CN220244664U - A panel turnover machine for various steel sheet production line - Google Patents

Abstract

The utility model discloses a panel turnover machine for a color steel plate production line, which comprises a conveying platform for conveying an upper plate and a lower plate, wherein the conveying platform comprises a lower conveying line for conveying the upper plate and an upper conveying line for conveying the lower plate; the turnover mechanism is arranged at one side of the conveying platform; the turnover mechanism comprises a plurality of turnover arms which are parallel to each other and can rotate, a plurality of suckers used for adsorbing the upper plate are arranged on each turnover arm, and the suckers are connected with the negative pressure generating device; the lifting mechanism is used for driving the turnover mechanism to move vertically. The beneficial effects of the utility model are as follows: the upper conveying line and the lower conveying line respectively convey the lower plate and the upper plate, so that the conveying time and the waiting time are greatly shortened, and the upper conveying line and the lower conveying line are arranged in a stacked manner, so that the whole volume is small; by matching with the control module and the sensor, efficient overturning and plywood operation can be realized.

Description

A panel turnover machine for various steel sheet production line

Technical Field

The utility model relates to the field of color steel plate processing equipment, in particular to a plate turnover machine for a color steel plate production line.

Background

The color steel plate consists of an upper plate, a lower plate and a filler between the upper plate and the lower plate. In the production process, an upper plate and a lower plate are usually processed by a processing device through a flanging and other processes, so that the consistency of the upper plate and the lower plate is ensured, and dislocation caused by processing errors is avoided. The upper plate and the lower plate are box-shaped with upward openings, the lower plate is filled with filler, the upper plate is aligned with the filled lower plate after being overturned, and then the upper plate and the lower plate are glued into a finished product. Applicant's prior application 201920632020 discloses a color plate flipping and bonding plate apparatus for effecting a flipping and bonding operation of a lower plate in a color plate production line. The operation flow is as follows: the upper plate and the lower plate are alternately conveyed through one conveying line, the conveyed upper plate is adsorbed by the sucking disc, then lifted and overturned, then the lower plate is conveyed below the upper plate in a waiting mode, and the upper plate descends and the lower plate is combined, so that the current working procedure is completed. From this flow, it is known that it is through a transfer chain transport upper plate and hypoplastron, and conveying efficiency is lower, and there is more latency, further reduced efficiency. How to improve the production efficiency is a technical problem to be solved at present.

Disclosure of Invention

The utility model aims to provide a panel turnover machine for a color steel plate production line, which solves or partially solves the problems.

The plate turnover machine for the color steel plate production line comprises a conveying platform for conveying an upper plate and a lower plate, wherein the conveying platform comprises a lower conveying line for conveying the upper plate and an upper conveying line for conveying the lower plate; the turnover mechanism is arranged at one side of the conveying platform; the turnover mechanism comprises a plurality of turnover arms which are parallel to each other and can rotate, a plurality of suckers used for adsorbing the upper plate are arranged on each turnover arm, and the suckers are connected with the negative pressure generating device; the lifting mechanism is used for driving the turnover mechanism to move vertically.

Preferably, the upper conveying line is parallel to the lower conveying line, and the upper conveying line is arranged right above the lower conveying line.

Preferably, the upper conveying line and the lower conveying line are composed of a plurality of conveying rollers parallel to each other, the turnover mechanism comprises a walking frame driven by the translation mechanism to horizontally move, a plurality of turnover supporting arms are arranged on the walking frame at intervals, the turnover arms are rotatably arranged on one turnover supporting arm through a pivot shaft, and the turnover arms are arranged between the two conveying rollers parallel to each other with the conveying rollers.

Preferably, the walking frame is rotatably provided with a turnover driving shaft and a turnover motor for driving the turnover driving shaft to rotate along the axial direction of the turnover driving shaft; the turnover driving shafts are provided with a plurality of driving gears in one-to-one correspondence with the turnover arms, each pivot shaft of the turnover arm is sleeved with a driven gear, and a transmission chain is sleeved on one of the driving gears and the driven gears to drive the turnover arms to rotate.

Preferably, the translation mechanism comprises at least one horizontal guide rail arranged on the lifting mechanism along the axial direction of the conveying roller, and the walking frame is movably arranged on the horizontal guide rail.

Preferably, the translation mechanism further comprises a plurality of long racks arranged on the lifting mechanism along the axis direction of the conveying roller, a translation shaft rotatably arranged on the walking frame, and a translation motor for driving the translation shaft to rotate along the axial direction of the translation shaft, wherein a plurality of translation gears are arranged on the translation shaft corresponding to the long racks, and the translation gears are meshed with the long racks.

Preferably, the walking frame is provided with a plurality of sliding blocks which are arranged on the horizontal guide rail in a sliding manner and correspond to the horizontal guide rail, the sliding blocks are provided with dovetail-shaped sliding grooves, and the horizontal guide rail comprises guide parts matched with the sliding grooves in shape.

Preferably, the walking frame comprises a longitudinal beam parallel to the length direction of the lower conveying line, a plurality of brackets are respectively arranged on two sides of the beam, bearings are arranged on the brackets, and the translation shaft and the turnover driving shaft are respectively arranged on two sides of the beam through the bearings; the overturning motor and the translation motor are both arranged in the middle of the cross beam and are respectively arranged on two sides of the cross beam; two sides of the turnover motor are symmetrically provided with two horizontal guide rails and one long rack respectively.

Preferably, the upper conveying line is provided with a lower plate centering device, and the lower conveying line is provided with an upper plate centering device.

Preferably, the lifting mechanism comprises a lifting platform, a fork-shaped support arranged below the lifting platform and a lifting driving device, wherein the lifting driving device is an air cylinder, an oil cylinder or an electric screw rod.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

the beneficial effects of the utility model are as follows: the upper conveying line and the lower conveying line respectively convey the lower plate and the upper plate, so that the conveying time and the waiting time are greatly shortened, and the upper conveying line and the lower conveying line are arranged in a stacked manner, so that the whole volume is small; by matching with the control module and the sensor, efficient overturning and plywood operation can be realized.

Drawings

FIG. 1 is a schematic perspective view of a state one of the present utility model;

FIG. 2 is a schematic perspective view of the second embodiment of the present utility model;

FIG. 3 is an enlarged view of a portion of FIG. 2 at A;

FIG. 4 is a schematic perspective view of the third embodiment of the present utility model;

FIG. 5 is a front view of the present utility model;

FIG. 6 is a top view of the present utility model;

FIG. 7 is a schematic view of the configuration of the centering device in a waiting state;

FIG. 8 is a schematic view of the centering device in a centered condition;

FIG. 9 is a left side view of the present utility model;

FIG. 10 is a partial enlarged view at B in FIG. 1;

FIG. 11 is a schematic of the workflow of the present utility model, shown in an initial state;

FIG. 12 is a schematic diagram of the workflow of the present utility model, shown in a board-up condition;

FIG. 13 is a schematic diagram of the workflow of the present utility model, shown in a board removal completion state;

FIG. 14 is a schematic view of the workflow of the present utility model, shown in an upper plate raised condition;

FIG. 15 is a schematic view of the workflow of the present utility model, shown in an upper plate extended state;

fig. 16 is a schematic view of the working flow of the utility model, showing the state of the turning plate.

Detailed Description

The technical scheme of the utility model is further described in detail below with reference to the specific embodiments.

In the description of the present utility model, it should be noted that the positional or positional relationship indicated by the terms such as "inner", "outer", "upper", "lower", "horizontal", etc. are based on the positional or positional relationship shown in the drawings, are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the apparatus or element in question must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

As shown in fig. 1 to 16, a panel turnover machine for a color steel panel production line of the present utility model includes a conveying platform for conveying upper and lower panels, the conveying platform including a lower conveying line 10 for conveying the upper panel, and an upper conveying line 12 for conveying the lower panel. The upper conveying line 12 is parallel to the lower conveying line 10, and the upper conveying line 12 is arranged right above the lower conveying line 10 so as to avoid more occupied space. This makes upper plate and lower plate can separately carry, has improved conveying efficiency, has avoided latency. The upper conveyor line 12 and the lower conveyor line 10 are each composed of a plurality of conveying rollers parallel to each other, and of course, a common conveyor belt may be used for conveying, and the adsorption structure may be adjusted accordingly.

The device also comprises a turnover mechanism 14 arranged at one side of the conveying platform; the turnover mechanism 14 comprises a plurality of turnover arms 16 which are parallel to each other and can rotate, a plurality of suckers 18 for absorbing the upper plate are arranged on the turnover arms 16, and the suckers 18 are connected with a negative pressure generating device (not shown). The negative pressure generating device is used for generating negative pressure for the sucker 18 so as to absorb the upper plate; in the case of the plate, the negative pressure generating means generates positive pressure to the suction cup 18, thereby releasing the upper plate. The negative pressure generating device is a common device in the industry, and its working principle, model, control method, etc. are all well known in the industry and are not described in detail.

And also comprises a translation mechanism 16 for driving the turnover mechanism 14 to horizontally move and a lifting mechanism 18 for driving the turnover mechanism 14 to vertically move.

By means of the structure, the upper plate on the lower layer can be adsorbed through the sucking disc 18, then the upper plate is translated out through the translation mechanism 16, lifted through the lifting mechanism 18, then translated to the upper side of the lower plate through the translation mechanism 16, the upper plate is turned over by the turning mechanism 14, and then the lifting mechanism 18 descends, so that the turning plate operation is completed. Based on this implementation, one of ordinary skill in the art may implement the translation mechanism 16 and the lifting mechanism 18 using means conventional in the mechanical arts. For example, using a cylinder to effect translation, a cylinder to effect lifting, etc.

Specifically, in the preferred embodiment of the present utility model:

the turnover mechanism 14 comprises a walking frame 20 driven by the translation mechanism 16 to horizontally move, a plurality of turnover supporting arms 22 are arranged on the walking frame 20 at intervals, the turnover arms 16 are rotatably arranged on one turnover supporting arm 22 through a pivot shaft, and the turnover arms 16 are arranged between the two conveying rollers in parallel with the conveying rollers.

A turnover driving shaft 24 and a turnover motor 26 for driving the turnover driving shaft 24 to rotate along the axial direction of the turnover driving shaft 20 are rotatably arranged on the walking frame 20; a plurality of driving gears (not shown) are arranged on the turning driving shaft 24 in one-to-one correspondence with the turning arms 16, a driven gear (not shown) is sleeved on the pivot shaft of each turning arm 16, and a transmission chain 28 is sleeved on one driving gear and one driven gear to drive the turning arms 16 to rotate. All the turning arms 16 are driven to turn together by the drive chain 28 with excellent synchronization.

The translation mechanism 16 includes at least one horizontal guide rail 30 provided on the lifting mechanism 18 in the axial direction of the conveying roller, and the traveling frame 20 is movably provided on the horizontal guide rail 30.

The translation mechanism 16 further includes a plurality of long racks 32 disposed on the lifting mechanism 18 along the axial direction of the conveying roller, a translation shaft 34 rotatably disposed on the travelling frame 20, and a translation motor 36 for driving the translation shaft 34 to rotate along its own axis, wherein the translation shaft 34 is provided with a plurality of translation gears 38 corresponding to the long racks 32, and the translation gears 38 are engaged with the long racks 32. That is, the translation motor 36 drives the translation shaft 34 to rotate, so as to drive the translation gear 38 on the translation shaft 34 to rotate, and the rotation of the translation gear 38 drives the translation gear 38 to move on the long rack 32, that is, drive the walking frame 20 to move.

Further, a plurality of sliding blocks 40 which are slidably arranged on the horizontal guide rail 30 are arranged on the walking frame 20 corresponding to the horizontal guide rail 30, dovetail-shaped sliding grooves are formed in the sliding blocks 40, and the horizontal guide rail 30 comprises guide parts matched with the sliding grooves in shape. This configuration helps ensure that the travelling gantry 20 does not disengage from the horizontal rail 30 when it is extended forward to the transport platform.

Further, the walking frame 20 comprises a longitudinal beam 42 parallel to the length direction of the lower conveying line 10, a plurality of brackets 44 are respectively arranged on two sides of the beam 42, bearings are respectively arranged on the brackets 44, and the translation shaft 34 and the turnover driving shaft 24 are respectively arranged on two sides of the beam 42 through the bearings; the overturning motor 26 and the translation motor 36 are both arranged in the middle of the beam 42 and respectively arranged at two sides of the beam 42; two horizontal guide rails 30 and one long rack 32 are symmetrically arranged on two sides of the turnover motor 26. This structural center symmetry helps to make both sides atress even, and heavier upset motor 26 and translation motor 36 are all kept away from conveying platform for the focus of walking frame 20 is kept away from conveying platform, helps when walking frame 20 stretches to conveying platform before, ensures that it can not overturn.

Further, a lower plate centering device 46 is provided on the upper conveyor line 12, and an upper plate centering device 48 is provided on the lower conveyor line 10.

Further, the lifting mechanism 18 includes a lifting platform 52, a fork-shaped support 50 disposed below the lifting platform 52, and a lifting drive device, which is an air cylinder, an oil cylinder, or an electric screw. The lifting mechanism 18 may take other conventional forms, such as a vertical slide rail, and a motor drives a screw to rotate, thereby lifting the lifting platform. These specific implementations are all conventional techniques that may be implemented by those of ordinary skill in the art in light of the present needs.

The utility model can be controlled manually or automatically. Taking automation control as an example, the utility model further comprises a control unit and a power supply module for supplying power.

With particular reference to fig. 11 to 16 (in which the arrows indicate the direction of movement), the present utility model also improves the production process of a color steel sheet, in combination with the corresponding structure of the utility model, with reference to the applicant's prior application 202110235989.4, which comprises the following steps:

s1, blanking: suitable sized sheet metal is cut from sheet metal coil by a stamping process, see applicant's prior application 201520202992.6 for a detailed construction.

S2, edge folding: folding the metal plate on a metal plate forming machine to manufacture an upper plate and a lower plate; sheet metal forming machines are a common construction in the industry, see also applicant's prior application 201920631998.3. The upper plate and the lower plate are manufactured by the same sheet metal forming machine, so that the machining errors are consistent, and the consistency of the upper plate and the lower plate after the plywood is good.

S3, glue spraying: glue is sprayed on the upper plate and the lower plate through a glue spraying machine, and the glue spraying machine can be seen in the prior application of the applicant.

S4, separating plates: the manufactured upper and lower plates are respectively fed to the lower and upper feed lines 10 and 12 through the pivotally provided stock parts. The upper and lower plates are identical in structure, and they are determined according to whether they are fed to the lower or upper feed line 10 or 12. The lower plate is conveyed on the upper conveying line 12, so that the filling operation is facilitated.

S5, filling: filling the core material into the lower plate through automatic or manual operation;

s6, turning a plate plywood:

s6.1 centering operation: referring to fig. 11, after the upper and lower plates are fed, they are stopped by the raised stopper 54 and the positions of the upper and lower plates in the front-rear direction are also set, and at this time, the sensors 56 provided in the lower and upper conveyor lines 10 and 12 detect the upper and lower plates, and the control unit controls the lower and upper plate centering devices 46 and 48 to perform centering operation and adjusts the positions of the upper and lower plates in the left-right direction to set them.

The blocking device 54 may be implemented by a common cylinder-driven baffle, and the sensor 56 may be a common photoelectric sensor 56, which may emit a detection signal when blocked between a transmitting end and a receiving end, and is widely used and well known in the industry, so that the principle and model thereof are not described in detail.

The specific construction of the centering means can be seen in applicant's prior application 201920632020 which uses one centering means, either the upper or lower plate, to wait when it comes in, whereas the present utility model uses two centering means, without waiting, to increase efficiency. Of course, other structures, such as two bidirectional cylinders, may be adopted as the centering device, and the structure itself is not an innovation point of the present utility model, and thus, the centering device is not shown in detail;

s6.2, taking an upper plate: referring to fig. 12, the lifting mechanism 18 is raised so that the invert arm 16 is raised from the gap between the transport rollers so that the suction cups 18 contact the upper plate; the control unit controls the negative pressure generating device to generate negative pressure so as to adsorb the upper plate (timing 1 s);

s6.3, removing the upper plate: referring to fig. 13, after lifting mechanism 18 lifts 2 cm away from the roller conveying surface, translation mechanism 16 retracts, driving the upper plate to leave the conveying platform;

s6.4 lifting the upper plate: referring to fig. 14, lifting mechanism 18 moves translation mechanism 16 up to a designated position;

s6.5 upper plate moving in: referring to fig. 15, the translation mechanism 16 translates to move the upper plate directly above the lower plate;

s6.6, turning the upper plate and combining the plates: referring to fig. 16, the turnover mechanism 14 turns over, the lifting mechanism 18 descends, the negative pressure generating device generates positive pressure, the upper plate is loosened, the plywood is completed, and then the turnover mechanism 14, the translation mechanism 16 and the lifting mechanism 18 are reset.

The following is a description of the utility model and its predecessors in connection with certain specific embodiments:

the efficiency of the utility model is as follows: the control unit controls the translation mechanism 16 to drive the walking frame 20 to wait below the upper plate (zero state), and after the workpiece on the lower conveying roller conveyed by the previous path is centered, the lifting mechanism 18 is lifted, so that the overturning arm 16 is lifted from a gap between the conveying rollers, and the sucking disc 18 is contacted with the upper plate; the control unit controls the negative pressure generating device to generate negative pressure so as to adsorb the upper plate (timing 1 s); after the lifting mechanism 18 is lifted 20 cm away from the roller conveying surface, the translation mechanism 16 is retracted to drive the upper plate to leave the conveying platform, and the walking distance is about 1.5 meters (3 seconds in time); lifting mechanism 18 is raised to a designated position, translation mechanism 16 is raised (timing 2S, position adjustable), translation mechanism 16 is moved about 0.4 meters, and the upper plate is moved directly above the lower plate (timing 2S); the turnover mechanism 14 turns over, the negative pressure generating device generates positive pressure, the upper plate is loosened (timing 2 s), the plywood is completed, and the mechanism is reset. The single-pass meter 10s, reset 10s and one cycle count time about 20 seconds, and when the upper plate is moved out from the lower conveying roller, the front conveying workpiece can be directly conveyed to the lower conveying platform without waiting, and the upper conveying platform and the front workpiece can be conveyed as is without waiting at all when the upper plate is in the plywood. Wherein, the lower plate can synchronously complete the centering operation, so the time is ignored. Meanwhile, after the upper plate leaves the conveying platform, the next upper plate can be conveyed forwards, so that the waiting time of the upper plate is saved; centering of the lower plate is accomplished synchronously in the above process, and thus, timing is not required.

Efficiency of the previous case: the time of the above steps is about: the upper plate is adsorbed and lifted (timing 1 s); the lower plate is transported to the platform and centered (timing 5 s); the turnover mechanism 14 turns over, the lifting mechanism 18 descends, the negative pressure generating device generates positive pressure, the upper plate is loosened, and the plywood is completed (timing 7 s); after the workpiece after waiting for the plywood leaves the conveying platform, the turnover mechanism descends below the conveying platform surface, the workpiece before conveying can be conveyed to the turnover plywood platform after the turnover mechanism sinks below the conveying surface (consuming 2 s), the waiting time is 30 seconds, and the accumulated time is about 45 seconds.

From this, it can be seen that: in the utility model, the operation of a single plate-turning plate takes 20 seconds, while the original scheme takes 45 seconds and 25 seconds.

In the utility model, when the plywood is finished, the next upper board is already in place, and the next lower board can be in place in the process of repeatedly taking the upper board, namely, no waiting time exists.

In the prior art, the next upper plate needs to be transported after the previous upper plate is completed, i.e. after waiting 15 seconds (timing 5 s), and the accumulated operation time for one cycle is 45 seconds.

That is, in the case of continuous operation, the previous one-plywood operation takes 45 seconds as a whole, whereas the present utility model requires only 20 seconds, thereby greatly improving the production efficiency.

The flow control according to the present utility model is well known in the art and is not innovative and is not shown in detail.

The flow control according to the present utility model is well known in the art and is not innovative and is not shown in detail.

The foregoing description is only illustrative of the present utility model and is not intended to limit the scope of the utility model, and all equivalent structures or equivalent processes or direct or indirect application in other related technical fields are included in the scope of the present utility model.

Claims (10)

1. A panel turnover machine for various steel sheet production line, its includes a conveying platform who is used for carrying upper plate and hypoplastron, its characterized in that: the conveying platform comprises a lower conveying line for conveying the upper plate and an upper conveying line for conveying the lower plate; the turnover mechanism is arranged at one side of the conveying platform; the turnover mechanism comprises a plurality of turnover arms which are parallel to each other and can rotate, a plurality of suckers used for adsorbing the upper plate are arranged on each turnover arm, and the suckers are connected with the negative pressure generating device; the lifting mechanism is used for driving the turnover mechanism to move vertically.

2. A panel turnover machine for a color steel plate production line according to claim 1, characterized in that: the upper conveying line is parallel to the lower conveying line, and the upper conveying line is arranged right above the lower conveying line.

3. A panel turnover machine for a color steel plate production line according to claim 1, characterized in that: the upper conveying line and the lower conveying line are composed of a plurality of conveying rollers which are parallel to each other, the turnover mechanism comprises a walking frame which is driven by the translation mechanism to horizontally move, a plurality of turnover supporting arms are arranged on the walking frame at intervals, the turnover arms are rotatably arranged on one turnover supporting arm through a pivot shaft, and the turnover arms are arranged between the two conveying rollers in parallel to the conveying rollers.

4. A panel turnover machine for a color steel plate production line according to claim 3, characterized in that: the walking frame is rotatably provided with a turnover driving shaft and a turnover motor for driving the turnover driving shaft to rotate along the axial direction of the turnover driving shaft; the turnover driving shafts are provided with a plurality of driving gears in one-to-one correspondence with the turnover arms, each pivot shaft of the turnover arm is sleeved with a driven gear, and a transmission chain is sleeved on one of the driving gears and the driven gears to drive the turnover arms to rotate.

5. A panel turnover machine for color steel plate production line according to claim 4, characterized in that: the translation mechanism comprises at least one horizontal guide rail arranged on the lifting mechanism along the axial direction of the conveying roller, and the walking frame is movably arranged on the horizontal guide rail.

6. A panel turnover machine for color steel plate production line according to claim 5, characterized in that: the translation mechanism further comprises a plurality of long racks arranged on the lifting mechanism along the axis direction of the conveying roller, a translation shaft rotatably arranged on the walking frame, and a translation motor for driving the translation shaft to rotate along the axial direction of the translation shaft, wherein a plurality of translation gears are arranged on the translation shaft corresponding to the long racks, and the translation gears are meshed with the long racks.

7. A panel turnover machine for color steel plate production line according to claim 6, characterized in that: the walking frame is provided with a plurality of sliding blocks which are arranged on the horizontal guide rail in a sliding manner and correspond to the horizontal guide rail, the sliding blocks are provided with dovetail-shaped sliding grooves, and the horizontal guide rail comprises guide parts matched with the sliding grooves in shape.

8. A panel turnover machine for color steel plate production line according to claim 7, characterized in that: the walking frame comprises a longitudinal beam which is parallel to the length direction of the lower conveying line, a plurality of brackets are respectively arranged on two sides of the beam, bearings are arranged on the brackets, and the translation shaft and the turnover driving shaft are respectively arranged on two sides of the beam through the bearings; the overturning motor and the translation motor are both arranged in the middle of the cross beam and are respectively arranged on two sides of the cross beam; two sides of the turnover motor are symmetrically provided with two horizontal guide rails and one long rack respectively.

9. A panel turnover machine for a color steel plate production line according to claim 2, characterized in that: the upper conveying line is provided with a lower plate centering device, and the lower conveying line is provided with an upper plate centering device.

10. A panel turnover machine for a color steel plate production line according to claim 1, characterized in that: the lifting mechanism comprises a lifting platform, a fork-shaped support arranged below the lifting platform and a lifting driving device, wherein the lifting driving device is an air cylinder, an oil cylinder or an electric screw rod.