This Application claims priority to Chinese Patent Application No. CN201410318060.8 filed on Jul. 4, 2014 the contents of which are hereby incorporated by reference herein.
This disclosure relates to pliers, and, more specifically, this disclosure relates to self-adjusting pliers.
Attempts have been made in the past to provide for rapid adjustment of pliers' jaw members. Such pliers have a pair of pivotal crossed handle members and a slidable jaw member. One handle includes a fixed jaw which cooperates with the slidable jaw member. A toothed pawl is disposed about the pivot and projects into a slot in one handle member for engaging a plurality of slot teeth disposed therein. The pawl is biased into engagement with the slot teeth by a spring supported on the pivot. In operation, the pliers are adjusted over a work piece and pressure applied on the handles to cause a camming surface on one handle to cam against the edge of the slidable jaw and force it up against the work piece. Such pliers found in the prior art, however, are cumbersome and difficult to use.
Self-adjusting pliers are disclosed. The pliers include a first body having a handle on one end and a jaw on another end and a second body having a handle on one end and a jaw on another end. A piston is pivotally attached at a first end to the first body and pivotally attached at a second end to the second body and compressible about an axis extending between the first end and the second end. The piston further comprises a sleeve, a spring positioned in the sleeve, and a guide bar for movement against the spring. A first rotational axis combines the first end of the piston to the first body, and a second rotational axis combines the second end of the piston to the second body. The first rotational axis and the second rotational axis cooperate to move the jaw on the first body toward the jaw on the second body. A longitudinal axis extends between the first rotational axis and the second rotational axis.
The pliers further include a slot in the first body between the handle and the jaw, and a pin combining the second body to the first body for movement in the slot. The slot comprises a sliding surface and a ratcheting surface. A pawl is combined to the pin for sliding movement on the sliding surface and one-way movement on the ratcheting surface.
A tension spring is attached to the second body at one end and to the second end of the piston at the other end to bias the jaw on the first body away from the jaw on the second body. A lock is combinable to the second end of the piston for holding the jaw on the first end with respect to the jaw on the second end.
A slot 118 is provided in first body 102 between jaw 108 and handle 106. Slot 118 has a sliding surface 120 substantially parallel to a ratcheting surface 122. A pawl 124 is combined to second body 104 by pin 127 to guide jaw 112 of second body 104 toward jaw 108 of first body 102. Pawl 124 has a sliding surface 126 to cooperate with sliding surface 120 of slot 118. A ratchet mechanism is provided by teeth 128 on pawl 124 that cooperate with ratcheting surface 122 to provide one-way movement of second body 104 to hold jaw 112 of second body 104 with respect to jaw 108 of first body 102.
A piston 130 connects first body 102 and second body 104. Piston 130 has a first end 132 pivotally attached to first body 102 and a second end 134 pivotally attached to second body 104. A single longitudinal axis extends along piston 130 between first body 102 and second body 104 for a single axis of compression force. Piston 130 includes a sleeve 136 having contained therein a spring 137. Sleeve 136 is pivotally combined at one end to second body 104 by a pin 138. A guide bar 142 is pivotally combined to first body 102 by a pin 140. Guide bar 142 is positioned in sleeve 136 for back-and-forth, telescoping movement and biased outward by spring 137. Guide bar 142 has a recess 144 and a lock 146 to provide a path of travel for a pin 148 restrained to sleeve 136. Pin 148 of sleeve 136 is broad enough to encompass any shape (round, bearing, oval, rectangular, square, etc.), and has a smooth surface for sliding back and forth across recess 144 of guide bar 142.
In operation, pliers 100 has three phases of movement that may work independently, substantially simultaneously, or any combination. First, when first body 102 and second body are squeezed together, second body 104 pivots clockwise about pin 138 and is guided about slot 118 by sliding surface 126 of pawl 124, which brings jaw 112 of second body 104 toward jaw 108 of first body 102. Second, when the work piece is engaged between jaws 108, 112, second body pivots counter-clockwise about pin 140 to move pawl 124 upward and engage teeth 128 of pawl 124 with ratcheting surface 122 of slot 118 to prevent retraction. Third, first body 102 and second body 104 are brought closer together by the linear compression of piston 130.
While this disclosure has been particularly shown and described concerning various examples thereof, it should be understood by those of ordinary skill in the art that various changes, substitutions and alterations can be made herein without departing from the scope of this disclosure as defined by appended claims and their equivalents. Various aspects of any of the examples can be combined in different combinations than the ones shown to create new examples that fall within the scope of the appended claims.
Certain terminology is used herein to describe the different examples. Such terminology is used only for convenience when referring to the figures. The components can be oriented in any direction, and the terminology should therefore be interpreted to include such variations. This disclosure can be better understood by reference to the following claims. For purpose of claim interpretation, the transitional phrases “including” and “having” are intended to be synonymous with the transitional phrase “comprising.”
Number | Date | Country | Kind |
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2014 1 0318060 | Jul 2014 | CN | national |
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