Patent Application
20080245193
This invention relates generally to tools for turning fasteners and the like and, more particularly, to a wrench device that enables a user to secure the head of a fastener with a socket head and then have the benefit of a ratchet mechanism to tighten or loosen the hard to reach fastener.
There are many times and situations when a mechanic has difficulty tightening or loosening a bolt or nut in that the fastener is in a difficult to reach location. For example, the head of the bolt may be closely surrounded by other parts of an engine, resulting in having to remove those other parts merely to tighten a single bolt. Grasping and turning difficult to reach line fittings is especially difficult.
Various devices have been proposed in the art for easing the difficult of getting a wrench head on line fittings or other difficult to reach fasteners. Namely, wrench heads having a side opening and offset ratchet mechanism have somewhat eased the burdens described above. Although assumably effective for their intended purposes, the existing devices are not configured to fit many different sizes and configurations of fittings.
Therefore, it would be desirable to have a wrench device that may be easily and quickly secured about the head of a fastener or line fitting in difficult to reach locations. Further, it would be desirable for such a wrench device to have a ratchet mechanism so as to avoid having to repeatedly have to reposition and reattach the wrench head to the fastener or fitting. In addition, it would be desirable to have a wrench device that is quickly adaptable to fit many different sizes and configurations of fasteners or fittings.
Accordingly, a wrench device according to the present invention includes an input gear configured to receive an input member such as a ratchet extension or handle. The wrench device also includes a socket housing defining a receiving area and having an open side. A plurality of intermediary gears operatively couple the input gear to the socket housing and such that the input gear is operatively coupled to the socket housing at all times by at least one intermediary gear. The input gear, socket housing, and plurality of intermediary gears may be positioned within a casing. The wrench device may include a set of inserts, each insert being respectively receivable in the socket housing receiving area, defining a receiving area, and having an open side adjacent the socket housing open side when received in the socket housing receiving area. Each insert receiving area presents a configuration different from each other insert receiving area.
At least one interior wall of the socket housing may define a cavity extending away from the socket housing receiving area. A spring biased lock may be coupled to the socket housing such that the lock is partially outside the socket housing cavity when at a first configuration and such that the lock is entirely inside the socket housing cavity when at a second configuration. The lock is biased toward the first configuration. Each respective insert defines a cavity adjacent the socket housing cavity when the insert is received in the socket housing receiving area. The insert cavity has a configuration complementary to a configuration of the lock such that the lock is partially inside the insert cavity when the insert is received in the socket housing receiving area and the lock is at the first configuration.
Therefore, a general object of this invention is to provide a wrench device for securing and turning difficult to access nuts, bolts, or line fittings.
Another object of this invention is to provide a wrench device, as aforesaid, having a ratchet mechanism.
Still another object of this invention is to provide a wrench device, as aforesaid, having a socket housing defining an open side for convenient attachment to fasteners and line fittings.
Yet another object of this invention is to provide a wrench device, as aforesaid, having one or more inserts for the socket housing such that the wrench device may be coupled to fasteners of various sizes and configurations.
A further object of this invention is to provide a wrench device, as aforesaid, that is convenient to use and economical to manufacture.
Other objects and advantages of the present invention will become apparent from the following description taken in connection with the accompanying drawings, wherein is set forth by way of illustration and example, embodiments of this invention.
a is a side view of the wrench device as in
b is a sectional view taken along line 3b-3b of
a is an isolated view on an enlarged scale taken from
b is another isolated view on an enlarged scale taken from
A wrench device 100 according to the present invention will now be described in detail with reference to
The input gear 110 may be configured (as in
At least one of the socket housing interior walls 124 may define a cavity 125 that extends away from the socket housing receiving area 122. While
b shows two intermediary gears 130 operatively coupling the input gear 110 to the socket housing 120, though more or fewer intermediary gears 130 may be used. The input gear 110 is operatively coupled to the socket housing 120 at all times by at least one respective intermediary gear 130. Two intermediary gears 130 are used in the wrench device 100 shown in
As shown in
A set of the inserts 140 may be provided to increase the functionality of the wrench device 100. Each insert 140 may be respectively receivable in the socket housing receiving area 122 and have a configuration as described above. Each insert 140 may have a unique receiving area 142 (i.e., a receiving area 142 that is different from each other insert receiving area 142) so that each insert 140 has a unique functionality. For example, one respective insert 140 may have a generally hexagonal configuration of a first size, another respective insert 140 may have a generally hexagonal configuration of another size, yet another respective insert 140 may have a rectangular configuration, etc.
In use, the insert 140 may be received in the socket housing receiving area 122. If a set of inserts 140 is provided, the insert 140 having the desired functionality (i.e., the desired receiving area configuration) may be selected and then received in the socket housing receiving area 122. Before the insert 140 is received in the socket housing receiving area 122, the lock 126 may be at the first configuration 126a. Contact between a respective insert face 146 and the lock 126 (e.g., the rounded contact member 128) may urge the spring 127 to compress and the lock 126 to move to from the first configuration 126a to the second configuration 126b. Once the insert cavity 145 is adjacent the lock 126, the spring 127 may return the lock 126 to the first configuration 126a, placing a part of the contact member 128 in the insert cavity 145 (
Once the insert 140 is in the socket housing receiving area 122, the input gear 110 may be turned (such as by a ratchet extension), causing the intermediary gear(s) 130 to rotate the socket housing 120 as discussed above. The insert 140 may rotate with the socket housing 120. An item such as a bolt head or other fastener may be placed in the insert receiving area 142 so that rotation of the insert 140 causes the item to rotate.
To remove the insert 140 from the socket housing receiving area 122, a user may apply sufficient force to overcome the resistance of the lock 126, causing contact between a respective insert face 146 and the lock 126 to again urge the spring 127 to compress and the lock 126 to move from the first configuration 126a to the second configuration 126b.
It is understood that while certain forms of this invention have been illustrated and described, it is not limited thereto except insofar as such limitations are included in the following claims and allowable functional equivalents thereof.
