The present invention relates to a tool clamp for clamping a tool holder used with a machine tool, and more particularly to a lockable tool clamp.
For facilitating tool-changing operation during a process of a machining center, there is usually a mating tool magazine provided. Common types of tool magazines include the carousel type, the turntable type, the chain type, and the tool-bin type for meeting needs of different processing methods and tools. A tool magazine is a device that stores various processing tools for machining center to selectively use to machine workpieces, and has become an indispensable accessory for a machining center. Therefore, the enthusiasm for designs and innovations focused on tool magazines in the industry is never less than that for the machining center themselves.
Among existing tool clamp structures, one example is the tool-clamping mechanism of a drum-type tool magazine disclosed in Taiwan Patent No. 240497, which uses propping pins located at two inside sides of the front edge of the pressing plate to prop up the pushing-pulling surface of the clamped tool, so as to prevent the tool from being ejected from the tool magazine clue to high-speed rotation of the tool disc. As another example, Taiwan Patent No. 324282 discloses a clamping holder structure of a tool padding in a machining center, which has two jaw members terminally equipped with respective returning members. With the springiness of the returning members, the jaw members pivot inward against a round rod, so that two clamping edges of the jaw members can jointly hold the neck tool to be machined in position. A further example is Taiwan Patent No. 1293907, which discloses a cutter set structure that has a retaining block accommodated in a clamping portion. The retaining block is configured to engage with an annular groove formed peripherally on a tool holder loaded thereon, so as to secure the tool holder in a tool-clamping seat.
However, in practical use, a clamped tool holder can sometimes come off the tool clamp when receiving unexpected external force and cause danger. While theses known tool clamp structures have their respective clamping structures for holding a tool holder in position (i.e., the propping pins, the returning members, and the retaining blocks), none of which provides a solution that prevents unintentional opening of the tool clamp. Hence, there is a need to improve the prior-art device by equipping a tool clamp with a secure tool-locking mechanism.
To meet the aforementioned need, the present invention provides a lockable tool clamp that implement a secure tool-locking mechanism, so as to ensure that a tool holder can never be withdrawn or replaced unless the tool clamp is in an unlocked state.
One embodiment of the present invention provides a lockable tool clamp, which is installed on a mount for clamping a tool holder. The tool clamp comprises two jaw members and a pin. Each of the jaw members has a connecting portion and a jaw tip. The two connecting portions are overlapped and are pivotally connected to the mount through a shaft passing through the two connecting portions. The two jaw tips are drawn together or pulled apart as the two connecting portions pivot with respect to each other. The pin when installed on the mount is parallel to the shaft, and the pin passes through the two connecting portions at a location different from where the shaft passes through the two connecting portions. The pin is axially movable with respect to the mount between an unlocking position and a locking position. When the pin is in the unlocking position, the two jaw members are allowed to pivot with respect to each other, thereby allowing the tool holder to be withdrawn or replaced by pushing the two jaw tips apart. When the pin is in the locking position, the two jaw members are restricted from pivoting with respect to each other, so the tool holder is clamped securely between the two jaw tips.
Thereby, only when the pin is in the unlocking position, can the tool holder push apart the two jaw tips and get withdrawn from the tool clamp or replaced into the tool clamp. When the pin is in the locking position, the two jaw members are restricted from pivoting with respect to each other. At this time, the two jaw members restricted by the pin jointly prevent the two jaw tips from being pushed apart. This means that even if the tool holder receives an unexpected force, the tool holder is secured in the tool clamp, thereby realizing the desired secure tool-locking mechanism that effectively prevents the tool holder from coming off the tool clamp unintentionally.
While a preferred embodiment provided hereinafter for illustrating the concept of the present invention has been described above, it is to be understood that the components of the embodiment shown in the accompanying drawings are depicted with scale, dimensions, deformation and/or displacement facilitating easy explanation and need not to be made to exact scale.
Referring to
The jaw members 10 each have a connecting portion 11 and a jaw tip 12. The two connecting portions 11 are overlapped and passed through by a shaft 13 so that they are pivotably connected to the mount 200. The two jaw tips 12 are drawn together or pulled apart from each other as the two connecting portions 11 pivot with respect to each other. In the present embodiment, the two jaw members 10 are of the same structure. The connecting portion 11 is a side plate thinner than the trunk of the jaw member 10. In the present embodiment, the two jaw members 10 are arranged in opposite directions so that when the two jaw members 10 are assembled, the two connecting portions 11 are overlapped with each other, as shown in
The pin 20 when installed on the mount 200 is parallel to the shaft 13 and is located on the mount 200 differently from the shaft 13. The pin 20 passes through the two aligned pin holes 111 in such a way that the pin 20 is allowed to move axially with respect to the mount 200 between an unlocking position P1 (as shown in
In the present embodiment, the pin 20 has large-diameter section 21 and a small-diameter section 22. The large-diameter section 21 has a diameter approximately equal to the diameter of the two pin holes 111. The small-diameter section 22 has a diameter smaller than the diameter of the two pin holes 111. When the pin 20 is in the locking position P2, the large-diameter section 21 is closely fit in the two pin holes 111 to restrict the two jaw members 10 from pivoting with respect to each other. When the pin 20 is in the unlocking position P1, the small-diameter section 22 is loosely received in the pin holes 111 and thus it can be separated from at least a part of the wall of each of the pin holes 111 by a gap G. The gap G provides the room for the two jaw members 10 to pivot with respect to each other.
Preferably, the mount 200 has a pin slot 201 for accommodating the pin 20. The pin slot 201 receives therein a return spring member 23. The return spring member 23 in the present embodiment may be a compression spring. The pin 20 in the pin slot 201 has its large-diameter section 21 abutted by the return spring member 23, so that the pin 20 is normally pushed by the return spring member 23 toward the locking position P2. When the pin 20 moves to the unlocking position P1, the return spring member 23 is compressed and generates a pre-force, After the force compressing the return spring member 23 disappears, the pre-force makes the pin 20 return to the locking position P2.
In the present embodiment, there is further a positioning base 30 fastened to the mount 200, as shown in
In the present embodiment, the pin 20 has a side near the large-diameter section 21 formed with a tangent plane 24, as shown in
Accordingly, when the pin 20 is in the unlocking position P1, the small-diameter section 22 and the wall of the pin hole 111 of the upper jaw member 10 are separated by the gap G (as shown in
In the present embodiment, the pin 20 has a notch 222. The notch 222 is located in the exposed section 221, A roller 25 is rotatably installed on the exposed section 221 and received in the notch 222. Moreover, the pin 20 has a chamfer cut 223 located atop the exposed section 221. The chamfer cut 223 has a side facing the notch 222 formed with a curved profile. The roller 25 is exposed atop a side of the pin 20 near the chamfer cut 223. Thereby, when the roller 25 is pushed, the exposed section 221 is in turn pushed into the through hole 31.
In the present embodiment, each of the jaw members 10 has its outer side abutted by a further return spring member 50. The further return spring member 50 in the present embodiment may be a compression spring. When the two jaw members 10 pivot with respect to each other, the jaw members 10 pivoting outward compress the respective further return spring members 50. Later when the further return spring member 50 is released, the further return spring member 50 drives the jaw member 10 to pivot back. Herein, some of the further return spring members 50 are provided. between two adjacent tool clamps 100. These further return spring members 50 each have their two ends abutting between the opposite jaw members 10 of the adjacent tool clamps 100. As shown in
In use, the tool clamp 100 and the mount 200 as described previously are installed on a drum-type tool magazine 400 as shown in
After the tool holder 300 is replaced or withdrawn, the pin 20 is in the locking position P2 because it is normally pushed by the return spring member 23. Thus, the large-diameter section 21 is closely fit in the two pin holes 111 since their diameters are approximately equal. This prevents the two jaw members 10 from pivoting with respect to each other. As a result, a tool holder 300 now in the tool clamp 100 can be held securely by the two jaw tips 12. Unless the pin 20 moves to the unlocking position P1 again, the tool holder 300 can never be taken out from the two jaw tips hereby securing the tool holder 300 in the tool clamp 100.
As can be learned from the description above, the tool clamp 100 of the present invention features a secure tool-locking mechanism. This means that only when the pin 20 is in the unlocking position P1, can the tool holder 300 push apart the two jaw tips 12 and get withdrawn from the tool clamp 100 or replaced into the tool clamp 100. When the pin 20 is in the locking position P2, the two jaw members 10 are restricted from pivoting with respect to each other. At this time, the two jaw members 10 restricted by the pin 20 jointly prevent the two jaw tips 12 from being pushed apart. This means that even if the tool holder 300 receives an unexpected force, the tool holder is secured in the tool clamp 100, thereby realizing the desired secure tool-locking mechanism that effectively prevents the tool holder 300 from coming off the tool clamp 100 unintentionally.
The present invention has been described with reference to the preferred embodiments and it is understood that the embodiments are not intended to limit the scope of the present invention. Moreover, as the contents disclosed herein should be readily understood and can be implemented by a person skilled in the art, all equivalent changes or modifications which do not depart from the concept of the present invention should be encompassed by the appended claims.
Number | Date | Country | Kind |
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109140574 | Nov 2020 | TW | national |
Number | Name | Date | Kind |
---|---|---|---|
4151918 | Nakane | May 1979 | A |
4783902 | Novak | Nov 1988 | A |
4873756 | Yamane | Oct 1989 | A |
4879802 | Winkler | Nov 1989 | A |
4910860 | Winkler | Mar 1990 | A |
5267766 | Geissler | Dec 1993 | A |
5702336 | Kameyama | Dec 1997 | A |
7115082 | Prust | Oct 2006 | B2 |
20220152762 | Sun | May 2022 | A1 |
Number | Date | Country |
---|---|---|
113894588 | Jan 2022 | CN |
1065133 | Jan 1984 | SU |
240497 | Feb 1995 | TW |
324282 | Jan 1998 | TW |
I293907 | Mar 2008 | TW |
Entry |
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Machine Translation of SU-1065133-A, which SU '133 was published Jan. 1984. |
Machine Translation of CN-113894588-A, which CN '588 was published Jan. 2022. |
Number | Date | Country | |
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20220152761 A1 | May 2022 | US |