This invention relates to tools. In particular, this invention relates to a safety tool for removing the vented caps from rechargeable lead acid batteries.
Many types of equipment use rechargeable lead acid batteries, including electric vehicles. Some types of electric vehicles, particularly those designed for indoor use, for example fork lift trucks, run entirely on one or more rechargeable lead acid battery. For such vehicles, it is imperative that the batteries be properly maintained, for the continued safe and effective operation of the vehicle.
Part of a proper maintenance and inspection program for such batteries is the maintenance and inspection of water levels within the battery. For this purpose, a rechargeable lead acid battery is provided with removable vented caps for each of these separate compartments or “cells” containing a mixture of electrolyte and water fluids.
However, since the fluid in the battery cell is corrosive, the manual removal of such battery caps is a potentially hazardous chore. Furthermore, the repercussions of failing to maintain adequate fluid levels in a battery are not immediately apparent. For these reasons, workers often fail to maintain regularly scheduled fluid top-ups for batteries used in fork lift trucks and the like. This results in a reduction in the efficiency of the battery and, in extreme cases, damage to the battery and/or the vehicle's related electrical components.
There is therefore a need for a tool which can be used to safely and easily remove such battery caps. However, there are many different standard “designs” of battery caps, and it is not practical or desirable to maintain multiple tools for this purpose.
In drawings which illustrate by way of example only a preferred embodiment of the invention,
In one embodiment the invention provides tool for removing a cap from a battery cell, the cap having a sidewall and radially extending tabs, comprising: a handle affixed to a socket, the socket comprising a plurality of recesses extending from the floor of the recesses to the opening of the socket, a plurality of pinch projections associated with said recesses, said pinch projections extending from a floor of the socket partway toward an opening of the socket and into a central portion of the socket forming second sets of recesses respectively underlying first sets of recesses, the first and second sets of recesses having different shapes or dimensions or both, whereby a plurality of different configurations of cap can be lodged and rotationally fixed within the socket to remove said cap from the battery cell.
A typical battery (not shown) provides a series of separate compartments or “cells” containing a liquid electrolyte and water mixture. The opening to each cell is covered by a quarter turn screw down vented cap 2. The vented cap 2 may be provided with two or four radially extending finger grip tabs 4, to facilitate manual rotation for removal and replacement of the vented cap 2. Examples of standard battery caps are illustrated in
As illustrated in
Preferably the handle 12, stem 14 and socket 20 are integrally molded from a strong, rigid ABS plastic. However, the components of the tool may be integrally formed, or individually formed, from any suitable non-conductive material, preferably plastic. Suitable thicknesses and reinforcing structures such as ribs may be provided as required to impart structural integrity and torsional rigidity to the tool 10.
The interior of the socket 24 shown in
In particular, the sidewall 21 is configured with recesses 30 evenly spaced about the periphery of the sidewall 21 at 90° intervals. As illustrated in
Extending axially from the floor 22 partially toward the opening of the socket 20, and from the rectangular section 30 into the open central portion 24 of the socket 20, is a pair of pinch projections 40. The pinch projections 40 are preferably generally parallel and preferably integrally molded with the socket 20. Each pinch projection 40 comprises a projecting section 40a projecting inwardly into the central portion 24 of the socket 20 and a peripheral arcuate section 40b. Thus, the recess 30 axially overlays (in bottom view) the rectangular and arcuate sections 40a, 40b.
In particular, in respect of the cap 2 shown in
In respect of the cap 2 shown in
In respect of the cap 2 shown in
In respect of the cap 2 shown in
The cap 2 thus remains lodged in the socket 20 of the tool 10 while the user refills the battery cell associated with the removed cap 2, and the cap 2 can then be returned and secured to the battery without ever removing the cap from the socket 20. Thus, the user's hands never need to approach the potentially corrosive liquids contained within the battery. Furthermore, rotation of each cap 2 is facilitated by the leverage provided by the “T” handle 12 of the tool 10.
Various embodiments of the present invention having been thus described in detail by way of example, it will be apparent to those skilled in the art that variations and modifications may be made without departing from the invention. The invention includes all such variations and modifications as fall within the scope of the appended claims.