JP2012069521A - Battery unit - Google Patents

Abstract

PROBLEM TO BE SOLVED: To improve sealability of a battery unit.SOLUTION: There is proposed a battery unit including at least one sealing layers 12 and 14a, in particular, a battery unit for tools. The sealing layers 12 and 14a are provided to seal an opening 16 caused by breakage with elastic recovery automatically and at least substantially.

Description

  The present invention relates to a battery unit.

  From Patent Document 1, a battery unit including a casing and a plurality of battery cells is known.

German Patent Application Publication DE 4444029A1

  The subject of this invention is improving the sealing property of a battery unit.

  The object is solved by a battery unit, in particular a tool battery unit, comprising at least one sealing layer provided to automatically at least substantially seal the opening due to breakage by elastic recovery.

“Sealing layer” means in particular a member that at least substantially prevents the outflow of fluids, in particular electrolytes, during breakage, in which an opening due to breakage is formed, and advantageously after breakage. Advantageously, this sealing layer at least substantially prevents spillage from the container into areas with electronic devices and / or areas that a user may touch. The sealing layer preferably has a surface area greater than 5 cm ² , particularly preferably greater than 10 cm ² . Advantageously, this sealing layer is formed differently from a sealing ring, for example an O-ring. "O-ring" or "sealing ring" means in particular a sealing means, in particular a ratio of radial length to axial length along the rotational symmetry axis greater than 5, preferably greater than 10. . “Providing” means, in particular, special design and / or provision. “Elastic recovery” means that at least a portion of the sealing layer moves in the direction it was placed prior to failure. Advantageously, the portion of the sealing layer returns at least 50%, preferably at least 80%, particularly preferably at least 90% of the travel of the portion when it is broken. “Opening due to breakage” means in particular an opening which is not specifically designed and / or equipped and in particular not functional, at least in a container for storing fluids, preferably for storing electrolytes. Yes. Advantageously, the sealing layer is provided to at least substantially seal the opening due to breakage through at least the container and the sealing layer. For example, the opening due to this breakage occurs when a sharp object such as a nail pierces into the container through at least the sealing layer and the container. In particular, this sealing layer seals the container even after sharp objects have been removed. The concept of “automatic” means that the sealing layer seals the opening due to failure without relying on changes in external influences, which are advantageously sharp when broken. It does not depend on objects being pierced and removed. “At least substantially seal” means, in particular, that the opening of the breakage has a cross-section that causes the fluid to flow out, with a sealing layer of at least about 75%, preferably at least about 90%, particularly preferably. This means a reduction of at least about 99%. This sealing layer preferably prevents the outflow of liquid fluids, particularly preferably gaseous fluids. In particular, the outflow of more than 10% of the fluid is especially prevented for less than 1 hour, particularly preferably for less than 24 hours. The embodiment of the battery unit according to the invention makes it possible to achieve a particularly great safety for the user in case of breakage. In particular, the sealing layer additionally seals damage such as tears due to crushing forces. Thus, the chemical agent can be prevented from flowing out of the battery unit, and the risk of fire can be avoided.

According to another embodiment, it is proposed that the sealing layer comprises a rubber elastic material. As a result, a particularly advantageous sealing effect can be realized simply in structure. A “rubber-elastic material” is in particular rubber, silicone, natural rubber, synthetic rubber, elastomer, latex and / or another material deemed to be advantageous by those skilled in the art. The rubber elastic material preferably has a modulus of elasticity of less than 0.5 kN / mm ² , preferably less than 0.2 kN / mm ² , particularly preferably less than 0.1 kN / mm ² . The rubber-elastic material preferably has a breaking elongation greater than 50%, preferably greater than 100%, particularly preferably greater than 200%.

Furthermore, it is proposed that the battery unit includes a battery cell surrounded at least in the form of a jacket by a sealing layer. This makes it possible to realize particularly effective protection. “Battery cell” means in particular a member provided for storing energy and supplying it as electric power. Advantageously, the battery cell is formed as a lithium battery cell, a fuel cell and / or other battery cells deemed to be advantageous by those skilled in the art. “Lithium battery cells” are in particular lithium ion battery cells, LiFePO ₄ battery cells, LiMn ₂ O ₄ battery cells, Li (NiCoMn) O ₂ battery cells, Li (NiCoAl) O ₂ battery cells, lithium oxygen battery cells, lithium It means a sulfur battery cell, a lithium polymer battery cell or the like. The phrase “surrounding” means in particular that the sealing layer surrounds at least one side of the battery cell almost 360 °. Alternatively, the sealing layer may surround only the outer surface of the battery cell, i.e. the surface facing the outer wall of the battery unit. Advantageously, this sealing layer envelops the battery cell along the main extending direction of the battery cell in a section of at least 10 mm, preferably 20 mm. In particular, in particular, this sealing layer is surrounded by a plane perpendicular to the main extending direction. Advantageously, this sealing layer surrounds the battery cell in a cylindrical shape, i.e. in the form of a jacket with a circular cross section.

The battery unit also includes a battery cell with a cell casing, and it is proposed that the sealing layer at least partly directly contacts this cell casing. As a result, a particularly advantageous sealing effect can be realized simply in structure. “Cell casing” means in particular a tight envelope of battery cells. Advantageously, the cell casing is at least part of a container for storing fluid. Advantageously, this cell casing secures the anode and cathode of the battery cell. “At least partially in contact” means in particular that the cell casing and the sealing layer have a contact surface of greater than 1 cm ² , preferably greater than 2 cm ² . Advantageously, this sealing layer is interlaced and / or adhesively fitted and / or shrink-fitted, inter alia, inside and / or preferably outside on the cell casing. And / or contact in other ways deemed to be advantageous by those skilled in the art.

  Furthermore, it is proposed that the battery unit comprises a casing member, which secures at least one battery cell, and that the sealing layer at least partly directly contacts this casing member. Thereby, a plurality of battery cells can be easily sealed structurally. The “casing member” means in particular means for directly or indirectly fixing at least one battery cell. Advantageously, the casing member secures at least two battery cells. Advantageously, the casing member comprises coupling means for securing to the device, and the battery unit delivers energy to the device in at least one mode of operation.

  According to one advantageous embodiment of the invention, it is proposed that the sealing layer at least partly contacts the outer surface of the cell casing. As a result, a particularly good sealing effect can be easily realized with a simple attachment. In particular, the battery cells already provided can be easily protected in structure. The “outer surface of the cell casing” particularly means a surface opposite to the center of the battery cell. Alternatively or additionally, the sealing layer may be at least partially in contact with the outer surface of the casing member.

  Furthermore, it is proposed that the battery cell has a flammable electrolyte. This allows a particularly large amount of energy to be stored at a low cost and a small weight. “Flammable” means in particular that the electrolyte is at least flammable, advantageously flammable, at least according to the EG Directive RL67 / 548 / EWG. "Electrolyte" means in particular means provided for storing electrical energy so that it can be extracted. Alternatively or additionally, the electrolyte may be corrosive or toxic.

  Furthermore, it is proposed to form the sealing layer in a band shape. This allows a particularly simple installation. The concept of “banded” means that the ratio of length to width is greater than 3, preferably greater than 6, especially in the case of a thin sealing layer. “Thin is thin” means in particular that the thickness is smaller than the length and width. This sealing layer is preferably less than 5 mm, particularly preferably less than 2 mm.

  Furthermore, the present invention relates to a system having a tool and a battery unit. Such systems include in particular drills and / or hammer drills and / or saver saws and / or electric planers and / or drivers and / or millers and / or grinders and / or disc grinders and / or garden tools and / or Or, all tools that operate on battery units, such as a measuring tool and / or a multifunctional tool, that would be advantageous to those skilled in the art are conceivable. This can provide a particularly safe system. As an alternative or in addition to the use in tools, use in automobiles, hybrid cars, electric cars, electric motorcycles, electric scooters, scale models and other areas deemed to be advantageous by those skilled in the art is also conceivable.

  Further advantages are obtained from the following description of the drawings. In the drawing, two embodiments of the present invention are shown. The drawings, the description and the claims contain a number of features in combination. The person skilled in the art will consider the features individually for each purpose and put them together in further advantageous combinations.

Diagram showing a system according to the invention comprising a tool and a battery unit according to the invention The figure which showed the battery unit of FIG. Detailed view of a battery cell of a battery unit having an opening due to breakage The figure which showed the battery unit of FIG. 1 by the cross section of the perpendicular direction The figure which showed the battery cell and sealing layer of the battery unit of FIG. The figure which showed another Example of the battery unit of FIG. 1 provided with the battery cell and the band-shaped sealing layer.

  FIG. 1 shows a system 30 including a tool 32 and a tool battery 34. The tool 32 is formed as an impact drill driver operated by a battery. The tool 32 includes a pistol casing 36 having a main grip 38. The main grip 38 is connected to the operable tool battery 34 in such a manner that the user can remove it. Specifically, the main grip 38 is connected to the side of the tool 32 opposite to the tool chuck 40 in this embodiment. Alternatively, the tool 32 may be connected to the tool battery 34 in such a way that the user cannot remove it.

  2 and 4 show cross-sectional views, and FIG. 3 shows a partial cross-sectional view of the tool battery 34. The tool battery 34 includes the battery unit 10. The battery unit 10 is formed as a tool battery unit. The battery unit 10 includes an outer sealing layer 12 and an inner sealing layer 14 a, a battery cell 18, and a casing member 22. The battery cell 18 is secured to the casing member 22 and another member deemed to be advantageous by those skilled in the art but not depicted in detail. The outer sealing layer 12 and the inner sealing layer 14a automatically seal the damaged opening 16 by elastic recovery during and after failure. FIG. 2 shows the damage caused by the piercing of the sharp object 42 and the opening 16 caused by the damage.

  In FIG. 5, one of the battery cells 18 is shown alone. Each battery cell 18 has one cell casing 20 and a combustible electrolyte 28. Each cell casing 20 is a container for the electrolyte 28. The opening 16 due to breakage is formed as an undesigned and / or unequipped opening in at least one of the cell casings 20. Further, as shown, the sealing layers 12, 14a and the casing member 22 may have a portion of the opening 16 due to breakage. The opening 16 due to breakage occurs, for example, when a sharp object 42 is pierced and removed from one of the cell casings 20. In detail, the opening 16 due to breakage is caused by, for example, a sharp object 42 being pierced and removed by the sealing layers 12 and 14 a and the casing member 22.

  The sealing layers 12 and 14a each have a rubber elastic material. During breakage, one or more of the sealing layers 12, 14 a are in contact with the object 42 causing the damage, and the cell casing 20 is sealed along the object 42. When the object 42 is removed, the sealing layers 12 and 14a are elastically restored to the original shape, thereby sealing the opening 16 due to breakage.

  For this reason, the inner sealing layer 14 a is in very close contact with one outer surface 24 of the cell casing 20. Further, the inner sealing layer 14 a surrounds the cell casing 20 in a covering shape on a surface perpendicular to the main extending direction of one of the battery cells 18. During failure, the sealing layer 14a deforms substantially elastically. As a result, a force for returning a part of the sealing layer 14a to the original position is generated. In this case, the sealing layer 14a reduces the size of the opening 16 due to breakage. As long as the opening 16 due to breakage does not exceed the maximum size, the opening 16 due to breakage is usually completely sealed, by designing the sealing layer 14a accordingly, in particular by pre-biasing.

  The outer sealing layer 12 is in close contact with the casing member 22 on the inner surface 26 a of the casing member 22. For this purpose, the outer sealing layer is formed by being injected into the casing member 22. In the operable state, the tool side of the tool battery 34 is protected by the tool, so there is no sealing layer on this face. Alternatively or additionally, this outer sealing layer may be in contact with the outer surface and / or may advantageously completely surround a plurality of battery cells, in particular all battery cells.

  The casing member 22 consists of two parts. These two parts are not shown in detail, but are screwed together. An O-ring 44 is disposed between the two portions of the casing member 22, and the O-ring 44 prevents dirt and moisture from entering the tool battery 34. The O-ring 44 is formed separately from the sealing layers 12 and 14a.

  FIG. 6 shows another embodiment of the present invention. The subsequent description and drawings relate substantially only to the differences between the embodiments. Here, for members with the same name, in particular with the same reference symbols, in particular reference may be made to the drawings and / or descriptions of the other embodiments of FIGS. In order to distinguish the embodiments, the letter a is used as a reference symbol for the embodiments in FIGS. In the embodiment of FIG. 6, the character a is replaced with the character b.

  FIG. 6 shows a battery cell 18 having a sealing layer 14b formed in a band shape. The sealing layer 14 b is wound around the cell casing 20 of the battery cell 18 in a jacket shape.

DESCRIPTION OF SYMBOLS 10 Battery unit 12 Sealing layer 14a Sealing layer 14b Sealing layer 16 Opening by breakage 18 Battery cell 20 Cell casing 22 Casing member 24 Outer surface of cell casing 20 26a Inner surface of casing member 22 28 Electrolyte 30 System 32 Tool 34 Battery for tool 36 Pistol shape Casing 38 Main grip 40 Tool chuck 42 Sharp object 44 O-ring

Claims (10)

A battery unit, in particular a tool battery unit, with at least one sealing layer (12; 14a; 14b),
The battery unit, wherein the sealing layer (12; 14a; 14b) is provided to automatically and at least substantially seal the opening (16) due to breakage by elastic recovery.   The battery unit according to claim 1, wherein the sealing layer (12; 14a; 14b) comprises a rubber elastic material.   The battery unit according to claim 1 or 2, comprising a battery cell (18) surrounded at least in a jacket shape by the sealing layer (14a; 14b).   The battery unit according to any one of claims 1 to 3, comprising the battery cell (18) comprising a cell casing (20) at least partially in contact with the sealing layer (14a; 14b).   5. The battery unit according to claim 1, comprising a casing member (22) fixing at least one of the battery cells (18) and at least partially in contact with the sealing layer (12).   The battery unit according to claim 4, wherein the sealing layer (12; 14a; 14b) is at least partially in contact with an outer surface (24) of the cell casing (20).   The battery unit according to claim 3 or 4, wherein the battery cell (18) has a combustible electrolyte (28).   The battery unit according to any one of claims 1 to 7, wherein the sealing layer (14b) is formed in a band shape.   The sealing layer of the battery unit (10) according to any one of claims 1 to 8.   A system comprising the battery unit (10) according to any one of the preceding claims and a tool (32).

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