FI66264B - POLLULTSGENOMFOERING I LOCKET TILL HOELJET HOS EN ELEKTRISK ACUMULATOR - Google Patents

Description

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Sweden-Sweden (SE) 7701558-4 (71) Nordiska Acumulatorfabriker Noack AB, Kommendörsgatan 16, S-102 ** 6 Stockholm, Sweden-Sweden (SE) (72) Rolf Svensson, Vimmerby, Sweden-Sweden (SE) (7) * 0 Berggren Oy Ab (5 * 0 Napapu11 in bushing in the battery cover - Polbultsgenomföring i Locket account höljet hos en elektrisk Ac accumulator

The present invention relates to a hub bolt lead-through in an electric battery jacket cover, wherein the pole bolt is surrounded by a plastic sleeve tightly fitted to the cover through the lead-through and wherein an insert of lead sleeve and plastic

Known rechargeable batteries generally have a pole bolt and electrode plates rigidly connected to the battery cover. During use of the battery, the positive electrode plates may tend to expand in the direction of contact, causing the pole bolt to rise and cause damage to the battery cover.

This type of hub bolt bushing is known, for example, from FR patent publication 2,317,779. It has a lead-bolted pole bolt inserted through an opening in the battery cover, and to ensure sealing at the lead-through, a lead sleeve around which a plastic sheath is injected is inserted into the remaining slot of the opening. The Yrn pre-sprayed plastic jacket has a sealing thickening that fits into the seat at the bottom of the sleeve. It is apparently intended to join the opposing plastic surfaces together by welding, although this is not mentioned. In DE-A-2 420 879, the seal between the hub bolt 2 66264 and the cover is provided by a cup-shaped sleeve filled with sealing compound. A rubber ring is used at the bottom to provide a seal between the sleeve and the hub bolt. In addition, the seal is supplemented by a dome that extends over the cup-shaped sleeve and apparently forms a state in which the leaked sulfuric acid remains due to the capillary force.

The main object of the present invention is to provide a lead-through which can move in the axial direction together with the pole bolt while maintaining an effective seal between the interior of the battery and the environment, thus avoiding battery damage due to expansion of the electrode plates. In addition, according to the invention, it is provided in a relatively simple manner that radial forces acting on the bolt can be received without the risk of cracking or breaking the cover.

To achieve these objects, the invention is characterized in that the insert is slidably fitted to the plastic sleeve and that either the plastic sleeve or the body surrounding the lead sleeve has a groove into which a sealing ring is fitted. The sealing ring is preferably an O-ring.

The invention will now be described in more detail with reference to the accompanying drawing, in which Figure 1 shows a first embodiment of the invention in a front sectional view, Figure 2 shows a top view of the embodiment of Figure 1, Figure 3 shows a second embodiment of the invention in a front sectional view, and Figure 4 shows a top view of Figure 3.

The same parts of the drawings are denoted by the same reference numerals.

Figures 1 and 2 show the lead-through of the terminal bolt of a lead-acid type battery. The lead-through comprises a cylindrical sleeve 1 intended to be inserted into a circular hole in the battery cover, the battery not being shown in the drawing. The sleeve has an upper flange 2 in contact with the upper surface of the battery cover and a lower radially inwardly directed flange 3 with a sharp edge intended to allow electrolyte removal as will be shown below.

The sealing insert 4 is arranged radially inside the sleeve. The insert comprises an inner lead sleeve 5, on the outside of which a plastic piece 6 is arranged. The plastic piece 6 is suitably attached to the sleeve 5 by injection, the sleeve 5 being provided with ridges 7 which improve the contact between the lead sleeve and the plastic material.

66264

The outer surface of the plastic body 6 has a circumferential groove 8 which, together with the opposite wall of the cylindrical sleeve 1, forms a lead-through pre-mounted on a seat sealing ring, e.g. an O-ring 9. The width of the groove 8 is suitably such that the O-ring can move to a limited extent. It is easy to see that the groove 8 can be formed in the inner wall of the sleeve 1 instead of the plastic body 6, however, the depth of the groove must be such that close contact is ensured between the entire inner surface of the sleeve 1 and the outer surface of the plastic body 6. During use of the battery, the inner wall of the sleeve 1 receives radial forces via the sealing insert 4.

The plastic piece 6 has a circumferential collar 10 at the top, which is surrounded by the flanged edge of the sealing capsule 11. The sealing capsule does not form part of the invention and will therefore not be explained in detail.

The pole bolt for which the lead lead-through shown is intended is indicated by reference numeral 12. It comprises a copper sheath 13 with a lead sheath, the lead sheath being indicated by reference number 14. The conductor 13 has a copper insert 16 which lowers the internal resistance of the pole bolt.

The pole bolt is connected to a pole pole common to several electrode plates. As can be seen from the drawing, the diameter of the sleeve 1 is much larger than the diameter of the hub bolt 12, which facilitates the installation of a lead-through in the protruding part of the hub bolt.

When the lead-through is attached to the battery cover, a sleeve 1 is placed in the opening provided through which the pole bolt passes. A sealing insert arranged after insertion, so that the tee-vistysrengas 9 is located on the hub bolt projecting end, so that the interior of the sleeve provides a sliding contact, as shown in the drawing. The lead sleeve 5 is then fixedly welded to the upper part of the lead sheath 14 belonging to the pole bolt 13 as shown in point 15, whereby the pole bolt is connected from the sealing to the sealing insert 4.

As can be seen from the above, the sealing insert 4 and thus also the pole bolt 13 can move in the axial direction with respect to the sleeve 1 66264 without abnormal stresses on the battery cover.

Thus, if the pole bolt were to expand in the axial direction during use of the battery, no damage would occur to the battery because the insert 4 was slidably attached to the pole bolt by means of a weld 15.

Any electrolyte that flows down along the pole bolt accumulates at the edge 3, from where it flows down into the battery cell. However, the weld 15 acts as an additional seal in case the electrolyte does not accumulate on the edge 3, but continues to flow along the pole bolt 13.

In the embodiment according to Figure 3, the knife-blade-like surface or surfaces have been replaced by a bellows-like sealing structure 20. The sealing insert 4 again comprises an inner lead sleeve 5 with an outer plastic body 6. However, the plastic body 6 has a lower part 17 with an annular appearance. a foot 18 extending behind the lead sleeve so as to be in contact with the lead sheath of the hub bolt 13. The bellows sealing structure 20 forms an extension of this foot.

The other end of the structure 20 is thickened into a part 19 which is fixed by welding to the lower end of the sleeve 1, thus providing an effective seal against electrolyte penetration. Here again, the sealing ring 9 and the weld 15 act as aids to prevent the electrolyte from escaping from the battery cell.

If the hub bolt 14 were to move in the axial direction, the bellows-like structure 20 allows, as can be seen from Fig. 3, the sealing insert 4 to move towards the inner surface of the sleeve 1.

In other respects, the embodiment of Figure 3 is identical to the embodiment of Figure 1.

Although the invention has been described and illustrated by means of two embodiments, it is to be understood that these do not limit the invention, the scope of which is defined by the following claims.

Claims (2)

5 66264 1. Polygrons in the Locket for electric holes and batteries (12) in the case of a genome-mounted genome Locket in the presence of an electrically operated sleeve (1) in the form of a plastic sleeve (1) in the form of a battery (5) och en kropp (6) av plast som somvändigt omger blybussningen är anbragt mellan core (1) av plast och polbultens (12) vägg med plybussningen (5) tätande mot denna vägg, kännetecknad därav, att insatsen (4) är glidbart anordnad i sles (1) the plastic and the antimony sleeve of the plastic or crimp (6), with the bellows (5) being spaced (8), and the handle being engraved (9). A terminal for a terminal bolt in an electric battery jacket cover, wherein the terminal bolt (12) is surrounded by a plastic sleeve (1) tightly fitted to the cover in the lead-through area and the insert (4) is made of a plumbing sleeve (5) and a plastic body (6) externally surrounding the lead sleeve (1) and the wall of the hub bolt (12), the lead sleeve "(5) being tightly against this wall, characterized in that the insert (4) is slidably fitted to the plastic sleeve (1) and that either in the plastic sleeve or in the body (6) surrounding the lead sleeve (5) ) is a groove (8) into which a sealing ring (9) is fitted. Pole bolt bushing according to Claim 1, characterized in that the sealing ring (9) is an O-ring. Hub bolt bushing according to Claim 1 or 2, characterized in that the outer plastic body (6) of the insert (4) has a bellows structure (20) at its lower end, one end of the structure being welded to the lower part of the cylindrical sleeve (1) and the other part as a piece with a plastic body (6), in addition to which the bellows structure (20) is adapted to stretch during the relative movement between the hub bolt (12) and the sleeve (1>) so as to ensure a seal between the inner part of the sheath and the protruding part of the hub bolt (12). 2. Polbultsgenomföring enligt patentkravet 1, kännetecknad därav, att tätningsringen (9) är en O-ring.