Multicell recombinant lead-acid battery with vibration resistant intercell connector

US 4,780,379 A
Filed: 10/06/1987
Issued: 10/25/1988
Est. Priority Date: 10/06/1987
Status: Expired due to Term

First Claim

Patent Images

1. A vibration-resistant multicell sealed lead-acid battery of the recombinant type having a monobloc jar container with cell compartments and a lid, porous positive and negative plates with protruding tabs positioned in the cell compartments, porous separator material interleaved between the opposite polarity plates, electrolyte absorbed in the plates and separators and present in a starved amount, the cell compartments being separated by intercell partitions having notches at their upper end, the plate tabs of one polarity of a cell being joined to plate tabs of the other polarity of an adjoining cell by a combination strap and intercell connector whose upper surface is positioned closely adjacent to at least a portion of the underside of the battery lid, and whose lower surface substantially rests on the notch of the intercell partition and yet is spaced substantially from the plates and separators to inhibit the formation of intercell electrolyte bridging paths and short circuits.

View all claims

3 Assignments

Timeline View

Assignment View

0 Petitions

Accused Products

Abstract

A multicell lead-acid battery having a low profile, unitary combination cast-on-strap and intercell connector configured relative to other components of the battery to be resistant to vibrational forces. A method for forming the connector features a heat sealing step to provide a tight mechanical fit.

Citations

22 Claims

1. A vibration-resistant multicell sealed lead-acid battery of the recombinant type having a monobloc jar container with cell compartments and a lid, porous positive and negative plates with protruding tabs positioned in the cell compartments, porous separator material interleaved between the opposite polarity plates, electrolyte absorbed in the plates and separators and present in a starved amount, the cell compartments being separated by intercell partitions having notches at their upper end, the plate tabs of one polarity of a cell being joined to plate tabs of the other polarity of an adjoining cell by a combination strap and intercell connector whose upper surface is positioned closely adjacent to at least a portion of the underside of the battery lid, and whose lower surface substantially rests on the notch of the intercell partition and yet is spaced substantially from the plates and separators to inhibit the formation of intercell electrolyte bridging paths and short circuits.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
- - 2. The lead-acid battery of claim 1 having a low profile wherein the ratio of the distance from the bottom of the lid to the top of the separator, on the one hand, and the distance from the bottom of the lid to the bottom of a cell compartment is from about 0.020 to about 0.1.
  - 3. The lead-acid battery of claim 1 wherein the lid is heat sealed to the container and intercell partition, and melt from the heat seal contacts and partially surrounds the strap and intercell connector.
  - 4. The lead-acid battery of claim 3 wherein the strap and intercell connector is tightly held in the intercell partition.
  - 5. The lead-acid battery of claim 4 wherein the strap and intercell connector is sealed against the intercell partition and lid to prevent gas flow between cells.
  - 6. The lead-acid battery of claim 4 wherein space is maintained between the strap and intercell connector and the intercell partition or lid to provide a gas passageway between adjoining cells.
  - 7. The lead-acid battery of claim 1 wherein the strap and intercell connector mechanically interlock with the intercell partition.
  - 8. The lead-acid battery of claim 1 wherein the strap and intercell connector is laterally offset relative to the notch in the intercell partition.

9. A vibration-resistant multicell sealed lead-acid battery of the recombinant type having monobloc jar container with cell compartments and a lid, porous positive and negative plates with protruding tabs positioned in the cell compartments, porous separator material interleaved between the opposite polarity plates, electrolyte absorbed in the plates and separators and present in a starved amount, the cell compartments being separated by intercell partitions having notches at their upper end, the plate tabs of one polarity of a cell being joined to plate tabs of the other polarity of an adjoining cell by a combination strap and intercell connector which is mechanically interlocked to the lid and/or intercell partition at the notch by virtue of melt from an operation heat sealing the lid to the intercell partition contacting and at least partially surrounding the strap and intercell connector in interlocking relationship.
- View Dependent Claims (10, 11, 12, 13, 14)
- - 10. The lead-acid battery of claim 9 having a low profile wherein the ratio of the distance from the bottom of the lid to the top of the separator, on the one hand, and the distance from the bottom of the lid to the bottom of a cell compartment is from about 0.020 to about 0.1.
  - 11. The lead-acid battery of claim 9 wherein the strap and intercell connector is sealed against the intercell partition and lid to prevent gas flow between cells.
  - 12. The lead-acid battery of claim 9 wherein space is maintained between the strap and intercell connector and the intercell partition or lid to provide a gas passageway between adjoining cells.
  - 13. The lead-acid battery of claim 9 wherein the strap and intercell connector is laterally offset relative to the notch in the intercell partition.
  - 14. The lead-acid battery of claim 9 wherein the interlock is made directly between the strap and intercell connector, and lid and/or intercell partition melt, without any other intervening material.

15. A vibration-resistant multicell sealed lead-acid battery of the recombinant type having a monobloc jar container with cylindricla cell compartments and a lid, porous positive and negative plates spirally wound together with protruding tabs positioned in the cell compartments, porous separator material interleaved between the opposite polarity plates, electrolyte absorbed in the plates and separators and present in a starved amount, the cell compartments being separated by intercell partitions having notches at their upper end, the plate tabs of one polarity of a cell being joined to plate tabs of the other polarity of an adjoining cell by a combination strap and intercell connector having a generally inverted V-shaped with a pair of depending legs respectively joined to opposite polarity tabs and offset relative to the notch in the intercell partition, and the strap and intercell connector having an upper surface which is positioned closely adjacent to at least a portion of the underside of the lid.
- View Dependent Claims (16, 17, 18, 19)
- - 16. The lead-acid battery of claim 15 wherein the combination strap and intercell connector is formed by the cast-on-strap process.
  - 17. The lead-acid battery of claim 15 wherein the ratio of the distance from the bottom of the lid to the top of the separator, on the one hand, and the distance from the bottom of the lid to the bottom of a cell compartment is from about 0.020 to about 0.1
  - 18. The lead-acid battery of claim 15 wherein space is maintained between the strap and intercell connector and the intercell partition or lid to provide a gas passageway between adjoining cells.
  - 19. The lead-acid battery of claim 15 wherein the strap and intercell connector mechanically interlock with the intercell partition.

20. A process for producing a vibration-resistant multicell lead-acid battery, comprising:
- a. forming a plurality of cell packs comprising porous positive and negative plates and interleaved separators, the plates having tabs protruding fom an edge of the cell pack;
  
  b. positioning the cell packs within open cell compartments of a thermoplastic monobloc container so that the tabs protrude beyond the edge of the open end of the cell compartments;
  
  c. inverting the container and maintaining the tabs in protruding relation to the edge of the open end of the cell compartments;
  
  d. immersing the tabs in molten lead contained within a mold to form a combination unitary cast-on-strap and intercell connector interconnecting tabs of one polarity of a cell to tabs of the other polarity of an adjoining cell across and intercell partition;
  
  e. pressing the cell packs with combination cast-on-straps and intercell connectors to the bottom of the cell compartments at their closed end; and
  
  f. heat sealing a lid to the intercell partition(s) so that the lid and intercell partition partially melt, and the resultant melt is squeezed to cause it to contact and flow around, and solidify against, the unitary cast-on-strap and intercell connector.
- View Dependent Claims (22)
- - 22. The process the claim 20 wherein the resultant melt fully bridges the space formed between the lid and the combination unitary cast-on strap and intercell connector.

21. A vibration-resistant multicell sealed lead-acid battery of the recombinant type having a monobloc jar container with cylindrical cell compartments and a lid, porous positive and negative plates spirally wound together with protruding tabs positioned in the cell compartments, porous separator material interleaved between the oppositive polarity plates, electrolyte absorbed in the plates and separators and present in a starved amount, the cell compartment being separated by intercell patitions having notches at their upper end, the plate tabs of one polarity of a cell being joined to plate tabs of the other polarity of an adjoining cell by a combination strap and intercell connector having a generally inverted V-shape with a pair of depending legs respectively joined to opposite polarity tabs and offset relative to the notch in the intercell partition, the lid being heat sealed to the container and intercell partition, with the melt from the heat seal contacting and partially surrounding the strap and intercell connector.

Specification

Resources

Litigation Campaign Assessment

Current Assignee
Johnson Controls Technology Company (Johnson Controls International plc)
Original Assignee
Gates Energy Products, Inc. (Schneider Electric SE)
Inventors
Puester, Neil
Primary Examiner(s)
Walton, Donald L.

Application Number

US07/106,731
Time in Patent Office

385 Days
Field of Search

429/94, 429/160, 429/158, 429/159, 429/161, 429/59, 29/623.1, 29/623.2
US Class Current

429/59
CPC Class Codes

H01M 10/342   Gastight lead accumulators ...

H01M 50/529   Intercell connections throu...

H01M 50/536   characterised by the method...

H01M 50/541   for lead-acid accumulators

Y02E 60/10   Energy storage using batteries

Y02P 70/50   Manufacturing or production...

Y10T 29/4911   including sealing

Multicell recombinant lead-acid battery with vibration resistant intercell connector

First Claim

3 Assignments

0 Petitions

Accused Products

Abstract

Citations

22 Claims

Specification

Solutions

Use Cases

Quick Links

Multicell recombinant lead-acid battery with vibration resistant intercell connector

First Claim

3 Assignments

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

Subscription Required

Abstract

Citations

22 Claims

Specification

Subscription Required

Solutions

Use Cases

Quick Links