mechanism, wherein the rotation mechanism is raised and the first keel is tightened;

fig. 8 is a schematic action diagram of the rotating mechanism, at this time, the rotating mechanism rotates 180 degrees, and the first keel is loosened to complete the sheet combining action;

FIG. 9 is a schematic view of the rotation mechanism, when the sheet combination is completed, the rotation mechanism returns to the original position to wait for the next sheet combination;

fig. 10 is a flow chart of side keel stacking according to the embodiment of the application.

Fig. 11 is a schematic view of a closed sheet-side keel without a separate frame and a closed sheet-side keel of a separate frame in an embodiment of the present application.

Wherein, the relationship between the reference numbers and the part names in fig. 1 to 9 is:

the automatic stacking machine comprises a first positioning device 1, a second positioning device 2, a rotating mechanism 3, a side keel 4, a side keel 5 which is stacked, a second conveyor 6, a sheet-combining keel 7, a pushing-out device 8, a goods pulling device 9, a goods receiving device 10, a platform 101, a lifting platform 11, a goods pushing device 12, an aligning device 13 and a first conveyor 14.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, embodiments of the present application are described in detail below. It should be noted that the embodiments and features of the embodiments in the present application may be arbitrarily combined with each other without conflict.

As shown in fig. 1 and 2, the keel stacking device provided in this embodiment is arranged along the conveyor 6, and includes a first positioning device 1, a second positioning device 2 and a rotating mechanism 3;

the first positioning device 1 is positioned at the downstream of the second positioning device 2, and the rotating mechanism 3 is arranged at the upstream of the first positioning device 1 and at the downstream of the second positioning device 2;

the first positioning device 1 is driven by a control device, and the control device drives the first positioning device 1 to stop the first keel and the second keel to be conveyed downstream;

the rotating mechanism 3 is driven by a control device, the control device drives the rotating mechanism 3 to lift the first keel stopped by the first positioning device 1 through a lifter of the rotating mechanism to be higher than the height of one side keel, and the first keel is clamped through a clamping machine of the rotating mechanism and is rotated and loosened through the rotating device of the rotating mechanism; the rotating mechanism 3 may be bolted to the second conveyor 6 or to the main body frame of the entire apparatus by means of mounting brackets.

The second positioning device 2 is driven by a control device, and when the second keel passes through the second positioning device 2, the control device drives the second positioning device 2 to lift.

The first positioning device 1 and the second positioning device 2 can be air cylinders, electric cylinders or oil cylinders. The first positioning device 1 may be bolted to the frame of the second conveyor by means of mounting brackets.

As shown in fig. 6, 7, 8 and 9, when the first keel is conveyed to the first positioning device 1 and stops, the rotating mechanism 3 raises and tightens the first keel; conveying the second keel to the first positioning device 1 to stop, lifting the second positioning device 2 at the moment, and forming a U-shaped space by the first positioning device 1, the second positioning device 2 and the second conveyor 6 to ensure that the keels do not deviate when being combined and improve the success rate of combining the keels; the rotating mechanism 3 rotates the first keel; in one embodiment, the first keel may be rotated before the second keel is delivered to the first positioning device 1.

The gravity center of the first keel after rotation and the gravity center of the second keel stopped by the first positioning device 1 are not on the same vertical line, the gravity center of the first keel shifts to the upstream of the keel conveying direction, and the shifting distance is smaller than the width of one keel. So that the keel can directly fall down to form the sheet-combination keel 7.

And then the rotating mechanism 3 loosens the first keels, so that the two keels are buckled together to obtain a sheet combination keel 7, and the sheet combination operation of the two keels is completed. The rotating angle of the rotating mechanism 3 can be 180 degrees or other angles which can meet the requirement of the combination of the upper keel and the lower keel.

As shown in fig. 1 to 9, the keel pallet mechanism is provided with a push-out device 8, a cargo pulling device 9, a cargo receiving device 10 and a liftable platform 11.

In one embodiment, the pushing-out device 8 is controlled by a control device, when the first positioning device 1 does not stop the downstream transportation of the sheet combination keel 7 on the second conveyor 6 after the sheet combination of the first keel and the second keel is completed, the control device drives the pushing-out device 8 to push the second positioning device 2, so that the second positioning device 2 pushes the side wall of the sheet combination keel 7 to move downstream; the propelling movement speed of ejecting device 8 can be the same with the conveying speed of second conveyer 6 or set to other speeds that are favorable to avoiding closing piece fossil fragments 7 and loosing, ensures to close piece fossil fragments 7 and carry to liftable platform 11's stability on second conveyer 6, ensures not to produce the phenomenon of loosing when second conveyer 6 conveying closes piece fossil fragments 7 to liftable platform 11. The ejector 8 may be bolted to the frame of the second conveyor 6 by means of mounting brackets. In one embodiment, the ejector 8 may be an ejector cylinder.

In one embodiment, the second positioning device 2 can be fixed by means of a mounting frame on a gas lever support of the ejection device 8 by means of a screw, so that the second positioning device 2 can be moved synchronously with the ejection movement of the ejection device 8.

In one embodiment, the cargo pulling device 9 is controlled by a control device, when the second positioning device 2 and the pushing device 8 are retracted, the control device controls the cargo pulling device 9 to move the sheet combination keel 7, so that the sheet combination keel 7 can be clamped and moved when the sheet combination keel 7 is on the second conveyor 6, and the sheet combination keel 7 can be moved after the sheet combination keel 7 is moved down from the second conveyor 6, so that the sheet combination keel 7 is prevented from being scattered, and the sheet combination keel 7 is positioned on the platform 101 extending out of the cargo receiving device 10. The control device can also control the goods pulling device 9 to clamp the sheet combination keel 7 and transfer the sheet combination keel onto the platform 101 extending out of the goods receiving device 10. The control device controls the goods pulling device 9 to repeat the operation until the number of the sheet combination keels 7 on the platform 101 extending out of the goods receiving device 10 reaches the specified number. The goods pulling device 9 can move vertically and horizontally; the cargo pulling device 9 may be bolted to the frame of the second conveyor 6 or to the main body frame of the entire device by means of mounting brackets.

The goods receiving device 10 is controlled by the control device, the control device controls the goods receiving device to transfer the sheet combination keels 7 to the upper side of the lifting platform 11, and at the moment, one sheet combination keel 7 can be arranged on the lifting platform 11, or a plurality of sheet combination keels 7 which are arranged in order can be arranged. Then the goods receiving device 10 retracts the platform 101, so that the sheet combination keel 7 falls on the liftable platform 11; the receiving device 10 is provided with a stop (not shown) to avoid that the blade keel 7 continues to follow the platform 101 when the platform 101 is retracted. In one embodiment, the receiving device may be a receiving cylinder.

When the sheet combination keels 7 fall on the lifting platform 11, the lifting platform 11 descends by the height of one sheet combination keel 7, stacking of the sheet combination keels 7 is formed at the moment, a multi-layer stack of the sheet combination keels can be formed, the stacked edge keels 5 can be further moved out of the lifting platform 11, and subsequent operations such as bundling and packaging are facilitated; the liftable platform 11 is now returned to the home position to await receipt of the first lamination runner 7. The platform 101 of the receiver 10 may be extended again to receive the next batch of stitching keels 7. The cargo receiving device 10 may be bolted to the frame of the second conveyor 6 or to the main body frame of the entire mechanism by means of mounting brackets. The liftable platform can be fixed on the frame of the second conveyor 6 or the main body frame of the whole mechanism through mounting frame bolts.

As shown in fig. 1 to 3, the keel palletizing device is further provided with a pushing device 12 and an aligning device 13, the pushing device 12 is arranged at the upstream of the second positioning device 2 and can be fixed on the frame of the first conveyor 14 by bolts through a mounting frame, and the aligning device 13 is arranged between the pushing device 12 and the second positioning device 2. The goods pushing device 12 is provided with a protruding structure (not shown); the pusher 12 is driven by a control device and is able to transfer the keel from the first conveyor 14 to the second conveyor 6 by the raised structure.

The alignment device 13 is configured to operate the adjacent keels not to be displaced in the length direction, so that the keels are not shifted in the subsequent sheet-combining operation. The keels are fed by a first conveyor 14, pass through the aligning device 13, and are divided into two groups to enter the subsequent devices. The alignment device 13 may be bolted to the frame of the second conveyor 6 or to the main body frame of the entire device by means of mounting brackets.

In one embodiment, the second conveyor 6 is used for conveying the keels conveyed by the first conveyor 14 and transferred by the goods pushing device to the sheet combining device for sheet combining and then conveying the keels downstream for stacking, and the moving direction of the first conveyor 14 is perpendicular to the moving direction of the second conveyor 6.

In one embodiment, the keels are side keels 4.

Although the embodiments disclosed in the present application are described above, the descriptions are only for the convenience of understanding the present application, and are not intended to limit the present application. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the disclosure as defined by the appended claims.

Claims (10)

1. A keel sheet combining device is characterized by comprising a first positioning device, a keel conveying device, a rotating mechanism and a control device;

the first positioning device and a rotating mechanism are arranged along the conveyor, the rotating mechanism being located upstream of the first positioning device;

the first positioning device is configured to stop the keel and convey the keel to the downstream;

the rotating mechanism is configured to be capable of rotating the first keel stopped by the first positioning device after being lifted, so that the opening direction of the first keel is downwards and then released;

the control device is configured to drive the first positioning mechanism to lift before the first keel is conveyed to the first positioning mechanism, so that the first keel stops at a specified position; the driving rotating mechanism lifts the first keel and then rotates the first keel, so that the opening direction of the first keel is downward; then the keel conveying device is driven to convey the second keel to the first positioning device; and then the rotating mechanism is driven to lower the first keel so that the first keel and the second keel are combined to obtain a combined keel.

2. The keel sheet assembly of claim 1, wherein said rotation mechanism includes a gripper, a lifter, and a rotation device, said lifter lifting said rotation device, said rotation device rotating said gripper, said gripper gripping said first keel.

3. The keel sheet assembly of claim 2, wherein said keel sheet assembly further comprises a second positioning device;

the first positioning device, the second positioning device and the rotating mechanism are arranged along the conveyor, the first positioning device is positioned at the downstream of the second positioning device, the rotating mechanism is positioned at the upstream of the first positioning device, and the rotating mechanism is positioned at the downstream of the second positioning device;

the control device is also configured to drive the second positioning mechanism to lift after the second keel passes through the second positioning device.

4. The keel sheet assembly according to claim 3, wherein said rotating mechanism lifts said first keel to a height greater than the height of the keel;

the gravity center of the first keel after rotation and the gravity center of the second keel stopped by the first positioning device are not on the same vertical line.

5. A keel sheet-combining device according to any one of claims 2 to 4, wherein said first and second positioning devices are air cylinders or oil cylinders.

6. A keel stacking apparatus including a keel sheet-closing device as claimed in any one of claims 3 to 5,

the keel sheet-combining device also comprises a push-out device,

the push-out device is fixedly connected with the second positioning device and used for pushing or recovering the second positioning device.

7. The keel stacking device of claim 6, wherein the control device is further configured to drive the pushing device to push the second positioning device after the first keel and the second keel are completely combined, so that the second positioning device pushes the combined keel to move downstream.

8. The keel stacking device of claim 6, wherein said keel sheet-closing device further comprises a cargo pulling device, a cargo receiving device and a liftable platform,

the goods pulling device moves the sheet combination keel along with the keel conveying device;

the goods receiving device is configured to transfer the sheet combination keel to the upper part of the liftable platform;

the liftable platform is configured to bear the fitting keels.

9. The keel stacking apparatus of claim 8, wherein said control means is further configured to actuate said second positioning means to retract with said ejector means while actuating said pull mechanism to move said splice keel with the conveyor means and position said splice keel onto the platform from which said receiving means extends;

the control device is also configured to drive the receiving device to transfer the sheet combination keels to the upper part of the liftable platform and withdraw the platform, so that the sheet combination keels fall on the liftable platform;

the goods receiving device further comprises a stop piece, and when the platform is retracted, the sheet-combination keel is prevented from moving continuously along with the platform.

10. The keel stacking device of claim 9, further comprising a pusher device disposed upstream of a second positioning device and an alignment device disposed between the pusher device and the second positioning device;

the goods pushing device comprises a convex structure;

the control device is also configured to drive the goods pushing device to transfer the keel to the conveying device under the driving of the protruding structure;

the alignment device is configured to not displace two adjacent keels in the length direction.

Images