WORKPIECE GUIDING DEVICE

Abstract

A workpiece guiding device having a base, a supporting component and a limiting component, wherein the base is formed with a loading surface to load the workpiece. The loading surface is formed with a first long slot facing downward. A supporting component is movably configured on the loading surface. The bottom of the supporting component is formed with a second long slot facing upward. The first and second long slots are opposite each other in the vertical direction, forming a long first space. The limiting component is removably configured in the first space. The radial periphery of the limiting component enters the long slots. One side of the supporting component is defined as a supporting side, which is used to receive the lateral pressing by the workpiece. The workpiece guiding device enhances the convenience in adjusting the position of the supporting component at a regularly used tooling angle.

Claims

1. A workpiece guiding device, comprising: a base, wherein said base is formed with a loading surface on its top, the loading surface is used to carry the workpiece, the loading surface is formed with a first long slot facing downward, one side of the base is defined as the first opposite side, the first opposite side is adjacent to the loading surface, a virtual plane perpendicular to the loading surface is defined, and the plane intersects with the first opposite side; a supporting component, movably configured on the loading surface, wherein the bottom of the supporting component is formed with a second long slot facing upward, one side of the supporting component is defined as the supporting side, the other side of the supporting component is defined as the second opposite side, the supporting side and the second opposite side 34 are respectively adjacent to the bottom of the supporting component, the supporting side intersects with the plane, an included angle ? is formed between the supporting side and the plane, the supporting side is used to receive lateral pressing by the workpiece, the second long slot extends to the second opposite side, the first long slot and the second long slot are opposite each other in the vertical direction, so that the base and the supporting component enclose a long first space; a long column-shaped limiting component, removably configured in the first space, the radial periphery of the limiting component enters the first long slot and the second long slot; and two clamping structures, respectively clamping the base and the supporting component.

2. The workpiece guiding device defined in claim 1, wherein the first long slot extends to the first opposite side.

3. The workpiece guiding device defined in claim 1, wherein the supporting component is formed with a stopping surface, the stopping surface blocks the end of the limiting component neighboring the supporting side.

4. The workpiece guiding device defined in claim 1, wherein, one end of the limiting component extends through the second opposite side till the outside of the supporting component and is connected with an operating shaft, the operating shaft extending upward.

5. The workpiece guiding device defined in claim 1, wherein the radial sides of the first space forms a quadrilateral.

6. The workpiece guiding device defined in claim 4, wherein the radial cross section of the limiting component is square.

7. The workpiece guiding device defined in claim 5, wherein the radial cross section of the limiting component is round.

8. The workpiece guiding device defined in claim 1, wherein the radial section of the first space is round.

9. The workpiece guiding device defined in claim 8, wherein the radial cross section of the limiting component is round.

10. The workpiece guiding device defined in claim 1, wherein the loading surface is further formed with a third long slot facing downward, the right projections of the first long slot and the third long slot on the loading surface are not perpendicular to each other, the bottom of the supporting component is further formed with a fourth long slot facing upward, the fourth long slot extends to the second opposite side, so that the third long slot and the fourth long slot are opposite each other in the vertical direction, forming a long second space; the limiting component is optionally configured in the second space, and the radial periphery of the limiting component enters the third long slot and the fourth long slot, so as to change the included angle ?.

11. The workpiece guiding device defined in claim 10, wherein the third long slot extends to the first opposite side.

12. The workpiece guiding device defined in claim 1, which further comprises two pressing structures, wherein each pressing structure is respectively connected to the supporting component, each pressing structure respectively has a pressing part, the pressing part is located on top of the loading surface to press the workpiece.

Description

BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWINGS

[0019] FIG. 1 is a perspective view of Embodiment 1 of the invention.

[0020] FIG. 2 is an exploded perspective view of Embodiment 1 of the invention.

[0021] FIG. 3 is a top view of Embodiment 1 of the invention.

[0022] FIG. 4 is 4-4 sectional view of FIG. 3.

[0023] FIG. 5 is 5-5 sectional view of FIG. 3.

[0024] FIG. 6 is a perspective view of Embodiment 2 of the invention.

[0025] FIG. 7 is a partial sectional view of Embodiment 3 of the invention along the radial directional of the limiting component.

[0026] FIG. 8 is a partial sectional view of Embodiment 3 of the invention along the radial directional of the limiting component.

[0027] FIG. 9 is a top view of the using state of Embodiment 5 of the invention.

[0028] FIG. 10 is a top view of another using state of Embodiment 5 of the invention.

[0029] FIG. 11 is 11-11 sectional view of FIG. 10.

[0030] FIG. 12 is a perspective view of Embodiment 6 of the invention.

DETAILED DESCRIPTION OF THE INVENTION

[0031] As shown in FIGS. 1 to 5, Embodiment 1 of the workpiece guiding device according to the invention comprises a base 20, a supporting component 30, a long column-shaped limiting component 40, and two clamping structures 50. The top of the base 20 is formed with a loading surface 22. The loading surface 22 is used to load a workpiece 90, and the loading surface 22 is formed with a first long slot 24 facing downward. One side of the base 20 is defined as the first opposite side 26. The first opposite side 26 is adjacent to the loading surface 22. A virtual plane 60 is defined to be perpendicular to the loading surface 22, and the plane 60 intersects with the first opposite side 26.

[0032] The supporting component 30 is movably configured on the loading surface 22. The bottom of the supporting component 30 is formed with a second long slot 32. Specifically, the bottom of the supporting component 30 is formed with a bottom surface 31, and the bottom surface 31 is formed with a second long slot 32 facing upward. In the present embodiment, the bottom surface 31 is optionally abutted against the loading surface 22. Alternatively, the bottom surface 31 can also be not abutted against the loading surface 22. One side of the supporting component 30 is defined as the supporting side 33. The other side of the supporting component 30 is defined as the second opposite side 34. The supporting side 33 and the second opposite side 34 are respectively adjacent to the bottom surface 31. The supporting side 33 and the plane 60 intersect with each other. An included angle ? is formed between the supporting side 33 and the plane 60. The supporting side 33 is used to receive lateral abutting by the workpiece 90. The second long slot 32 extends to the second opposite side 34. The first long slot 24 and the second long slot 32 are opposite each other in the vertical direction, so that the base 20 and the supporting component 30 enclose a long first space 72. The radial section of the first space 72 is a quadrilateral.

[0033] The limiting component 40 is removably configured in the first space 72. The radial periphery of the limiting component 40 enters the first long slot 24 and the second long slot 32, so as to limit the included angle ? to avoid any change. The radial cross section of the limiting component 40 is square, matching the first space 72.

[0034] The clamping structures 50 respectively clamp the base 20 and the supporting component 30, so as to position the supporting component 30 to avoid any movement. The clamping structure 50 is prior art commonly known by those skilled in the art. Therefore, details of the clamping structures 50 are not described herein.

[0035] The base 20 can be used as the workbench or the bed plate disclosed in prior art. According to the tooling requirement, the limiting component 40 can be provided or removed. As shown in FIG. 4, when the limiting component 40 is provided, the limiting component 40 limits the relative positions of the base 20 and the supporting component 30 in the space, so that the included angle ? will not have any change. When the first space 72 is configured with the limiting component 40, the included angle ? is 90 degrees. The machining tool (not shown in the figure) can cut the workpiece 90 along a path parallel to the supporting side 33. The parallel path forms a regularly used tooling angle.

[0036] When the limiting component 40 is removed, the supporting component 30 can be rotated to change the included angle ? according to the tooling requirement, to form other not commonly used tooling angles. The supporting component 30 can also be adjusted to the aforesaid regularly used tooling angle. When the limiting component 40 is not provided, the using state with the included angle ? being 90 degrees is not excluded.

[0037] The base 20 can be used as the workbench for the tooling machines disclosed in prior art. The supporting component 30 can be used as the fixture configured on the workbench as disclosed in prior art, so as to guide the movement of the workpiece 90, and to enhance working efficiency and tooling accuracy when executing multiple identical cutting operations.

[0038] The present invention can adjust the supporting component 30 to change the included angle ?. When changing from a tooling angle that is not frequently used to the regularly used tooling angle, the provision of the limiting component 40 enables easy adjustment of the included angle ? to be 90 degrees without using angle measuring tools or modules such as a protractor or an angle gauge. Based on the requirement for the tooling size, the user just need to adjust the position of the supporting component 30 in the tangential direction of the plane 60. This can help enhance the convenience in adjusting the position of the supporting component 30 at the regularly used tooling angle.

[0039] Optionally, the first long slot 24 extends to the first opposite side 26. The limiting component 40 can be configured or removed without the need to remove the supporting component 30 from the base 20.

[0040] Optionally, the supporting component 30 is formed with a stopping surface 35. The stopping surface 35 blocks the end of the limiting component 40 neighboring the supporting side 33, preventing the limiting component 40 from protruding out of the supporting side 33, so that the workpiece 90 cannot be pressed laterally against the supporting side 33.

[0041] As shown in FIG. 6, Embodiment 2 differs from Embodiment 1 in that, one end of the limiting component 40 protrudes through the second opposite side 34 to the outside of the supporting component 30 and is connected to an operating shaft 42, and the operating shaft 42 extends upward. As a preferred implementation of the present embodiment, the operating shaft 42 protrudes out of the top of the supporting component 30.

[0042] The operating shaft 42 can be controlled by the user to move the limiting component 40 along the direction of the first long slot 24, so as to insert the limiting component 40 into the first space 72 or extract the limiting component 40 from the first space 72, making the operation more convenient.

[0043] As shown in FIG. 7, Embodiment 3 differs from Embodiment 1 in that, the radial section of the first space 72 is round, and the radial cross section of the limiting component 40 is also round to match the first space 72.

[0044] As shown in FIG. 8, Embodiment 4 differs from Embodiment 1 in that, the radial section of the first space 72 is quadrilateral, and the radial cross section of the limiting component 40 is round.

[0045] As shown in FIGS. 9 to 11, Embodiment 5 differs from Embodiment 1 in that, the loading surface 22 is further formed with a third long slot 28 facing downward. The right projection of the first long slot 24 and the third long slot 28 on the loading surface 22 are not parallel to each other. Optionally, the third long slot 28 extends to the first opposite side 26. The bottom surface 31 is further formed with a fourth long slot 36 facing upward. The fourth long slot 36 extends to the second opposite side 34. By rotating and adjusting the supporting component 30 so that the third long slot 28 and the fourth long slot 36 are opposite each other in the vertical direction, the base 20 and the supporting component 30 enclose a long second space 74. As shown in FIG. 9, the limiting component 40 can be configured inside the first space 72. As shown in FIG. 10, by rotating and adjusting the supporting component 30, the third long slot 28 and the fourth long slot 36 can be adjusted to be opposite each other in the vertical direction to form the second space 74. The limiting component 40 can also be configured inside the second space 74, and the radial periphery of the limiting component 40 enters the third long slot 28 and the fourth long slot 36. In this way, the included angle ? can be changed according to the tooling requirement.

[0046] Embodiment 5 can be applied in cases where there are two regularly used tooling angles, and can enhance the convenience in adjusting the position of the supporting component 30 at any of the regularly used tooling angles.

[0047] As shown in FIG. 12, Embodiment 6 differs from Embodiment 1 in that, Embodiment 6 further comprises two pressing structures 80, wherein each of the pressing structures 80 is respectively connected to the supporting component 30, and each of the pressing structures 80 respectively has a pressing part 82. The pressing part 82 is located on top of the loading surface 22 to press the workpiece 90. Embodiment 6 can be used to fix the workpiece 90, so that the user's fingers can be kept away from the machining tool during the tooling operation, thus enhancing safety when cutting the workpiece 90. The pressing structure 80 is prior art commonly known by those skilled in the art, and therefore the structural details of the pressing structure 80 are not described herein in detail.

[0048] Embodiment 6 can be used together with any one from Embodiment 1 to Embodiment 5. As an option, Embodiment 6 can be configured on top of the workbench disclosed in prior art to work with the fixture.