The invention pertains to electro-chemical gas sensing cells. More particularly, the invention pertains to such cells where one or more fused connections can be provided between lead wool anodes and an associated current collector.
Various types of oxygen sensors are known which incorporate lead wool anodes. These include, without limitation, U.S. Pat. No. 4,132,616 entitled, “Gas Sensor” which issued Jan. 2, 1979, and U.S. Pat. No. 4,324,632 entitled “Gas Sensor” which issued Apr. 13, 1982. Both the '616 and the '632 patents are assigned to City Technology Limited.
“Glitching” which is also known as Thermal shock in an oxygen cell can be removed by the addition of a vent in the body molding of the cell. This vent is in the form of a small laser drilled hole. Its function is to balance pressure differences within the cell experienced during transition of the cell between different ambient temperatures/pressures.
By venting the body molding the vent hole provides an alternative gas path to the inside of the cell. Without the vent hole the only path is that of the capillary hole in the cap which exposes the working electrode to an increased gas flow to during the transition to pressure equilibrium, this has the effect of an enhanced cell output that is miss interpreted by an instrument as an increase or decrease in Oxygen concentration this unpredicted change is referred to as a “Glitch”.
The addition of a vent hole creates another problem within the oxygen cell, as normally this environment is anaerobic due to the fact that the only gas path into the cell is via the capillary hole located in the top cap. With a vent in the lower half of the cell this environment becomes aerobic and build up of lead oxide on the surface of the lead wool anode is promoted which in turn creates an electrical connection breakdown between the anode current collector and the lead anode. In non vented cells all oxidation occurs directly below the capillary hole and working electrode and continues downwards in a conical pattern leaving the outer surface of the lead anode un oxidized until eventually all lead is oxidized and the cell reaches end of life.
Contact between interconnected lead strands within the lead anode (made from lead wool) and external electrical connections is normally created by a nickel foil (current collector) in a pressure contact with a nickel or stainless steel mesh that is in turn connected to the lead anode, again via a pressure connection. The Mesh provides multiple points of contact across the lead and so in a non-vented cell provides good electrical connection with the lead anode up to the point of just before total lead oxidation. With a vented cell surface oxidation interferes with the electrical contact between the mesh and the lead anode before total lead oxidation occurs.
In connection with unvented sensors, there is a possibility that undesirable reaction products in an unvented sensor could still prematurely shorten the sensor life by destroying anode interconnectivity near the normal end of life calculated on the basis of electrochemical consumption (albeit by a different mechanism to the main one discussed here). In effect, what has been considered to be lead exhaustion may in fact be a manifestation of loss of connectivity, albeit in a controlled way which results from a gradual wave front of lead consumption moving through the sensor
There is a need to improve connectivity between lead wool anodes and external electrical connections.
While embodiments of this invention can take many different forms, specific embodiments thereof are shown in the drawings and will be described herein in detail with the understanding that the present disclosure is to be considered as an exemplification of the principles of the invention, as well as the best mode of practicing same, and is not intended to limit the invention to the specific embodiment illustrated.
It is desirable to ensure that the interconnected lead strands of a lead wool anode are bonded to the current collector. In one aspect of the invention, this can be achieved by the use of a fused connection as an improvement to the current pressure connections. The fused connections will exclude oxygen from the current collector—lead anode interface. Such connections can also be expected to be useful in unvented sensors, or cells.
In one embodiment, a ribbon current collector can be trapped between lead wool and a metal mesh during formation of an anode. Flux can then be applied to the anode being formed. The anode being formed can then be dipped into a solder bath, for example a tin-lead solder bath. Those of skill will understand that other forms of bonding, some of which are discussed below, come within the spirit and scope of the invention.
The formation of the anode can be finished by using heat, from a heat gun, to reflow excess solder. Then anode can then be washed in de-ionized water to remove any remaining flux. In an anode so formed, the metal current collector is fused to the lead wool. Alternately, the collector can be resistance welded to the mesh and/or the lead wool.
A portion of a current collector 16, external anode connection, made from an electrically conductive material is placed into the cavity 14. The current collector 16 can be implemented in as a wire or foil.
A conductive medium 18 is inserted into the cavity 14. Exemplary conductive mediums may include solder paste, solder wire, metal loaded epoxy resins all without limitation. A process to form the fused electrical connection between the lead anode 12 and the current collector 16 is then undertaken. For example, wave soldering can provide such a fused connection. Alternately, electrical, such as resistance welding, or chemical methods of fusion all without limitation can be used. Elements 12-18 can be carried in a housing 10-1 and implemented as an electro-chemical sensor, such as an oxygen sensor.
A conductive medium 18-1 is applied to the cavity 14-1 and surface area of the lower half of the lead anode 12-1. Conductive mediums may include solder paste, solder wire, metal loaded epoxy resins all without limitation.
A process to form a fused electrical connection between the lead anode 12-1 and the conductive medium 18-1 is then carried out. This may involve flow soldering via a re-flow oven if using solder paste, a wave soldering process W as illustrated in
Another embodiment of the invention is illustrated in
In the embodiment and structured 50 of
As those of skill in the art will understand, the lead anode, from lead wool strands, is formed by pressing the wool strands into a finished shape using a pressing and forming tool. This pressing operation can be performed in an orientation and sequence such that it minimizes the solder uptake into the lead during the soldering operation. During this pressing operation the pressing tool presses the top of the anode into the forming tool. The pressing tool then presses upwards from the bottom of the forming tool to press the anode into its final form.
With anodes that have a fitted metal mesh the mesh is pre formed prior to use to ensure correct coverage of the base of the anode. Prior to soldering a flux is applied to the lead using a mask to ensure that solder is applied and fuses only to areas where it is required since the solder will not fuse to the lead without the flux.
For operation of the finished senor that all residual flux should be removed. A washing process using deionized water can be used to flush through the lead strands. During the washing process the conductivity of the water can be measured to determine that all flux has been successfully removed from the anode.
A drying process can be used to ensure all moisture from the washing process is removed. A tunnel oven can be used for drying. Solder coverage of the anode may vary from full coverage to part coverage of the base/side walls.
Those of skill will understand that all alternates to soldering, which produce fused, conductive, connections, come within the spirit and scope of the invention.
From the foregoing, it will be observed that numerous variations and modifications may be effected without departing from the spirit and scope of the invention. It is to be understood that no limitation with respect to the specific apparatus illustrated herein is intended or should be inferred. It is, of course, intended to cover by the appended claims all such modifications as fall within the scope of the claims.
This application claims the benefit of the filing date of U.S. Provisional Application Ser. No. 61/224,265 filed Jul. 9, 2009 and entitled “Method of Making Multiple Electrical Connections to Lead Wool Strands within the Lead Anode of an Oxygen Sensing Cell within an Oxidizing Environment”. The '265 application is hereby incorporated herein by reference.
Number | Date | Country | |
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61224265 | Jul 2009 | US |