CN212024297U - 3-layer 5-layer 7-layer 9-layer corrugated board integrated production line - Google Patents

Abstract

The utility model discloses a 3 integration assembly line of 5 layers of 7 layers of 9 layers corrugated container board, stack device and layer board including carriage, corrugated container board, the layer board is placed inside corrugated container board stack device's bottom, corrugated container board stack device fixed connection is in the one end of carriage, the top surface movable mounting of carriage has the conveyer belt, corrugated container board has been placed to the upper surface of conveyer belt, a bottom terminal surface of carriage evenly sets up threaded hole, corrugated container board stack device's inside fixed mounting has spacing mount, the surface engagement of cardboard tray is connected with adjusting device, the cogged rail has all been seted up to the both sides face of spacing mount, the one end side of cardboard tray and the skin weld who is located the location axle have driven gear. The utility model discloses can avoid increasing staff's quantity, reduce cost's expenditure improves work efficiency, realizes stacking corrugated container board's automation.

Description

3-layer 5-layer 7-layer 9-layer corrugated board integrated production line

Technical Field

The utility model relates to a corrugated container board integration assembly line equipment technical field specifically is 3 layers of 5 layers of 7 layers of 9 layers of corrugated container board integration assembly lines.

Background

The corrugated board production line is the essential main production equipment in the corrugated packaging industry, from a single-corrugated board production line to a 3-corrugated board production line, the application base paper is also different from 2 layers to 7 layers, especially double-corrugated boards and 3-corrugated boards, 5 layers to 7 layers of base paper are frequently used, so that the multiple layers of base paper are respectively distributed on a production line with the length of more than 100 meters at intervals, each layer of base paper is subjected to a plurality of guide paper rollers, a preheater, two guide paper rollers on the preheater and the like in the process of running from a roll paper bracket to a corrugated single-face machine, the automatic stacking can not be realized after the existing integrated production line of the corrugated boards with various specifications is processed and produced, the processed corrugated boards can be transported to a stacking area by a conveyor belt, then the corrugated boards are manually stacked on the upper surface of a supporting plate for stacking, thereby increasing the number of workers and increasing the cost, so 3 layers of 5 layers and 7, to solve the problems set forth above.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a 3 layer 5 layers 7 layers 9 layers corrugated container board integration assembly lines to solve the problem of proposing among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: the integrated assembly line comprises a conveying frame, a corrugated board stacking device and a supporting board, wherein the supporting board is placed inside the bottom end of the corrugated board stacking device, the corrugated board stacking device is fixedly connected to one end of the conveying frame, a conveying belt is movably mounted on the top surface of the conveying frame, corrugated boards are placed on the upper surface of the conveying belt, threaded holes are uniformly formed in one end face of the bottom of the conveying frame, a limiting fixing frame is fixedly mounted inside the corrugated board stacking device, two side faces of the limiting fixing frame are both movably mounted with a paper board supporting block, the outer surface of the paper board supporting block is connected with an adjusting device in a meshed mode, two side faces of the limiting fixing frame are both provided with toothed rails, two side faces of the limiting fixing frame and edges of the two side faces located on the toothed rails are both provided with T-shaped limiting sliding grooves, two sides of the limiting fixing frame, the utility model discloses a cardboard tray, including cardboard tray, adjusting device, drive motor, locating shaft, driven gear, runner, electric motor, connecting arm, distance sensor, the equal fixed mounting in two sides center has distance sensor about the one end edge of cardboard tray, the welding of cardboard tray other end edge side has the locating shaft, the both ends face of locating shaft has all welded spacing cardboard, the outer skin weld who just is located the locating shaft in the one end side of cardboard tray has driven gear, adjusting device's inside fixed mounting has driving motor, the first drive gear of one end fixedly connected with of driving motor, driving motor's skin weld has two sets of connecting plates, the both ends of connecting plate are rotated and are installed the runner, driving motor's central skin weld has electric motor, electric motor's the central fixedly connected with second drive gear.

Preferably, the limiting fixing frame is fixedly connected with a threaded hole in one end face of the bottom of the conveying frame in a screwed mode through a fastening screw on one side of the bottom end of the limiting fixing frame.

Preferably, the cardboard supporting blocks and the adjusting devices are respectively divided into four groups on one side of the limiting fixing frame, the first group and the third group run synchronously, and the second group and the fourth group run synchronously.

Preferably, the paperboard supporting block is movably clamped with the limiting clamping grooves through limiting clamping plates at two ends of the positioning shaft.

Preferably, the adjusting device is movably clamped with the inner surface of a T-shaped limiting sliding groove on the side surface of the limiting fixing frame through a rotating wheel on the outer surface of the driving motor.

Preferably, the driving motor is meshed and clamped with a driven gear in the paperboard supporting block through a first driving gear at one end.

Preferably, a gap is reserved between the outer surface of the positioning shaft and the driven gear at one end of the paperboard supporting block, and the driving motor is movably sleeved with the gap reserved on the outer surface of the positioning shaft through a sleeving hole in the side surface of one end of the outer surface connecting arm.

Preferably, the electric motor is meshed and connected with a rack on the outer side surface of the limit fixing frame through a second driving gear at one end.

Preferably, the trigger distance set by the distance sensor is the length of the distance sensor plus 4 cm.

Preferably, the bottom surface of the corrugated board is movably contacted with the upper surface of the board supporting block.

Compared with the prior art, the beneficial effects of the utility model are as follows:

the utility model has the advantages that the limiting fixing frame is screwed and fixedly connected with the threaded hole on one end face of the bottom of the conveying frame through the fastening screw on one side of the bottom end, thereby playing a fastening role between the conveying frame and the stacking device of the corrugated board, the paperboard supporting blocks and the adjusting device are respectively divided into four groups on one side of the limiting fixing frame, the first group and the third group run synchronously, the second group and the fourth group run synchronously, thereby being capable of continuously bearing the corrugated board, the paperboard supporting blocks are movably clamped with the limiting clamping grooves through the limiting clamping plates on the two ends of the positioning shaft, thereby being capable of leading the paperboard supporting blocks to lift up and down on the side of the limiting fixing frame to stack the corrugated board, the adjusting device is movably clamped with the inner surface of the T-shaped limiting sliding groove on the side of the limiting fixing frame through the rotating wheel on the outer surface of the driving motor, thereby being, the driving motor is meshed and clamped with the driven gear in the paper board supporting block through the first driving gear at one end, so that the paper board supporting block can be driven to rotate at the side face of the limiting fixing frame, corrugated paper boards are conveniently placed on the upper surface of the supporting plate, a gap reserved between the outer surface of the positioning shaft and the driven gear at one end of the paper board supporting block can enable the driving motor to be movably sleeved with the gap reserved on the outer surface of the positioning shaft through the sleeving hole in the side face of one end of the outer surface connecting arm, so that the paper board supporting block is driven to ascend and descend up and down when the driving motor ascends and descends, the electric motor is meshed and connected with the rack rail on the outer side face of the limiting fixing frame through the second driving gear at one end, the driving motor can be driven to ascend and descend up and down on the outer side face of the limiting fixing frame, the triggering distance set, through the stacking of the corrugated board supporting block, the number of workers can be prevented from being increased, the cost is reduced, and the working efficiency is improved.

Drawings

FIG. 1 is a schematic view of the main structure of the present invention;

FIG. 2 is a schematic structural view of the conveying frame of the present invention;

fig. 3 is a schematic structural view of a corrugated board stacking device of the present invention;

FIG. 4 is a schematic view of the structure of the limit fixing frame of the present invention;

FIG. 5 is a schematic structural view of a paper board supporting block of the present invention;

fig. 6 is a schematic structural diagram of the adjusting device of the present invention.

In the figure: the automatic corrugated board stacking device comprises a conveying frame 1, a corrugated board stacking device 2, a supporting plate 3, a conveying belt 4, threaded holes 5, a corrugated board 6, a corrugated board supporting block 7, an adjusting device 8, a limiting fixing frame 9, a fastening screw 10, a toothed rail 11, a limiting sliding chute 12-T, a limiting clamping groove 13, a distance sensor 14, a driven gear 15, a limiting clamping plate 16, a positioning shaft 17, a rotating wheel 18, a first driving gear 19, a second driving gear 20, an electric motor 21, a driving motor 22, a connecting plate 23, a connecting arm 24 and a sleeving hole 25.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-6, the present invention provides an embodiment: an integrated assembly line for 3 layers of 5 layers of 7 layers of 9 layers of corrugated boards comprises a conveying frame 1, a corrugated board stacking device 2 and a supporting plate 3, wherein the supporting plate 3 is placed inside the bottom end of the corrugated board stacking device 2, the corrugated board stacking device 2 is fixedly connected to one end of the conveying frame 1, a conveying belt 4 is movably mounted on the top surface of the conveying frame 1, corrugated boards 6 are placed on the upper surface of the conveying belt 4, threaded holes 5 are uniformly formed in one end surface of the bottom of the conveying frame 1, a limiting fixing frame 9 is fixedly mounted inside the corrugated board stacking device 2, two side surfaces of the limiting fixing frame 9 are respectively and movably provided with a paper board supporting block 7, the outer surface of the paper board supporting block 7 is meshed and connected with an adjusting device 8, toothed rails 11 are respectively arranged on two side surfaces of the limiting fixing frame 9, T-shaped limiting sliding grooves 12 are respectively arranged on two side surfaces of the limiting fixing frame, distance sensors 14 are fixedly mounted at the upper and lower centers of one end edge of the paperboard supporting block 7, a positioning shaft 17 is welded at the other end edge side of the paperboard supporting block 7, limiting clamping plates 16 are welded at two end faces of the positioning shaft 17, a driven gear 15 is welded at one end side of the paperboard supporting block 7 and on the outer surface of the positioning shaft 17, a driving motor 22 is fixedly mounted inside the adjusting device 8, a first driving gear 19 is fixedly connected at one end of the driving motor 22, two groups of connecting plates 23 are welded on the outer surface of the driving motor 22, rotating wheels 18 are rotatably mounted at two ends of the connecting plates 23, an electric motor 21 is welded at the outer surface of the center of the driving motor 22, a second driving gear 20 is fixedly connected at one end center of the electric motor 21, a connecting arm 24 is welded on the outer surface of the driving motor 22, the electric motor 21 and the driving motor 22 both belong to the existing devices, and the programs for controlling the electric motor 21 and the driving motor 22 also belong to the prior art, so that the details are not described herein, the limit fixing frame 9 is spirally fastened and connected with the threaded hole 5 on one end face of the bottom of the conveying frame 1 through the fastening screw 10 on one side of the bottom end, so as to fasten the conveying frame 1 and the corrugated board stacking device 2, the cardboard support blocks 7 and the adjusting device 8 are respectively divided into four groups on one side of the limit fixing frame 9, the first group and the third group run synchronously, the second group and the fourth group run synchronously, so as to continuously receive the corrugated boards 6, the cardboard support blocks 7 are movably clamped with the limit clamping grooves 13 through the limit clamping plates 16 on the two ends of the positioning shaft 17, so as to enable the cardboard support blocks 7 to ascend and descend up and down on the side face of the limit fixing frame 9 to, the adjusting device 8 is movably clamped with the inner surface of a T-shaped limiting sliding groove 12 on the side surface of a limiting fixing frame 9 through a rotating wheel 18 on the outer surface of a driving motor 22, the sliding fluency of the driving motor 22 on the side surface of the limiting fixing frame 9 can be improved, the driving motor 22 is limited to be separated from the limiting fixing frame 9, the driving motor 22 is meshed and clamped with a driven gear 15 inside a paperboard supporting block 7 through a first driving gear 19 on one end, so that the rotation angle of the paperboard supporting block 7 on the side surface of the limiting fixing frame 9 can be driven, the corrugated paperboard 6 is conveniently placed on the upper surface of a supporting plate 3, a gap reserved between the outer surface of a positioning shaft 17 and the driven gear 15 on one end of the paperboard supporting block 7 can be enabled to be movably sleeved with the gap reserved on the outer surface of the positioning shaft 17 through a sleeving hole 25 on the side surface of a connecting arm 24 on the outer surface, electric motor 21 meshes with the cogged rail 11 of spacing mount 9 lateral surface through the second drive gear 20 of one end and is connected, can drive driving motor 22 at the lateral surface oscilaltion of spacing mount 9, the trigger distance that distance sensor 14 set for is self length plus 4cm, can avoid cardboard tray 7 to collide with the upper surface of layer board 3 when rotating, stack through cardboard tray 7 to corrugated container board 6, can avoid increasing staff's quantity, reduce cost's expenditure, the efficiency of work is improved.

The limiting fixing frame 9 is spirally fastened and connected with a threaded hole 5 on one end face of the bottom of the conveying frame 1 through a fastening screw 10 on one side of the bottom end, the paperboard supporting block 7 and the adjusting device 8 are respectively divided into four groups on one side of the limiting fixing frame 9, the first group and the third group run synchronously, the second group and the fourth group run synchronously, the paperboard supporting block 7 is movably clamped with a limiting clamping groove 13 through a limiting clamping plate 16 on two ends of a positioning shaft 17, the adjusting device 8 is movably clamped with the inner surface of a T-shaped limiting sliding groove 12 on the side face of the limiting fixing frame 9 through a rotating wheel 18 on the outer surface of a driving motor 22, the driving motor 22 is meshed and clamped with a driven gear 15 inside the paperboard supporting block 7 through a first driving gear 19 on one end, a gap is reserved between the outer surface of the positioning shaft 17 and the driven gear 15, and the driving motor 22 is movably sleeved with the gap reserved on the outer surface of the positioning shaft 17, the electric motor 21 is meshed with the gear track 11 on the outer side surface of the limit fixing frame 9 through a second driving gear 20 at one end, the triggering distance set by the distance sensor 14 is the length of the electric motor plus 4cm, and the bottom surface of the corrugated board 6 is movably contacted with the upper surface of the paper board supporting block 7.

The working principle is as follows: after the corrugated board 6 is processed, the corrugated board 6 is transported by the conveyor belt 4 on the upper surface of the conveying frame 1 until the corrugated board 6 is separated from the upper surface of the conveyor belt 4, before the corrugated board 6 is separated from the outer surface of the conveyor belt 4, the second group of paper board supporting blocks 7 and the fourth group of paper board supporting blocks 7 on one side of the limiting fixing frame 9 are parallel to the first group of paper board supporting blocks 7 and are turned outwards for 180 degrees, when the bottom surface of one end of the corrugated board 6 is separated from the surface of the conveyor belt 4, the bottom surface of the corrugated board is firstly contacted with the upper surfaces of the first group of paper board supporting blocks 7 on two sides of the limiting fixing frame 9, and simultaneously, one end of the corrugated board 6 is continuously moved to be contacted with the upper surfaces of the third group of paper board supporting blocks 7 under the pushing of the conveyor belt 4 until the tail end of the corrugated board 6 is separated from the upper surface, then the computer program will control the electric motor 21 to start to drive the second driving gear 20 to rotate, the second driving gear 20 will rotate on the outer surface of the rack 11 while rotating, push the driving motor 22 to descend on the side of the limit fixing frame 9, and at the same time, the rotating wheel 18 on the outer surface of the driving motor 22 will rotate on the inner surface of the T-shaped limit sliding slot 12, improve the smoothness of the driving motor 22 sliding on the side of the limit fixing frame 9, and limit the driving motor 22 to separate from the limit fixing frame 9, wherein the connecting arm 24 on the outer surface of the driving motor 22 will pass through the sleeve hole 25, pull the positioning shaft 17 to drive the limit clamping boards 16 at the two ends to slide downwards in the limit clamping slots 13, the positioning shaft 17 will make the cardboard supporting block 7 slide downwards integrally, drive the corrugated cardboard 6 on the upper surface to descend, until the distance from the distance sensor 14 on the bottom surface of the cardboard supporting block 7 to the upper surface of, the driving motor 22 drives the first driving gear 19 at one end to rotate 180 degrees around the positioning shaft 17, so that the corrugated board 6 on the upper surface of the paper board supporting block 7 falls onto the upper surface of the supporting plate 3, the automatic stacking of the corrugated board 6 is completed, when the first and third groups of paper board supporting blocks 7 descend, the second and fourth groups of paper board supporting blocks 7 rotate 180 degrees around the positioning shaft 17 under the control of a system program, turn over to the inner side surface of the limit fixing frame 9 to be used for supporting the corrugated board 6, then the previous step is installed to stack the corrugated board 6, before the second and fourth groups of paper board supporting blocks 7 descend, the first and third groups of paper board supporting blocks 7 rotate 180 degrees under the driving of the first driving gear 19 at one end of the driving motor 22 to turn over to the inner side of the limit fixing frame 9 to wait for supporting the next group of corrugated board 6, so that the first and third groups of paper board supporting blocks 7 and the second group of, The corrugated board 6 can be continuously accepted and stacked by the four groups of the paper board supporting blocks 7, the automatic stacking of the corrugated board 6 is completed, and when the corrugated board 6 is stacked to a high level, a worker can start the forklift to be inserted into the bottom surface of the supporting plate 3 to drag the corrugated board 6 to the next step.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1.3 5 layers of 7 layers of 9 layers corrugated container board integration assembly lines on layer, stack device (2) and layer board (3) including carriage (1), corrugated container board, its characterized in that: the corrugated board stacking device is characterized in that the supporting plate (3) is placed inside the bottom end of the corrugated board stacking device (2), the corrugated board stacking device (2) is fixedly connected to one end of the conveying frame (1), the conveying belt (4) is movably mounted on the top surface of the conveying frame (1), corrugated boards (6) are placed on the upper surface of the conveying belt (4), threaded holes (5) are uniformly formed in one end surface of the bottom of the conveying frame (1), a limiting fixing frame (9) is fixedly mounted inside the corrugated board stacking device (2), two side surfaces of the limiting fixing frame (9) are movably mounted with a paper board supporting block (7), the outer surface of the paper board supporting block (7) is meshed and connected with an adjusting device (8), toothed rails (11) are respectively formed in two side surfaces of the limiting fixing frame (9), T-shaped limiting sliding grooves (12) are respectively formed in two side surfaces of the limiting fixing frame (9, the two adjacent surfaces of the two sides of the limiting fixing frame (9) and the two adjacent surfaces of the tooth rail (11) are respectively provided with a limiting clamping groove (13), the two surfaces of the edge of one end of the paperboard supporting block (7) are respectively and fixedly provided with a distance sensor (14), the edge side of the other end of the paperboard supporting block (7) is welded with a positioning shaft (17), the two ends of the positioning shaft (17) are respectively welded with a limiting clamping plate (16), the outer surface of the edge side of one end of the paperboard supporting block (7) which is positioned on the positioning shaft (17) is welded with a driven gear (15), the inner part of the adjusting device (8) is fixedly provided with a driving motor (22), one end of the driving motor (22) is fixedly connected with a first driving gear (19), the outer surface of the driving motor (22) is welded with two groups of connecting plates (23), and, the center skin weld of driving motor (22) has electric motor (21), the one end center fixedly connected with second drive gear (20) of electric motor (21), the skin weld of driving motor (22) has linking arm (24), cup joint hole (25) have been seted up to the one end side of linking arm (24).

2. A 3-layer, 5-layer, 7-layer, 9-layer corrugated cardboard integration line as claimed in claim 1, wherein: the limiting fixing frame (9) is in threaded fastening connection with a threaded hole (5) on one end face of the bottom of the conveying frame (1) through a fastening screw (10) on one side of the bottom end.

3. A 3-layer, 5-layer, 7-layer, 9-layer corrugated cardboard integration line as claimed in claim 1, wherein: the paperboard supporting blocks (7) and the adjusting devices (8) are respectively divided into four groups on one side of the limiting fixing frame (9), the first group and the third group run synchronously, and the second group and the fourth group run synchronously.

4. A 3-layer, 5-layer, 7-layer, 9-layer corrugated cardboard integration line as claimed in claim 1, wherein: the paperboard supporting block (7) is movably clamped with the limiting clamping grooves (13) through limiting clamping plates (16) at two ends of a positioning shaft (17).

5. A 3-layer, 5-layer, 7-layer, 9-layer corrugated cardboard integration line as claimed in claim 1, wherein: the adjusting device (8) is movably clamped with the inner surface of the T-shaped limiting sliding groove (12) on the side surface of the limiting fixing frame (9) through a rotating wheel (18) on the outer surface of the driving motor (22).

6. A 3-layer, 5-layer, 7-layer, 9-layer corrugated cardboard integration line as claimed in claim 1, wherein: the driving motor (22) is meshed and clamped with a driven gear (15) inside the paperboard supporting block (7) through a first driving gear (19) at one end.

7. A 3-layer, 5-layer, 7-layer, 9-layer corrugated cardboard integration line as claimed in claim 1, wherein: one end of the paperboard supporting block (7) is reserved with a gap between the outer surface of the positioning shaft (17) and the driven gear (15), and the driving motor (22) is movably sleeved with the reserved gap on the outer surface of the positioning shaft (17) through a sleeving hole (25) on the side surface of one end of the outer surface connecting arm (24).

8. A 3-layer, 5-layer, 7-layer, 9-layer corrugated cardboard integration line as claimed in claim 1, wherein: the electric motor (21) is meshed and connected with a rack (11) on the outer side surface of the limiting fixing frame (9) through a second driving gear (20) at one end.

9. A 3-layer, 5-layer, 7-layer, 9-layer corrugated cardboard integration line as claimed in claim 1, wherein: the trigger distance set by the distance sensor (14) is the length of the distance sensor plus 4 cm.

10. A 3-layer, 5-layer, 7-layer, 9-layer corrugated cardboard integration line as claimed in claim 1, wherein: the bottom surface of the corrugated board (6) is movably contacted with the upper surface of the paperboard supporting block (7).

Images