Sealing structure for terminal posts of batteries

Abstract

A battery, particularly of the lead acid type, has two terminals (4), one connected to the positive plates and the other to the negative plates. Each terminal (4) is located in an aperture in the battery lid (2) and a seal (10) located under lid (2) surrounds the respective terminal (4). A space is also defined around each terminal and contains settable material such as epoxy resin cement in a set condition.

Description

[0001] This invention relates to a battery, particularly but not exclusively of the lead acid type.

[0002] In a known battery construction the positive and negative plates respectively are electrically connected together and respectively to positive and negative terminals by means of connecting straps. The plates are positioned in a box-like container, usually of moulded plastics material, and a lid is placed on top of the box, the terminals projecting through respective apertures in the lid. The lid is sealed to the box using a suitable cement or by heat-sealing and the terminals are sealed within the respective apertures to prevent unwanted leakage of fluid e.g. acid, fumes or gases such as hydrogen

[0003] It is also known to use a settable material such as an epoxy resin to seal the terminals in their respectivee apertures, but nevertheless leakages can and do occur.

[0004] It is an object of the present invention to provide an improved construction which does not suffer from or suffers less from this disadvantage.

[0005] In accordance with the invention a battery comprises positive and negative plates, two connecting straps, one connected to the positive plates and the other to the negative plates, the plates and straps being enclosed in a box with a lid, two terminals, each one projecting from a respective connecting strap through a respective aperture in the lid, two zones on the underside of the lid each one surrounding one of the two apertures and facing an upper surface of the respective strap, two compressible seals, each one surrounding a respective aperture and being compressibly located between the respective zone and the facing upper surface of the strap, and two spaces, each one being defined around a respective terminal interiorly of the respective aperture, each space containing settable material in a set condition.

[0006] Preferably each seal, which may be a sealing ring, is compressed by a predetermined amount and may be retained within a groove which surrounds the respective aperture. The groove may have an overall predetermined depth less than the height of the seal and may be formed either wholly in, the zone or wholly in the upper surface of the strap, or partly in the zone and partly in the upper surface of the strap. When the zone is in contact with the upper surface of the strap, the seal is compressed from its natural height to a height equal to the depth of the groove. The amount of compression is thereby predetermined.

[0007] Preferably retaining means is provided for each terminal to ensure that the upper surface of the respective strap and the respective zone remain in contact and that the compression of the seal is maintained. The retaining means may comprise a screw-threaded collar positioned on an externally screw-threaded portion of the respective terminal, a lower part of the collar contacting a region of the lid above the aforementioned zone.

[0008] At least one channel may be provided for enabling settable material to be fed to the space around each terminal, especially when the retaining means is maintaining the compression of the seal. The channel may be provided in the retaining means and/or in the lid.

[0009] The apertures may each be positioned at the base of a respective recess formed in the lid and the retaining means e.g. the collar is positioned wholly within the recess. Settable material may surround the retaining means.

[0010] Each terminal may have a lower part which is embedded in the material of the respective strap, the lower part comprising a flanged base portion and a narrower neck portion above the base portion.

[0011] One embodiment of the invention will now be described by way of example only with reference to the accompanying drawings of which:—

[0012] FIG. 1 shows a cross-section through part of a lead acid battery in accordance with the invention;

[0013] FIG. 2 shows a similar view to FIG. 1 but the side view of the terminal, collar and upper part of the strap being shown; and

[0014] FIG. 3 shows a sectional view on line III-III of FIG. 2.

[0015] The battery according to the invention comprises a box 1 containing positive and negative plates (not shown) and a lid 2 secured to the box by a suitable bonding agent such as an epoxy resin cement Alternatively the lid may be secured to the box by heat sealing.

[0016] The positive and negative plates respectively are connected by means of lead connecting straps 3. These are formed in a conventional manner by casting so that lugs on the corners of the plates (not shown) and a lower part of a plated terminal 4 are embedded within the respective strap 3.

[0017] The lid 2 is shaped to have two recesses 5, at the base 6 of each of which is an aperture through which one of the terminals 4 protrudes. Underneath the base 6 is a zone comprising a horizontal surface 7 which contacts an upper horizontal surface 8 of the strap 3. Formed within the zone at the base of the recess is an annular groove 9 having a generally rectangular cross-section which encircles the aperture. A seal in the form of a generally square cross-sectional elastomeric sealing ring 10 which has a natural height less than the depth of the groove 9 is compressed and retained within the groove 9 by contact with the upper surface 8 of the strap 3. By making the depth of the groove 9 a predetermined amount less than the natural height of the ring 10, the amount of compression of the sealing ring is predetermined and controlled.

[0018] The terminal 4, machined from a copper alloy such as brass, has a hexagonal flange 11 at its base, and immediately above the flange, a neck portion 12. Lead from the strap 3 enters and fills the neck portion 12 during casting so that the terminal 4 is securely located. The terminal 4 is generally cylindrical, part of the outer surface being formed with a screw thread 13, Extending part of the way Inside and from the top of the terminal 22 is an internally screw-threaded bore 14 for receiving a cable end (not shown).

[0019] An internally threaded collar 15 of moulded plastics material such as ABS is located on the terminal 4. The lower part 16 of the collar has a smooth outer surface and is wider than the remainder. The under surface 17 of the collar contacts the upper surface 18 of the base 6 of the recess 5 encircling the terminal aperture and by tightening the collar 15 the zone 7 of the base correctly engages the upper surface 8 of the strap 3 and the seal 10 is compressed by the required amount Short radially-extending channels 25 are provided on the underside 17 of the collar 16 enabling settable epoxy resin to be poured into the recess 5 and flow into the space below the collar 16 surrounding the terminal 4 above the upper surface of the strap 3 to form a ring 26, which is allowed to set. Channels (not shown) may alternatively or additionally be formed in the upper surface 18 of the base 6.

[0020] The collar 15 has a central part 19 immediately above the lower part 16 which is formed with vertical ribs 20 to enable the collar 15 to be gripped firmly and tightened or loosened as required. Above the central part 19 is an upper portion 21 having an undercut shoulder 23 encircling the collar. This retains a separate cap 27 which has a top part 28 and a cylindrical part 24 which covers the top of the collar, the cylindrical part having an inwardly-projecting lip 29 which engages the undercut shoulder 23 in a snap-fit arrangement. The top part 28 covers the recess 5, which is part filled with epoxy resin, but has a central aperture through which the top 22 of the terminal projects slightly.

[0021] When assembling the battery seals 10 are each placed in a respective groove 9, one for each terminal 4. The edges of the lid are covered in a suitable bonding agent e.g. epoxy resin and the lid lowered on to the box with each terminal projecting through its respective aperture in the base of a recess. A collar 16 is placed on to each terminal and screwed down tightly, causing the seal 10 to be compressed and the undersurface zone 7 of the base to firmly contact the upper surface of the strap. Epoxy resin is then poured into the recess. Some flows down the side of the collar, through the grooves 25 on its under surface and to fill the space between the inner side of the aperture and the outer side of the terminal. This is shown at 26 in the drawings.

[0022] The ring of resin so formed adheres to the lower part of the terminal, to the strap and to the lid to provide a secondary seal i.e. a safeguard if the elastomeric seal 10 fails. The adhesion of the resin to the lead (of the strap and terminal) and the ABS (of the lid) forms an effective barrier against acid transport, hence limiting corrosion.

[0023] Enough resin is poured into the recess to reach a height approximately level with the top of the collar. When the resin is set, the collar is effectively locked in position on the terminal. The cap 27 is then placed on the collar to cover the recess 5.

[0024] This construction provides for reduced terminal corrosion and higher sealing integrity, thus leading to longer battery life.

Claims

1-19. (Canceled)

20. A battery comprising: a plurality of positive and negative plates; a first strap sealed to the positive plates; a second strap sealed to the negative plates; a first terminal electrically connected to the first strap; a second terminal electrically connected to the second strap; at least one of said first and second straps comprising an annular sealing groove about its respective associated terminal; a container; a lid sealed to said container, the first and second straps and positive and negative plates being disposed within the sealed lid and container, said lid comprising first and second apertures, the first and second terminals protruding through said first and second apertures, the lid further comprising an annular sealing surface; and at least one compliant seal disposed between said annular sealing groove and said annular sealing surface.

21. The battery of claim 20 wherein the annular sealing surface includes at least one surface that is substantially parallel to the annular sealing groove.

22. The battery of claim 20 wherein the annular sealing surface comprises a groove in said lid.

23. The battery of claim 20 wherein the annular sealing surface comprises a protrusion.

24. The battery of claim 20 wherein the lid further comprises at least one depression comprising a base, one of said first or second apertures being disposed in said base, the battery further comprising at least one retainer disposed about and engagable with at least one of the terminals, the retainer exerting a downward force on the base.

25. The battery of claim 24 wherein the retainer comprises an internally threaded collar and the at least one of the terminals is externally threaded such that the collar may be threaded onto the at least one of the terminals and tightened to exert a force on the base.

26. The battery of claim 24 further comprising a settable material disposed between the retainer and depression.

27. The battery of claim 20 further comprising a space between one of the terminals and its respective aperture and a settable material disposed within the space.