T 0144/20 (BATTERY SEPARATOR/Dreamweaver) of 19.7.2022

European Case Law Identifier: ECLI:EP:BA:2022:T014420.20220719
Date of decision: 19 July 2022
Case number: T 0144/20
Application number: 12789264.4
IPC class: H01M 2/16
D21H 27/00
D21H 15/02
H01G 11/52
H01M 2/14
H01M 2/18
H01M 10/052
D21H 13/10
Language of proceedings: EN
Distribution: D
Download and more information:
Decision text in EN (PDF, 297 KB)
Documentation of the appeal procedure can be found in the Register
Bibliographic information is available in: EN
Versions: Unpublished
Title of application: SINGLE-LAYER LITHIUM ION BATTERY SEPARATOR
Applicant name: Dreamweaver International, Inc.
Opponent name: Heinemann, Christoph
Board: 3.3.05
Headnote: -
Relevant legal provisions:
European Patent Convention Art 56
Keywords: Inventive step - (no)
Catchwords:

-

Cited decisions:
-
Citing decisions:
-

Summary of Facts and Submissions

I. The appeal by the opponent (appellant) lies from the opposition division's interlocutory decision to maintain the patent on the basis of auxiliary request 5, filed during the oral proceedings in opposition.

II. Both the patent proprietor and the opponent filed appeals against this decision and paid the appeal fee. However, the patent proprietor (now respondent) did not file a statement of grounds of appeal. At the oral proceedings before the board, the respondent informed the board that its appeal was no longer pursued.

III. The set of claims as maintained by the opposition division (auxiliary request 5) is the only claim request submitted by the (now) respondent in appeal proceedings.

IV. The following documents referred to in the decision under appeal are of relevance here:

D2a|WO 2010/044264 A1; publication of the Japanese PCT application PCT/JP2009/005365, published on 22 April 2010|

D2b|US 2011/0206972 A1; publication of the US national phase application of D2a, published on 25 August 2011 |

V. Claim 1 of auxiliary request 5 reads:

"1. A polymeric battery separator comprising a nonwoven combination of microfibers and nanofibers, wherein said combination of microfibers and nanofibers is present as a single layer within said separator, and wherein said separator provides sufficient porosity for electrolyte ion transfer therethrough and suitable prevention of electrode contact when present within a battery, wherein said nanofibers have an average diameter less than 1000 nm, wherein said microfibers have a diameter greater than 3000 nanometers, and wherein said nanofibers and microfibers are intermingled such that at least a portion of said nanofibers reside in the interstices between said microfibers; and wherein the battery separator has a cross direction (CD) tensile strength greater than 100 kg/cm**(2) optionally greater than 250 kg/cm**(2)."

VI. The parties' arguments under Article 56 EPC can be summarised as follows.

The appellant argued that the subject-matter of claim 1 did not disclose the features required to solve the problem stated by the respondent, in particular with regard to the cross direction tensile strength. Since the claimed value was not ambitious and was already obtained in prior art, the subject-matter of claim 1 lacked an inventive step starting from D2a/D2b.

The respondent submitted that by selecting appropriate microfibres, the claimed cross direction tensile strength could be obtained, something not rendered obvious by the prior art.

VII. The appellant (opponent) requested that the decision be set aside and that the patent be revoked.

VIII. The respondent (patent proprietor) requested that the appeal be dismissed.

Reasons for the Decision

1. Inventive Step, Article 56 EPC

1.1 The patent is directed to an insulating, microporous, polymeric battery separator.

1.2 The appellant cites D2a/D2b as the starting point for an inventive-step objection. The board agrees with this choice.

1.3 D2b was published after the priority date of the patent in suit, while D2a was published before. It was neither argued, nor is there any reason to assume, that D2b was not a correct translation of D2a. Therefore, while D2b is cited here, reference is made to the corresponding passages of D2a.

2. Document D2a/D2b is directed to a nonconductive, microporous, polymeric battery separator with excellent durability under high temperature environments.

2.1 The problem addressed by the patent under appeal is, according to the respondent, the provision of a battery separator that provides simultaneously low air resistance, low pore size and high tensile strength overall at relatively isotropic levels, all while exhibiting proper chemical stability, structural integrity and dimensional stability and ease in manufacture (reply to the grounds of appeal, page 2, fifth full paragraph and paragraph [0011] of the patent in suit).

2.2 Claim 1 at issue defines the diameter and relative position of nano- and microfibres and the cross direction tensile strength.

2.3 However, the subject-matter of claim 1 does not define characteristics of the isotropy, the proper chemical stability, the structural integrity or the dimensional stability. It does also not require certain manufacturing steps which could ensure these parameters or the ease in manufacture such that these aspects of the problem cannot be considered solved by the features of the claim.

2.4 Moreover, the subject-matter of claim 1 does not define an acceptable level for the air resistance or pore size, let alone the features required to achieve such values such that these aspects of the problem cannot be considered contributing to the inventive step of the subject-matter of claim 1. Thus, the subject-matter of claim 1 merely differs from D2a/D2b in the explicit mention of the tensile strength in the cross direction.

2.5 The respondent argued that the microfibres provide the cross direction tensile strength, while the nanofibres do not contribute to it.

The examples contained in the patent in suit (see table 2) disclose the addition of microfibres with a diameter of approximately 17 µm to a base fabric of EFTEC**(TM) A-010-04, a commercially available material, which is a combination of microfibres and nanofibres.

However, as is apparent from the examples, the added microfibres reduce (see table 3) the cross direction tensile strength with respect to the base fabric even to the extent that in example 5, the claimed cross direction tensile strength is not achieved anymore.

The respondent argued that by using thicker fibres, the tensile strength increased and that it was not the aim of the examples to show that the cross direction tensile strength could be achieved but rather to show that the porosity may be adjusted.

The microfibres added in the examples have a diameter larger than 3 000 nanometres, fall within the definition of the subject-matter of claim 1, but show that the microfibres reduce the cross direction tensile strength of the material.

There is no doubt that appropriate microfibres can be selected such that the cross section tensile strength is improved. However, the subject-matter of claim 1 requires the mere presence of microfibres and thus also encompasses embodiments which obviously do not solve the problem as even stated by the respondent.

Therefore, the tensile strength is not linked to the mere presence of microfibres with a diameter of more than 3 000 nanometres.

2.6 Also, the features "intermingling" and "residing" do not provide the desired result.

According to the subject-matter of claim 1, intermingling is required only to the extent that at least a portion of nanofibres reside in the interstices of the microfibres. These features are not linked to the desired value of the cross directional tensile strength.

Even if they were linked to it, the extent of intermingling or residing for achieving the desired result are not apparent. Indeed, it appears that any nonwoven layer made from a combination of microfibres and nanofibres with the required diameters would fulfil these features.

2.7 According to the patent in suit, EFTEC**(TM) A-010-04 could be used without any additional fibres (see paragraph [0030]). Indeed, inventive examples 1, 6, 12 and 18 use EFTEC**(TM) A-010-04 only.

The examples suggest that the desired tensile strength is dependent on the fibrous material used for the base material for the nonwoven layer. This material is, however, not contained in the subject-matter of claim 1.

The subject-matter of claim 1 thus does not contain the features necessary to solve the problem over the entire scope claimed.

Therefore, the problem must be reformulated to a less ambitious problem, which is to provide an alternative polymeric battery separator.

D2a/D2b, particularly example 3, does not disclose that the battery separator has a cross direction tensile strength greater than 100 kg/cm**(2).

The patent in suit qualifies the cross direction tensile strength of 150 kg/cm**(2), achieved in comparison example CE2, as very low (see paragraphs [0045] and [0046]).

The claimed value of 100 kg/cm**(2) appears thus even less ambitious. It is within a range readily achievable in the art as apparent from, inter alia, the patent in suit since the values disclosed for the base fabric made from the commercially available EFTEC**(TM) A-010-04 and even counter example CE2 show a cross direction tensile strength which considerably exceeds the claimed value.

Modifying (e.g. adding specific fibres) and processing (e.g. calendering) the battery separator such that it provides the cross directional tensile strength in the claimed range is a routine task for the skilled person not involving an inventive step.

Order

For these reasons it is decided that:

1. The decision under appeal is set aside.

2. The patent is revoked.

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