1. Fields of the Invention
The present invention relates to a punch, and more particularly, to a turret punch wherein the second rail portion of the third body is linearly movable along the first rail portion of the first body. When operating the first and second bodies, the function member that is located corresponding to the first function end moves linearly so as to be engaged with or to be disengaged from the first function end of the first body, such that the holes are punched along a straight line.
2. Descriptions of Related Art
The conventional turret punch disclosed in U.S. Pat. No. 4,193,191 comprises a first body and a second body which is pivotably connected to the first body at a position about ⅓ of the lengthwise of the first and second bodies. The second body has a reception hole defied in an end of the second body.
A turret is pivotably connected to the second body and has multiple function member which are located around the turret. The turret is rotatable relative to the second body to align one of the function members with the function end of the first body. The turret has multiple positioning portions on one side thereof and located corresponding the spaced distances of the function members. The reception hole of the second body is able to be located corresponding to different positioning portions.
A resilient plate is fixed to the second body, and a bead is received in the reception hole of the second body. The resilient plate has one end contacting the bead to resilient bias the bead toward one of the positioning portions so that the turret is positioned relative to the second body when being rotated.
The turret has the function members and one of the function members is aligned with the function end of the first body. A resilient member is connected between the first and second bodies so as to provide a resilient force between the pivotably connected first and second bodies. When the user pushes the handles of the first and second bodies, the function member moves along a curved path to be engaged with the function end. However, the curved path that the function member moves along makes the hole punched to be shaped slightly curved. Generally, if the object to be punched is a piece of fabric which has thinner thickness, the slightly curved holes are acceptable. If the object to be punched is a thick object, the slightly curved holes affect the cooperation with other parts.
Taiwan Patent Application No. 102211861 with the certificate number M466000, as disclosed in
In order to improve the problem of the curved punched holes of the conventional turret punches, the second rail portion of the third body is linearly movable along the first rail portion of the first body. When operating the first and second bodies, the function member that is located corresponding to the first function end moves linearly so as to be engaged with or to be disengaged from the first function end of the first body, such that the holes which are punched along a straight line.
The present invention relates to a turret punch and comprises a first body, a second body, a third body, a pin, a first resilient member, a turret, function members, a second resilient member and a connector. The second rail portion of the third body is linearly movable along the first rail portion of the first body. When operating the first and second bodies, the function member that is located corresponding to the first function end moves linearly so as to be engaged with or to be disengaged from the first function end of the first body, such that the holes are punched along a straight line.
When compared with the conventional turret punches mentioned above, it is noted that when the user pushes the two respective handles of the first and second bodies, the control portion is engaged with the third control recess of the third body, and the control portion drives the second rail portion of the third body to linearly move along the first rail portion of the first body. The function member that is located corresponding to the first function end moves linearly so as to be engaged with or to be disengaged from the first function end of the first body, such that the holes are punched along a straight line.
The present invention will become more obvious from the following description when taken in connection with the accompanying drawings which show, for purposes of illustration only, a preferred embodiment in accordance with the present invention.
Referring to
A second body 20 has a second pivotal hole 21 which is located corresponding to the first pivotal hole 11. The second pivotal hole 21 has a second recess 211 and a second engaging slot 212. The second pivotal hole 21 co-axially communicates with the second recess 211. The second recess 211 and the second engaging slot 212 are arranged as “6”. The second recess 211 and the first recess 111 together define a room. A control portion 22 is formed at the distal end of the second body 20 and is a protrusion. The control portion 22 is located in the first control recess 14 and movable along a curved path in the control recess 14.
A third body 30 is connected to the first body 10 and has a second function end 31 on the first end thereof. The second function end 31 is located corresponding to the first function end 12. The second function end 31 has a first pivotal portion 311 which is a circular hole. The second function end 31 has a reception slot 312 defined therethrough which is a curved slot. A second rail portion 33 is formed in the second end of the third body 30. The first rail portion 13 is slidably engaged with the second rail portion 33. Each of two insides of the second rail portion 33 has a fifth side 331 and a sixth side 332. The fifth sides 313 is slidably engaged with the first sides 131. The sixth sides 332 is slidably engaged with the second sides 132. A seventh side 333 is defined in each of the two insides of the second rail portion 33 and slidably engaged with the third sides 133. The seventh sides 333 each are a groove. An eighth side 334 is formed at the second rail portion 33 and slidably engaged with the fourth side 134. The second rail portion 33 has a second control recess 34 with which a portion with the second recess 211 is accommodated. The second control recess 34 is located at an inside of the second rail portion 33 and located corresponding to the first control recess 14. A third control recess 35 is defined in the second rail portion 33 and communicates with the second control recess 34. The control portion 22 is accommodated in the third control recess 35. The third control recess 35 is located at the inside of the second rail portion 33 and located corresponding to the first control recess 14. When the second body 20 is pivoted about the first pivotal hole 11 or the second pivotal hole 21, the control portion 22 pushing the third control recess 35 to linearly move the second rail portion 33 along the first rail portion 13 so as to move the second function end 31 of the third body 30 close to or away from the first function end 12.
When designing the turret punch, the control portion 22 of the second body 20 is a rounded protrusion. The third control recess 35 of the third body 30 is shaped to accommodate the control portion 22. The diameter of the third control recess 35 is larger than that of the control portion 22. This makes the designer to design the control portion 22 and the third control recess 35.
A pin 41 extends through the first and second pivotal holes 11, 21 to pivotably connect the first body 10 to the second body 20. The pin 41 is a cylindrical pin.
A first resilient member 42 located between the first and second bodies 10, 20 to resiliently bias the first and second bodies 10, 20. The first resilient member 42 is received in the room defined by the second recess 211 and the first recess 111. The first resilient member 42 is mounted to the pin 41. The first resilient member 42 has a first leg 421 and a second leg 422, wherein the first leg 421 is engaged with the first engaging slot 112, and the second leg 422 is engaged with the second engaging slot 212. The first body 10 resiliently contacts the second body 20 by the first resilient member 42. The first resilient member is a coil spring.
A turret 50 is pivotably connected to the second function end 31 of the third body 30 and has multiple installation holes 51 which are located on the outside of the turret 50 and arranged as a circle. Each of the installation holes 51 includes inner threads. A second pivotal portion 52 is defined centrally of the turret 50 and pivotably connected with the first pivotal portion 311. A connection portion 521 is a groove and located on outside of the second pivotal portion 52. Multiple positioning portions 53 are located on the end surface where the second pivotal portion 52 extends. One of the positioning portions 53 is located corresponding to the reception slot 312. The second pivotal portion 52 has a passage 54 which is a circular passage. There are multiple function members 60, and each of the installation hole 51 receives one of the function members 60. Each of the function members 60 is located corresponding to the first function end 12 of the first body 10. The function members 60 each have a specific size and specification. When the user pushes the two respective handles of the first and second bodies 10, 20, the control portion 22 of the second body 20 drives the second rail portion 33 of the third body 30 to linearly move along the first rail portion 13 of the first body 10. The function member 60 that is located corresponding to the first function end 12 moves linearly so as to be engaged with or to be disengaged from the first function end 12 of the first body 10, such that the holes are punched along a straight line.
A second resilient member 70 is received in the reception slot 312 of the third body 30 and has a second positioning portion 71 which is a ridge and protrudes beyond the reception slot 312. The second positioning portion 71 is engaged with any one of the positioning portions 53 so as to change the function members 60 by rotating the turret 50 and to prevent the turret 50 from freely rotating. The turret 50 is positioned by the second resilient member 70 which is an integral member.
A connector 80 is engaged with the connection portion 521 and contacts outside of the second function end 31 so that the turret 50 is restricted by the connector 80 and is not disengaged from the second function end 31. The connector 80 is a circular clip.
When the turret punch is assembled,
As shown in
As shown in
As shown in
There is one function member 60 which is threadedly connected to the second function end 31. The first body 10 does not have the first recess 111 and the first engaging slot 112. The second body 20 does not have the second recess 211 and the second engaging slot 212. The first resilient member 42 is a spring which biases the first and second bodies 10, 20 and protrudes beyond the turret punch. The first resilient member 42 is located between the first and second bodies 10, 20 to resiliently bias the first and second bodies 10, 20.
As shown in
As shown in
A further embodiment of the present invention shows that the control portion 22 is a single part which is connected to the second body 20.
The present invention includes the following advantages:
As shown in
The control portion 22 of the second body 20 is a rounded protrusion, the third control recess 35 of the third body 30 is shaped to accommodate the control portion 22. The diameter of the third control recess 35 is larger than that of the control portion 22.
Any one of the positioning portions 53 of the turret 50 is located corresponding to the reception slot 312. The second resilient member 70 is located in the reception slot 312 of the third body 30. The second positioning portion 71 protrudes beyond the reception slot 312. The second positioning portion 71 is engaged with any one of the positioning portions 53 so as to change the function members 60 by rotating the turret 50 and to prevent the turret 50 from freely rotating. The turret 50 is positioned by the second resilient member 70.
The turret 50 is pivotably connected to the second function end 31 of the third body 30. The second positioning portion 71 is hidden in the reception slot 312. When the turret 50 is pivotably connected to the third body 30, the reception slot 312 and the second positioning portion 71 are hidden by the turret 50. The positioning portions 53 are hidden by the second function end 31 of the third body 30. The first positioning portions 53 and the second positioning portion 71 are hidden by the turret punch so as have an aesthetic outer appearance.
The first resilient member 42 is hidden in the first recess 111 of the first body 10 and the second recess 211 of the second body 20 so that the first resilient member 42 cannot be seen from outside of the turret punch which has an aesthetic outer appearance.
While we have shown and described the embodiment in accordance with the present invention, it should be clear to those skilled in the art that further embodiments may be made without departing from the scope of the present invention.
Number | Name | Date | Kind |
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618022 | Baltzer | Jan 1899 | A |
734157 | Bernard | Jul 1903 | A |
1308272 | Berglund | Jul 1919 | A |
6282796 | Lin | Sep 2001 | B1 |
7146738 | Yu | Dec 2006 | B2 |
Number | Date | Country |
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9410251 | Oct 1994 | DE |
102006024285 | Dec 2006 | DE |
Number | Date | Country | |
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20180001502 A1 | Jan 2018 | US |