This application claims priority to Taiwanese Patent Application No. 108127408, filed on Aug. 1, 2019.
The disclosure relates to a positioning device, more particularly to an adsorption positioning device that is suitable for use in a cutting machine.
Referring to
Although the cutting machine 1 can generate adsorption forces on the material unit 2 through the air holes 111, when the material unit 2 includes a plurality of stacked materials 21, usually, only the lowest layer of the materials 21 can be adsorbed and positioned. Particularly, when the materials 21 are made of an airtight material, it is easy to affect the cutting precision or cause the cutting to stop during the cutting process because of partial disconnection and floating or throwing situation.
To reduce the problem of floating and throwing of the materials 21, a releasable paper or plastic film is used to cover a top side of the material unit 2 for constructing a space capable of covering the entire material unit 2 in an airtight state so as to improve the overall adsorption effect. However, when the releasable paper or the plastic film is cut along with the materials 21 and is damaged, the airtight state is released, and the problem of floating and throwing of the materials 21 similarly exists. Further, the thrown portion will wind around the cutting device 12, thereby causing interruption of the cutting process.
Therefore, an object of the present disclosure is to provide an adsorption positioning device that is capable of alleviating at least one of the drawbacks of the prior art.
According to this disclosure, an adsorption positioning device is suitable for installation on a cutting machine. The cutting machine is suitable for cutting a material unit. The adsorption positioning device includes a platform and two platen units. The platform includes a table suitable for supporting the material unit, and a plurality of air holes extending through the table and communicating with an external environment. The platen units are disposed on the table and are spaced apart from each other along a first direction. Each platen unit extends along a second direction perpendicular to the first direction. The table and each platen unit are configured for cooperating with a lateral side of the material unit to define a channel that communicates with corresponding ones of the air holes. Each platen unit includes a platen having a press portion suitable for pressing the lateral side of the material unit. The channel and the air holes are suitable for causing the material unit to be adsorbed on the table under a negative pressure state.
Other features and advantages of the disclosure will become apparent in the following detailed description of the embodiments with reference to the accompanying drawings, of which:
Before the present disclosure is described in greater detail, it should be noted herein that like elements are denoted by the same reference numerals throughout the disclosure.
Referring to
The platform 5 includes a chamber wall 51 defining a chamber 50 (see
The pressing rod unit 6 is disposed on the table 511, and includes a pressing rod 62 extending along a first direction (Y) which is perpendicular to the stacking direction (Z), and two tracks 61 spaced apart from each other along the first direction (Y). The pressing rod 62 and the table 511 cooperatively define a feeding space 620 suitable for passage of the material unit 4 therethrough along a second direction (X) which is perpendicular to the first direction (Y) and the stacking direction (Z). The pressing rod 62 is movably disposed between the tracks 61 for adjusting a height of the feeding space 620. In this embodiment, the first direction (Y) is a width direction of the table 511, the second direction (X) is a length direction (X) of the table 511, and the stacking direction (Z) is a top-bottom direction.
In this embodiment, the pressing rod 62 is releasably fastened between the tracks 61 through fasteners (not shown). By changing the height of the feeding space 620 along the stacking direction (Z), the material unit 4 with a large change in thickness can smoothly pass through the feeding space 620. It should be noted herein that the pressing rod 62 is not limited to be releasably fastened between the tracks 61. In other variations of this embodiment, the tracks 61 may be omitted, and two pressure cylinders may be disposed on the table 511 for driving the pressing rod 62 to move along the stacking direction (Z), but is not limited thereto.
The platen units 7 are spaced apart from each other along the first direction (Y). Each platen unit 7 includes a slide member 71, a platen 72, and a guide member 73, as shown in
The platen 72 extends along the second direction (X), and has a cover portion 722 and a press portion 723 adjacent to each other along the second direction (X), and a first pin hole 721 formed in the press portion 723 in proximity to one end thereof and distal to the cover portion 722. The platen 72 is connected to the first connecting portion 711 of the slide member 71 by extending the connecting pin 713 through the first pin hole 721. One side of the cover portion 722 that is distal to the press portion 723 abuts against the table 511. The press portion 723 is suitable for pressing a lateral side of the material unit 4.
The platen 72 is made of a material that is soft, resilient and resistant to deformation, such as PVC, paper, etc. The platen 72 of each platen unit 7 cooperates with the table 511 and a corresponding one of the lateral sides of the material unit 4 to define a channel 720 that communicates with corresponding ones of the air holes 512.
As shown in
Referring to
During cutting of the material unit 4 by the cutting device 31, through the negative pressure device (not shown), air current will flow, as shown by the arrows in
When the materials 41 are cut and partially broken, air current will flow from the partially broken parts and enter among the materials 41, and then enter the channels 720 through the lateral sides of the materials 41, and finally, enter the chamber 50 through the channels 720 and the air holes 512. Similarly, adsorption forces can be generated on the materials 41 of the material unit 4, so that the adjacent upper and lower materials 41 of the material unit 4 can tightly abut against each other and can be adsorbed on the table 511.
Referring to
It should be noted herein that the cover portion 722 of the platen 72 of each platen unit 7 is not limited to fall naturally and contact the table 511. In other variations of this embodiment, the platen 72 may be soft and resilient, but is not easy to deform, and may be connected to the table 511. As shown in
Referring to
The first plate member 74 is disposed on the table 511 of the platform 5, and has a plurality of perforations 741 communicating with the corresponding ones of the air holes 512. The second plate member 75 has a second pin hole 751 proximate to one end thereof, and a plurality of notches 752 formed on one lateral side thereof that faces the material unit 4. The second plate member 75 is connected to the first connecting portion 711 of the slide member 71 by extending the connecting pin 713 through the pin hole 751. The notches 752 communicate with the channel 720 and the corresponding ones of the perforations 741.
The width (W1) of the platen 72 along the first direction (Y) is larger than the width (W2) of the first plate member 74 along the same direction. The width of the first plate member 74 is, in turn, larger than the width (W3) of the second plate member 75 along the first direction (Y). Through this, the platen 72 can cover the first plate member 74 and the second plate member 75, and the notches 752 can expose the perforations 741.
Apart from supporting the platen 72, the first plate member 74 and the second plate member 75 that are stacked along the stacking direction (Z) can further prevent the platen 72 from shrinking and deforming when the chamber 50, the air holes 512 and the channel 720 form a negative pressure state, so that the platen 72 will not block the air holes 512, and smooth flow of the air current can be maintained.
From the foregoing, the advantages of this disclosure can be summarized as follows:
1) This disclosure can use the channels 720 and the air holes 512 disposed in the negative pressure state to generate adsorption forces relative to the bottom side and the lateral sides of the material unit 4, so that the material unit 4 can be firmly adsorbed on the table 511 to facilitate the processing of the material unit 4. Through this, stability of processing the material unit 4 can be enhanced, and the processing quality and smoothness can also be improved.
2) The platen 72 of each platen unit 7 can automatically adjust its distance and height relative to the table 511 to match the thickness of the material unit 4, and can also match the width of the material unit 4 by adjusting the distance between the platen units 7. Further, this disclosure is applicable for the material unit 4 with different thicknesses and different widths, so that convenience in use and practicality of this disclosure can be improved.
While the disclosure has been described in connection with what are considered the exemplary embodiments, it is understood that this disclosure is not limited to the disclosed embodiments but is intended to cover various arrangements included within the spirit and scope of the broadest interpretation so as to encompass all such modifications and equivalent arrangements.
Number | Date | Country | Kind |
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108127408 | Aug 2019 | TW | national |