Disclosure of Invention
In view of the above problems, an object of the present invention is to provide a mesh cloth correcting linkage device to solve the problems of misalignment and dislocation of mesh cloth caused by the mesh cloth being placed manually during the injection molding process of the electronic products.
The invention provides a mesh cloth correcting linkage device, which comprises: a base, a power device arranged on the base, a slide rail connected with the power device, and a correction cylinder connected with the slide rail in a sliding way,
the correcting cylinder is provided with a correcting claw which is used for correcting the screen cloth;
the correcting cylinder moves together with the sliding rail under the action of the power device, and the mesh cloth is corrected through the correcting claw.
In addition, the preferable scheme is that a slide rail inclined base used for fixing the slide rail is further arranged on the base, and a correction cylinder L-shaped base used for fixing the correction cylinder is arranged on the slide rail;
the correcting cylinder moves along with the sliding rail through the correcting cylinder L-shaped base.
In addition, the preferable proposal is that the device also comprises a top plate connected with the power device, a connecting plate is arranged on the top plate, and the top plate is connected with the slide rail through the connecting plate, wherein,
the top plate drives the sliding rail to move under the action of the power device.
In addition, preferably, the connecting plate is fixedly connected with the top plate and the slide rail through bolts.
In addition, the top plate is preferably provided with a limiting column, and the limiting column is used for limiting the movement range of the power device.
In addition, the preferable scheme is that the net cloth storage rack further comprises a bottom plate, wherein a groove matched with the net cloth is formed in the bottom plate, and the groove is used for placing the net cloth.
In addition, preferably, a through hole is formed in the groove, and the correcting claw penetrates through the through hole to correct the mesh placed in the groove.
In addition, it is preferable that a guide post is provided between the bottom plate, the top plate, and the base, and a bearing is provided on the top plate, wherein,
the guide post is sleeved on the bearing and penetrates through the top plate.
In addition, it is preferable that a bushing is provided on the base plate, the bushing being connected to a robot tool, wherein,
the mechanical arm tool is used for taking away the corrected mesh.
In addition, preferably, the power device is a knockout cylinder.
According to the technical scheme, the mesh correction linkage device provided by the invention drives the correction cylinder on the slide rail to move together through the ejection cylinder, so that the correction claw on the correction cylinder moves to the position of the mesh, and the mesh is corrected, and therefore, the problems of partial placement, dislocation and the like of the mesh caused by the fact that the mesh is not corrected when the mesh is manually placed in the injection molding process of the conventional electronic product are solved, and the product quality is further improved.
To the accomplishment of the foregoing and related ends, one or more aspects of the invention comprise the features hereinafter fully described. The following description and the annexed drawings set forth in detail certain illustrative aspects of the invention. These aspects are indicative, however, of but a few of the various ways in which the principles of the invention may be employed. Further, the present invention is intended to include all such aspects and their equivalents.
Drawings
Other objects and results of the present invention will become more apparent and more readily appreciated as the same becomes better understood by reference to the following description taken in conjunction with the accompanying drawings. In the drawings:
FIG. 1 is a front view of a web straightening linkage according to an embodiment of the present invention;
FIG. 2 is an oblique view of a mesh straightening linkage according to an embodiment of the present invention;
FIG. 3 is a top view of a web straightening linkage according to an embodiment of the present invention;
FIG. 4 is an enlarged view of a portion of a web straightening linkage in accordance with an embodiment of the present invention.
Wherein the reference numerals include: 1. the device comprises a base, 2, a top plate, 3, a bottom plate, 4, a slide rail inclined base, 5, a correction cylinder L-shaped base, 6, a slide rail, 7, a correction cylinder, 8, a correction claw, 9, a guide column, 10, a limiting column, 11, a bearing, 12, an ejection cylinder, 13, a bushing, 14 and a connecting plate.
The same reference numbers in all figures indicate similar or corresponding features or functions.
Detailed Description
In the following description, for purposes of explanation, numerous specific details are set forth in order to provide a thorough understanding of one or more embodiments. It may be evident, however, that such embodiment(s) may be practiced without these specific details.
Aiming at the problems that mesh cloth is not corrected when mesh cloth is placed manually in the injection molding process of the conventional electronic product, the mesh cloth is easily placed in a deviated and staggered mode and the like, the invention provides the mesh cloth correction linkage device, so that the problems are solved.
Specific embodiments of the present invention will be described in detail below with reference to the accompanying drawings.
In order to illustrate the structure of the web straightening linkage device provided by the present invention, fig. 1 to 4 show the structure of the web straightening linkage device from different angles. Specifically, FIG. 1 illustrates a front view of a mesh straightening linkage according to an embodiment of the present invention; FIG. 2 illustrates a screen cloth corrective linkage according to an embodiment of the present invention in a tilted view; FIG. 3 illustrates a top view of a web corrective linkage in accordance with an embodiment of the present invention; FIG. 4 illustrates a partial enlargement of a web corrective linkage in accordance with an embodiment of the present invention.
As shown in fig. 1 to 4, the mesh straightening linkage apparatus provided by the present invention includes: the mesh correcting device comprises a base 1, a power device arranged on the base 1, a sliding rail 6 connected with the power device, and a correcting cylinder 7 connected with the sliding rail 6 in a sliding manner, wherein a correcting claw 8 is arranged on the correcting cylinder 7, the correcting claw 8 is used for correcting the mesh and enabling the correcting cylinder 7 to move together with the sliding rail 6 under the action of the power device, and the mesh is corrected through the correcting claw 8.
The cylinder is simple and convenient to use and operate, and the installation is easy without too complicated steps; compared with other acting elements, the output force of the cylinder is large, the requirement of the cylinder on the use environment is not high, the cylinder can normally work regardless of high-temperature or low-temperature, and meanwhile, the cylinder has certain waterproof and dustproof performance and can adapt to various use environments, so that the straightening cylinder 7 is adopted to drive the straightening claws 8 to straighten the mesh cloth in the embodiment of the invention. In the embodiment of the invention, the power device is an ejection cylinder 12, and the ejection cylinder 12 provides motion power for the slide rail 6 and the straightening cylinder 7 arranged on the slide rail 6; in practical application, a suitable power device can be selected according to requirements.
In the embodiment shown in fig. 1 to 4, a correcting claw 8 is arranged on the correcting cylinder 7, the correcting claw 8 is used for correcting the mesh, and the correcting cylinder 7 corrects the mesh by the correcting claw 8; in the embodiment of the present invention, the mesh fabric correcting linkage device can correct four mesh fabrics simultaneously, that is, the mesh fabric correcting linkage device includes four correcting cylinders 7, each of which is provided with one correcting claw, and each of the correcting claws corrects one mesh fabric, so that the four correcting cylinders 7 in the mesh fabric correcting linkage device drive the four correcting claws 8 to correct the correcting claws of the four mesh fabrics respectively.
The mesh cloth correction linkage device further comprises a top plate 2 and a bottom plate 3, guide posts 9 are arranged among the base 1, the top plate 2 and the bottom plate 3, and the top plate 2 and the bottom plate 3 can play a role in guiding when moving along with the power device through the guide posts 9; and the top plate 2 is provided with a bearing 11, the guide post 9 is sleeved on the bearing 11 and penetrates through the top plate 2, and the bearing 11 and the guide post 9 are matched with each other, so that good lubrication is realized during the movement of the guide post 9.
In the embodiment of the invention, a slide rail inclined base 4 is further arranged on the base 1, the slide rail inclined base 4 is used for fixing a slide rail 6, a correction cylinder L-shaped base 5 is arranged on the slide rail 6, the correction cylinder L-shaped base 5 is used for fixing a correction cylinder 7, and the correction cylinder 7 moves along the slide rail 6 through the correction cylinder L-shaped base 5. Because the correcting claw 8 is arranged on the correcting cylinder 7, the correcting claw 8 moves to the mesh placing position of the bottom plate 3 under the action of the power device to correct the mesh.
In the embodiment of the present invention, the top plate 2 is connected to the slide rail 6 through the connecting plate 14, so that the top plate 2 drives the slide rail 6 to move under the action of the power device. Specifically, roof 2 is connected fixedly with power device (ejecting cylinder 12), is provided with connecting plate 14 on roof 2, and wherein, the intermediate position of connecting plate 14 passes through bolt and roof 2 fixed connection, and the both ends of connecting plate 14 are fastened with a slide rail 6 respectively through the bolt, promptly: each end of the connecting plate 14 is fixed with a slide rail 6, and when the ejection cylinder 12 moves, the top plate 2, the connecting plate 14 and the slide rails 6 fixed with the two ends of the connecting plate 14 are driven to move together. Because the correcting cylinder 7 is connected with the slide rail 6 through the L-shaped base 5 of the correcting cylinder, when the slide rail 6 moves along with the ejection cylinder 12, the correcting cylinder 7 is driven to move to the mesh placing position, and the correcting claw 8 of the correcting cylinder 7 corrects the mesh; that is, the movement of one ejection cylinder 12 drives the correcting claws 8 of the two correcting cylinders 7 to correct two webs respectively.
In the embodiment of the invention, the bottom plate 3 is provided with a groove matched with the mesh, the groove is used for placing the mesh to be corrected, a through hole is formed in the groove, and the correcting claw 8 of the correcting cylinder 7 penetrates through the through hole to correct the mesh to be corrected placed in the groove.
In the embodiment of the invention, a limit column 10 is further arranged on the top plate 2, and the limit column 10 is used for limiting the motion range of the power device; that is to say, go upward when power device (ejecting cylinder 12) drive roof 2, spacing post 10, slide rail 6 and correction cylinder 7 go upward along with roof 2 together, and when spacing post 10 reached spacingly, correction claw 8 on the correction cylinder 7 stretched into the recess of bottom plate 3 in, corrected the screen cloth in the recess, promptly: the limiting columns 10 limit the movement range of the ejection air cylinders 12, and simultaneously limit the movement range of the top plate 2, the sliding rails 6 and the correcting air cylinders 7.
In addition, in the embodiment of the present invention, a bushing 13 is disposed on the bottom plate 3, the bushing 13 is connected to a robot tool, and the robot tool takes away the corrected mesh, so that the corrected mesh is transferred to the next process.
In the embodiment shown in fig. 1 to 4, the mesh straightening linkage device includes two ejecting cylinders 12, and each ejecting cylinder 12 drives two straightening cylinders 7 to respectively straighten two meshes, that is, two ejecting cylinders 12 can drive four straightening cylinders 7 to respectively straighten four meshes. In practical applications, a plurality of ejection cylinders 12 and the leveling cylinders 7 matched with the ejection cylinders 12 can be set according to requirements, and are not limited to the two ejection cylinders 12 in the present invention.
In the embodiment of the invention, when the correcting cylinder 7 corrects the mesh cloth arranged in the groove, as the groove is designed according to the shape of the mesh cloth, as long as the mesh cloth is completely matched and attached with the groove, the problem of dislocation or deviation is avoided when the mesh cloth is sucked, therefore, when the correcting cylinder 7 corrects the mesh cloth, the mesh cloth is adjusted to be completely matched with the groove through the correcting claw.
In addition, the grooves arranged on the bottom plate 3 are set according to the shape of the mesh, namely mesh profile grooves, in specific application, different meshes are corrected, and the grooves with different shapes can be set according to actual conditions.
The above is a specific structure of the mesh fabric correcting linkage device of the invention, and the specific working principle is as follows:
the first step is as follows: an operator places the mesh to be corrected at the groove of the bottom plate 3;
the second step is that: the ejection cylinder 12 drives the top plate 2 connected with the ejection cylinder to move upwards, and the connecting plate 14 drives the sliding rail 6 to move upwards while moving along with the top plate 2 as the connecting plate 14 is fastened with the top plate 2 and the sliding rail 6 through bolts;
the third step: the slide rail 6 and the L-shaped base 5 of the correction cylinder are fixed with each other, so that the slide rail 6 drives the L-shaped base 5 of the correction cylinder to move while moving along with the connecting plate 14;
the fourth step: the L-shaped base 5 of the correction cylinder and the correction cylinder 7 are fixed with each other, so that the L-shaped base 5 of the correction cylinder drives the correction cylinder 7 to move while moving along with the slide rail 6;
the fifth step: when the ejection cylinder 12 moves to a preset distance, the limiting column 10 reaches the position of the bottom plate 3, the ejection cylinder 12 stops moving, and meanwhile, the correction cylinder 7 is driven to stop moving;
and a sixth step: a correcting claw 8 of the correcting cylinder 7 extends into a position for placing the mesh cloth to correct the mesh cloth;
the seventh step: after the mesh is corrected, the ejection cylinder 12 retracts, the top plate 2, the connecting plate 14, the sliding rail 6, the correcting cylinder L-shaped base 5 and the correcting cylinder 7 are driven to retract, and the manipulator tool takes the corrected mesh away from the mesh placing position; and then, circulating the first step to the seventh step until all the mesh cloth to be corrected is corrected.
According to the mesh fabric correction linkage device provided by the invention, the ejection cylinder drives the correction cylinder on the slide rail to move together, so that the correction claw on the correction cylinder moves to the position of the mesh fabric and corrects the mesh fabric, the problems of partial placement, dislocation and the like of the mesh fabric caused by the fact that the mesh fabric is not corrected when the mesh fabric is manually placed in the injection molding process of the conventional electronic product are solved, and the product quality is further improved.
The web corrective linkages in accordance with the present invention are described above by way of example with reference to the accompanying drawings. However, it will be appreciated by those skilled in the art that various modifications may be made to the web corrective linkage assembly described above without departing from the teachings of the present invention. Therefore, the scope of the present invention should be determined by the contents of the appended claims.