The invention relates to a battery terminal connector with a reversible clamp lever. More specifically, the invention relates to a battery terminal connector having a clamp with first and second flanges extending there from that are actuated by a reversible non-conductive lever to secure the battery terminal connector to a terminal of a battery.
Conventional battery terminal connectors comprise a first end having a clamp with spaced end portions that receive a bolt and a second end with a ring terminal consisting of a cable termination. In use, an electrical cable is attached to the battery terminal connector using the cable termination which may include a variety of clamping or crimping arrangements. The clamp is inserted over a terminal of a battery, and a nut is applied to an end of the bolt. The nut is tightened to force the spaced end portions of the clamp together thereby securing the clamp to the battery terminal. To remove the clamp from the battery terminal, the nut is loosened from the bolt.
These conventional battery terminal connectors have a disadvantage in that tools must be used to effectively tighten and loosen the bolt. Assembly of the battery terminal connector is therefore time consuming and complicated, especially if the terminal and/or the battery is not conveniently located. Because the entire battery terminal connector is generally formed of a conductive material, there is a risk of accidental shock or short circuiting during the assembly and disassembly thereof. Additionally, these conventional battery terminal connectors do not provide an easy or reliable method for attachment of an electrical cable thereto.
To address some of these concerns, battery terminals which do not require tools for assembly have been developed. An example of such a known battery terminal is disclosed by Orange in U.S. Pat. No. 6,971,925 entitled Rotatable Connector for a Battery Cable Clamp. That battery clamp is disclosed as having first and second legs extending from a post section. A connecting pin passes through apertures formed in each leg such that it is coupled to a handle on one end and an end nut on an opposite end thereof. The connecting pin also passes through a seat upon which a boss of the handle rests during rotation to facilitate a clamping action between the legs. On a rear end of the clamp, a cable joining section is provided as a threaded post which is secured to a flat plate. Although the design disclosed in this reference presents a desirable tool-less clamping operation, it has several drawbacks in that a seat is required to facilitate clamping and also presents a drawback in that the flat plate for supporting the threaded post may bend or otherwise break away from the remainder of the assembly. Additionally, the design disclosed in this reference requires many individual parts, which makes the design more costly and difficult to assemble.
The invention provides a battery terminal connector comprising a clamp having opposing first and second flanges extending from ends thereof. A terminal receiving member extends from the first flange. A non-conductive lever is removeably attached to the first and second flanges by a threaded shaft and a knurled nut. The lever is rotatable between an open position and a closed position. The lever and the knurled nut pull the first and second flanges toward each other in the closed position. A ring terminal has a ring connected to the terminal receiving member.
The invention further provides a battery terminal connector comprising a main body including a clamp having first and second flanges extending from ends thereof and a terminal receiving member extending from the first flange. A lever is removeably attached to the first and second flanges. The lever has an eccentric portion with first and second drive members. The first and second drive members have a rod extending therebetween that is positioned closer to a side edge than a bottom edge of the first and second drive members. The lever is rotatable between an open position where the side edges engage the first flange and a closed position where the bottom edges engage the first flange. The lever pulls the first and second flanges toward each other in the closed position. A ring terminal has a ring connected to the terminal receiving member.
The invention still further provides a battery terminal connector comprising a main body including a clamp having first and second flanges extending from ends thereof and a terminal receiving member extending from the first flange. The terminal receiving member is substantially plate-like and extends substantially perpendicular to the first flange. A lever is removeably attached to the first and second flanges by a threaded shaft and a knurled nut. The lever is connected to the threaded shaft by an eyelet and is rotatable between an open position and a closed position. The lever pulls the first and second flanges toward each other in the closed position.
The invention will now be described by way of example with reference to the accompanying drawings wherein a brief description of each figure is provided below.
A side wall 9 extends from the first flange 3 and is positioned substantially perpendicular thereto. The side wall 9 extends from the first flange 3 generally toward the second flange 4. A terminal receiving member 11 extends from the side wall 9 and is positioned substantially perpendicular thereto. This arrangement of the side wall 9 extending from the first flange 3 to support the terminal receiving member 11 results in an improved construction thus reducing the risk of bending or fracture of the terminal receiving member 11. A terminal attachment opening 12 extends through the terminal receiving member 11. A threaded stud 24 that receives a washer 25 and a nut 26 extends through the terminal attachment opening 12 and is fixed thereto, for example, by swaging or clinching. It should be understood that the threaded stud 24 may be secured in the terminal attachment opening 12 by other known methods, such as by welding, by a frictional fit, or by using a suitable fastener.
The main body 2 may be integrally formed, for example, from a conductive material having spring back properties, such as a tin plated brass alloy. It should be understood, however, that other suitable conductive materials having resilient properties may be utilized.
As shown in
As shown in
A rod 20 extends between the attachment member receiving openings 19 and passes through an eyelet 21 formed at an end of a threaded shaft 22. The threaded shaft 22 extends through the connecting openings 6 in the first and second flanges 3, 4 and is attached thereto by a knurled nut 23, as shown in
The assembly and operation of the battery terminal connector 1 will now be described in greater detail with reference to
The assembly of the battery terminal connector 1 with the lever 13 positioned on the side of the first flange 3 of the main body 2 will first be described. As shown in
An electrical cable 29 is secured by the crimp member 28 to the ring terminal 27. The threaded stud 24 of the terminal receiving member 11 is inserted into the opening of the ring 30 of the ring terminal 27 such that the ring 30 is positioned adjacent to the terminal receiving member 11. The washer 25 is inserted onto the threaded stud 24. The nut 26 is threaded onto the threaded stud 24 and is advanced until it substantially abuts the washer 25 to electrically connect the electrical cable 29 to the main body 2.
The clamp 10 of the main body 2 is positioned on the battery terminal 31 of a battery 32. The lever 13 is rotated from the open position shown in
To disconnect the battery terminal 31 from the main body 2, the lever 13 is rotated from the closed position shown in
Alternatively, the lever 13 may be positioned on the side of the second flange 4 of the main body 2, as shown in
The battery terminal connector 1 of the invention thereby eliminates the need for tools when mating and unmating the battery terminal 31 with the battery terminal connector 1 by the use of the lever 13. Because the lever 13 may be formed of a non-conductive material, the lever 13 also prevents accidental shock or short circuiting. Additionally, the lever 13 is reversible so that the battery terminal connector 1 can easily be adapted for use in differing battery 32 and battery terminal 31 arrangements. Further, the terminal receiving member 11 allows for easy connection of the electrical cable 29 to the battery terminal connector 1 through the use of the threaded stud 24, washer 25, and nut 26. The arrangement of the side wall 9 extending from the first flange 3 to support the terminal receiving member 11 also results in an improved construction thus reducing the risk of bending or fracture of the terminal receiving member 11.
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Number | Date | Country |
---|---|---|
9703480 | Jul 1996 | WO |