DE102012206483A1 - Accumulator unit of hand-held power tool accumulator, has pole cover element provided for protecting pole of battery cell from contamination, and provided with target aperture for intense blowing of electrolyte during short circuit - Google Patents

Abstract

The accumulator unit has a lithium ion battery cell (10) and a pole cover element (12) connected with battery cell. The pole cover element made of plastic fiber is provided to protect the positive pole (14) of the battery cell from contamination. The pole cover element is provided with a target aperture (16) for intense blowing of electrolyte to discharge electrolyte from the battery cell during the short circuit at pole (14) or rise in temperature of battery cell. The target aperture is formed with two intersecting slots (18).

Description

State of the art

There are already accumulator units with at least one accumulator cell and at least one Polabdeckungselement, which is at least substantially intended to protect at least one pole of the battery cell from contamination known.

Disclosure of the invention

The invention is based on an accumulator unit, in particular of a handheld power tool accumulator unit, with at least one accumulator cell and at least one pole cover element, which is at least substantially intended to protect at least one pole of the accumulator cell from contamination.

It is proposed that the pole cover element has at least one setpoint opening point through which the accumulator cell can blow off in the event of a fault. An "accumulator cell" should in particular be understood to mean an element which is at least substantially intended to store an electrical energy at least substantially on an electrochemical basis and to provide it in an operating state to at least one consumer, in particular a handheld power tool. The accumulator cell is preferably designed to be rechargeable. "Provided" is to be understood in particular to be specially designed, designed and / or equipped. By "at least substantially intended" should be understood in particular a main task and / or a main function.

In this context, a "pole" is to be understood as meaning, in particular, a region of the accumulator cell which is intended to produce a particular electrical connection point of the accumulator cell with at least one further element. In this context, a "contamination" should be understood as meaning, in particular, particles which undesirably settle on the pole of the battery cell and can thereby impair a proper operation of the battery unit at least partially, in particular negatively. In this context, a "target opening point" should be understood in particular to mean a region of the pole cover element which has at least one opening which extends at least partially through a material of the pole cover element. In a particularly preferred embodiment, the target opening point is provided for a permeability, at least substantially in only one direction, in particular viewed from the outside of the pole. It is conceivable that the at least one desired opening point has at least one predetermined breaking point and / or an opening which already passes through a material of the pole cover element.

In this context, an "error case" is to be understood as meaning, in particular, a state which is at least partially and preferably completely deviating from a proper operating state. The error case can be caused for example by overcharging, a temperature increase and / or a short circuit. In this case, in particular a gas-electrolysis mixture from an interior of the battery cell to the outside, in particular by a pressure relief valve, are discharged.

The inventive design of the accumulator unit advantageously high reliability and wear resistance can be achieved, with an operating safety is not adversely affected.

It is also proposed that the desired opening point is formed by at least one slot. In this context, a "slot" is to be understood as meaning, in particular, a recess which extends at least partially through a material thickness of the pole cover element and which has a main extent which is at least 100%, preferably at least 200% and particularly preferably at least 500%. is greater than a width of the recess. In a particularly preferred embodiment, the slot is formed by an incision, wherein the edges of the slot at least substantially no distance from each other and at least partially abut each other. This can be ensured in a structurally simple manner advantageous good protection against contamination and also a blow in a fault.

In addition, it is proposed that the target opening point is formed by at least two intersecting slots. By "intersecting" is to be understood in this context, in particular, that the slots overlap each in a central region of the slots. In this context, a "middle region" is to be understood as meaning, in particular, a region which, viewed along a main extension direction of the slit, is arranged at a distance from the ends of the slits. Particularly preferably, the slots each overlap in a middle. This can be ensured in an error case in a structurally simple manner advantageous safe blowing off.

Furthermore, it is proposed that the at least one slot in a control operation is at least substantially closed. A "control operation" is to be understood as meaning an operating state of the accumulator unit that is at least substantially correct and desired by an operator. Thereby, an advantageously high protection against the ingress of contamination and thus a preferably high protection of the pole of the battery cell can be achieved.

It is also proposed that the at least one slot is at least substantially intended to open when the at least one accumulator cell is blown off. As a result, an advantageous safe blow in case of failure can be ensured.

In addition, it is proposed that the desired opening point is at least partially stamped into the pole cover element. As a result, an advantageous cost-effective, fast and structurally simple production of the accumulator unit can be achieved.

Furthermore, it is proposed that the pole cover element at least partially comprises plastic fibers. The plastic fibers are preferably at least partially formed of a polyester, of a polyethylene, of a polyamide or of another, to a person skilled in the appearing appropriate plastic. However, it is also conceivable that the Polabdeckungselement is at least partially formed from a paper. As a result, a preferred cost-effective, robust and low-wear configuration of the pole cover element can be achieved.

It is also proposed that the Polabdeckungselement is at least partially bonded to the battery cell, which can be achieved in an advantageously simple manner, an advantageously reliable sealing and captive security.

In addition, it is proposed that the pole cover element is at least substantially intended to cover poles of at least two battery cells. As a result, an advantageous cost-effective design of the accumulator unit can be achieved.

drawing

Further advantages emerge from the following description of the drawing. In the drawing, an embodiment of the invention is shown. The drawing, the description and the claims contain numerous features in combination. The person skilled in the art will expediently also consider the features individually and combine them into meaningful further combinations.

Show it:

1 an accumulator cell of an accumulator unit according to the invention in a perspective view,

2 a detail of the accumulator unit according to the invention with the accumulator cell and a Polabdeckungselement in a closed state of a target opening position of the Polabdeckungselements,

3 the pole cover element of the accumulator unit according to the invention in a plan view,

4 the section of the accumulator according to the invention in a slightly open state of the target opening position of the Polabdeckungselements and

5 the detail of the accumulator according to the invention in a fully opened state of the target opening position of the Polabdeckungselements.

Description of the embodiment

1 shows an accumulator cell 10 an accumulator unit. The accumulator unit is formed by a handheld power tool accumulator unit. The accumulator unit is provided to form a part of a rechargeable battery, not shown, in particular a handheld power tool accumulator. The accumulator cell 10 is cylindrical. In a main direction of extension 20 the accumulator cell 10 is at one end of the accumulator cell 10 a pole 14 arranged. The pole 14 is designed as a positive pole. At a pole 14 opposite end of the battery cell 10 is another, not shown, designed as a negative terminal Pol provided.

The pole formed as positive pole 14 has an annular area 22 on, which is about an axis of rotation of the battery cell 10 extends around. Radial inside the annular area 22 is one in the main extension direction 20 the accumulator cell 10 inwardly offset area 24 provided, which forms an annular trench. The area 24 encloses in a radial direction of the battery cell 10 a central area 26 , which is an electrical contact element of the battery cell 10 forms. The accumulator cell 10 is formed by a lithium-ion battery cell.

In 3 is a pole cover element 12 the accumulator unit shown. The pole cover element 12 is intended to the pole 14 the accumulator cell 10 to protect against contamination. The pole cover element 12 has a desired opening point 16 on, through which the accumulator cell 10 can blow off in case of an error. An error case can be, for example, by a short circuit at the pole 14 or within the accumulator cell 10 , caused by a rise in temperature or by another, as a person skilled in appearing possible state.

The pole cover element 12 has plastic fibers. The pole cover element 12 is made of polyester. The pole cover element 12 points, perpendicular to a main extension plane of the Polabdeckungselements 12 , a small thickness on. The thickness of the pole cover element 12 is less than a millimeter. In a main direction of extension 28 of the pole cover element 12 considered, the pole cover element 12 two opposite end portions 30 on, whose contour is formed part-circular. A radius of the part-circular contour of the end regions 30 corresponds to a radius of the battery cell 10 , The end areas 30 are over a middle range 32 of the pole cover element 12 connected with each other.

The end areas 30 each have a desired opening point 16 on. The target opening point 16 is in the pole cover element 12 stamped. The pole cover element 12 is in the end area 30 punched slit-shaped. The target opening point 16 includes a slot 18 , The target opening point 16 is from two intersecting slots 18 educated. The slots 18 the target opening point 16 are intended to be at a blow off the battery cell 10 to open in case of an error. The slots 18 the target opening point 16 are perpendicular to each other and overlap each other in the middle of the slots 18 ,

The pole cover element 12 will be in the end area 30 with the accumulator cell 10 firmly connected. The pole cover element 12 will be in the end area 30 with the accumulator cell 10 cohesively connected. The pole cover element 12 will be in the end area 30 with the accumulator cell 10 bonded. This is done on the annular area 22 the accumulator cell 10 applied an adhesive layer. The pole cover element 12 Then it will do so with the accumulator cell 10 glued that the part-circular contour of the end 30 of the pole cover element 12 and a contour of the accumulator cell 10 are arranged one above the other. The pole cover element 12 is in a circumferential direction of the battery cell 10 with the entire annular area 22 the accumulator cell 10 connected. The pole cover element 12 has two end areas 30 on. Each of the two end areas 30 is in a mounted state of Akkumulatoreinheit each with a battery cell 10 connected. The pole cover element 12 is meant to be the pole 14 of two accumulator cells 10 cover.

In 2 the accumulator unit is in a control mode, ie shown in a proper operating state. The slots 18 the target opening point 16 are closed in normal operation. There are edges of the slots 18 the target opening point 16 to each other and are in the main extension plane of the Polabdeckungselements 12 arranged. In a glued condition with the accumulator cell 10 covers the end area 30 of the pole cover element 12 the pole formed as positive pole 14 the accumulator cell 10 , A contaminant, such as dust, metallic shavings or the like, which, with the exception of the weight, without further force on the Polabdeckungselement 12 can not pass through the closed slots 18 penetrate. Thus, by the Polabdeckungselement 12 a penetration of the pollution into the accumulator unit and a contacting of the pollution with the pole 14 the accumulator cell 10 prevented.

In 4 is the accumulator unit with a slight blow of the battery cell 10 shown. The accumulator cell 10 has an unillustrated pressure relief valve, which in a region of the of the Polabdeckungselement 12 covered pole 14 is arranged. By the pressure relief valve, an electrolyte, which is liquid or gaseous, from an interior of the battery cell 10 penetrate to the outside. Due to the resulting pressure between the pole 14 the accumulator cell 10 and the pole cover member 12 be the slots 18 the target opening point 16 arched outwards so that the electrolyte can escape. With a stronger blow-off of the accumulator cell 10 creates a higher pressure between the pole 14 the accumulator cell 10 and the pole cover member 12 , causing the Polabdeckungselement 12 in the area of the slots 18 clearly outward and out of the main extension plane of the pole cover element 12 Bends out. This will be the target opening point 16 open and the electrolyte can escape.

Claims (11)

Accumulator unit, in particular portable power tool accumulator unit, with at least one accumulator cell ( 10 ) and at least one pole cover element ( 12 ), which is at least substantially intended, at least one pole ( 14 ) of the accumulator cell ( 10 ) to protect against contamination, characterized in that the Polabdeckungselement ( 12 ) at least one Target opening point ( 16 ), through which the accumulator cell ( 10 ) can blow off in case of an error. Accumulator unit according to claim 1, characterized in that the target opening point ( 16 ) of at least one slot ( 18 ) is formed. Accumulator unit according to claim 2, characterized in that the target opening point ( 16 ) of at least two intersecting slots ( 18 ) is formed. Accumulator unit according to claim 2 or 3, characterized in that the at least one slot ( 18 ) is at least substantially closed in a regular operation. Accumulator unit at least according to claim 2 or 3, characterized in that the at least one slot ( 18 ) is provided, at least essentially, for itself when the at least one rechargeable battery cell is blown off ( 10 ) to open. Accumulator unit according to one of the preceding claims, characterized in that the setpoint opening point ( 16 ) at least partially into the Polabdeckungselement ( 12 ) is punched. Accumulator unit according to one of the preceding claims, characterized in that the pole cover element ( 12 ) at least partially plastic fibers. Accumulator unit according to one of the preceding claims, characterized in that the pole cover element ( 12 ) at least partially with the at least one battery cell ( 10 ) is glued. Accumulator unit according to one of the preceding claims, characterized in that the pole cover element ( 12 ) is at least substantially intended to poles ( 14 ) of at least two accumulator cells ( 10 ) cover. Pole cover element ( 12 ) an accumulator unit according to one of the preceding claims. Hand tool accumulator with at least one accumulator unit according to one of claims 1 to 9.

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