DE102008017424A1 - Electrical device i.e. vacuum cleaner, has transmission part of adjusting device designed such that transmission part automatically transfers switch into switching position when fitting cover parts on receiving compartment - Google Patents

Abstract

The device has an accumulator packet for power supply of an electrical load, and a receiving compartment (7) arranged in a housing lower part (1) and covered by a cover part. A switch is arranged at the accumulator packet. An adjusting device is arranged at the cover part and comprises an actuating part. A transmission part of the adjusting device is designed such that the transmission part automatically transfers the switch into the switching position when fitting the cover parts on the compartment, where the switching position corresponds to an actuation position of the actuating part.

Description

The The invention relates to an electrical device with a battery pack to power an electrical consumer, and with a Housing in which a closed by a removable cover part Shelf for the battery pack is arranged.

Such a device is for example by the older one German patent application 102006058613.1 known. There it is designed as a vacuum cleaner.

The Accumulator package, which usually consists of several accumulator cells may be provided with a switch which at least two can take different switching positions. It can For example, be an ON / OFF switch, with the the flow of current from the accumulator to the consumer is made. at Devices such. B. vacuum cleaners, where a high operating voltage is necessary, a plurality of battery cells is connected in series. If the accumulator is designed as a lithium-ion type, can it due to regulations for the transport of dangerous goods be necessary to put the cells together to single cell groups grasp and spatially and electrically from each other separate. In this case, the switch for electrical isolation serve the cell groups. To the device after assembly to undergo an examination the accumulator cells are at least partially charged. While the test is then turned on the switch. It can then happen that the subsequent turning off the Switch is forgotten. Likewise, a random operation of the switch possible. A switched on and charged accumulator device Thus, the device would be in standby offset. A random pressure on a start-up switch, for example during transport by pressure on the Packaging or during a presentation Dealer would thus turn on the device, which in turn leads to its destruction, but at least to one Scare the customer.

Of the Invention thus raises the problem in an electrical Device of the type mentioned inadvertent operation to avoid the switch.

According to the invention solves this problem in that on the cover part a Adjusting device is arranged, which an actuating part and a transmission part, wherein the actuating part different, the switch positions corresponding operating positions can take, and wherein the transmission part is designed such that when placing the cover part on the receiving compartment the Switch of the battery compartment located in the receptacle automatically converted into a switching position, the operating position of the Actuator corresponds.

advantageous Refinements and developments of the invention will become apparent the following subclaims.

By the inventive design of the electrical Device achieves the advantage that even with invisible Switch, d. h., When the accumulator package in the receptacle is located and the lid part is closed, the switching position the switch always the operating position of the operating part equivalent. Therefore, no states can occur in which the switch is switched on unintentionally.

advantageous Refinements and developments of the invention will become apparent the following subclaims. In a simple design Embodiment, the transmission part has a slope on which, when placing the lid part on the receiving compartment transferred the switch into a switching position, the operating position of the operating part equivalent.

One Embodiment of the invention is in the drawings shown purely schematically and is closer below described. It shows

1 a perspective view of a vacuum cleaner housing base with a receptacle for a battery pack,

2 to 4 the accumulator package with open and closed housing in different views,

5 a schematic representation of the battery pack

6 the circuit diagram of the battery pack and the plug device,

7 the receiving compartment of the vacuum cleaner with the accumulator package removed,

8th the switch and actuator in disengaged position,

9 the switch and adjusting device in the engaged position.

In the following, an electrical device constructed according to the invention is described with reference to a vacuum cleaner. The overall structure of such a vacuum cleaner is from the aforementioned interpreting patent application 102006058613.1 is well known and is therefore not dargstellt in the figures. The 1 therefore shows only the lower housing part 1 of the vacuum cleaner. This has a suction fan, not shown in the drawings, which is driven by an electric motor, also not shown. The blower and the engine are in a motor fan room 2 Arranged by a first partition of a room 4 for receiving a cable drum, not shown, and by a second partition wall 5 from a dust collection room 6 is divided. In the dust collection room 6 can be arranged in a known manner, not shown dust collector, either a dust bag, a filter or a container which acts as a centrifugal force, inertia or other separator by its structure.

In a plane below the engine fan room 2 and below the dust collection room 6 is in a storage compartment 7 (see also 7 ) in the 2 to 5 illustrated accumulator package 8th arranged, with which the vacuum cleaner can be operated independently of the mains. So that the blower generates sufficient suction power even in this operating mode, is in the accumulator package 8th a plurality of individual battery cells 9 arranged. In the example shown, these are a total of 24 cells with a single voltage of 4.2 volts, so that in a series connection of these cells 9 a total voltage of 100.8 volts is achieved. The cells 9 be from an accumulator housing 10 added. There are eight cells each 9 grouped together into a cell group spatially and electrically separated from the other groups. 5 schematically shows the individual cell groups A, B and C, in which in a lower layer twice three cells 9.1 are arranged and in an upper layer again two cells 9 on the front three cells 9 the lower layer are packed (see also 3 ). The accumulator package 8th is housed in the vacuum cleaner so that the area with the cells packed one above the other 9 directly under the dust chamber 6 and therefore placed in a well-ventilated area, see also 1 , The area where there is only one lower layer extends below the engine fan room 2 ,

Cell groups A to C are through partitions 11 spatially separated, in the 1 and 3 recognizable and in 5 are indicated schematically. The electrical separation of cell groups A to C is carried out by a special measure: the eight cells 9 in a cell group A to C are each electrically contacted with each other, so that each of the three cell groups A to C reaches a cell voltage of 33.6 volts. The electrical contacting of the individual cells 9 to form the cell groups A to C takes place internally within the accumulator housing 10 about one in 5 only schematically indicated, otherwise not shown welding with electrically conductive sheets 12 , However, cell groups A to C are not within the battery pack 8th connected to each other conductively. Their individual connection lines 14 are separated to contacts one in the 4 and 5 recognizable plug receptacle 13 guided. This is also from the in 6 illustrated circuit diagram in which the individual terminals are designated by X1 to X8. The negative poles of the cell groups A to C occupy the contacts X1 to X3, the positive poles the contacts X6 to X8. 5 and 6 show that in the accumulator housing 10 also an NTC resistor 15 , a switch 16 and three fuses 17 are arranged. The NTC resistor 15 serves to record the temperature in the battery pack 8th , It is located in cell group C in the area of the cells 9 that is directly under the engine fan room 2 are arranged. There the highest temperatures are expected. The connecting cables 18 of the NTC 15 are routed to the terminals X4 and X5. The fuses 17 prevent a permanent short in one of the cell groups A to C. The function of the switch 16 in the pipe 14.1 from the negative pole of the cell group B to the terminal contact X2 will be explained later.

7 shows the bottom of the vacuum cleaner. There is the open storage compartment 7 recognizable, in which the accumulator package 8th is inserted. For electrical contacting of the package 8th with the electric motor is a plug 19 provided by inserting the package 8th with the plug receptacle 13 engages. Out 6 it can be seen that on the plug 19 two bridges 20 and 21 are arranged, which connect the contact X1 with X7 and the contact X2 with X8. As a result, all three cell groups A to C are connected in series, so that between the lines Y3 and Y4, the total voltage of 100.8 volts is applied. Through the bridges 20 and 21 is achieved that only after the connection of the plug 19 with the plug receptacle 13 a voltage is produced which is higher than the safety extra-low voltage of 42 volts.

Another requirement for the concern of the voltage on the electric motor is the closing of the switch 16 , This must be done by the end user by pressing an actuator described later 22 on the lid part 23 of the receiving compartment 7 (please refer 4 ). Thus, the electrical separation of cell groups B and C (in series) is removed from the cell group A only after the transport from the factory to the end user. Thus, the transport regulations for dangerous goods are met even if the equivalent lithium content of the entire battery pack 8th above the maximum permissible weight of eight grams.

Example:

Q_Nenn

= Nennkapazität einer Zelle

N_Zellen

= Anzahl der Zellen des Akkumulatorpakets

The equivalent lithium content (LEC) of an accumulator package is calculated LEC = 0.3Q nominal × N cell × grams / amp hours With

Q _rated

= Nominal capacity of a cell

N _cells

= Number of cells of the battery pack

For a package with 24 cells 1.6 ampere hours results in an equivalent Lithium content of 11.52 grams for the total package and 3.84 Grams per cell group. By the electrical and spatial Separation of cell groups B and C from group A thus becomes one reached maximum equivalent lithium content of 7.68 grams. Thus, the limit of eight grams is not exceeded.

In the 8th and 9 is the adjusting device 22 shown in more detail. It comprises an actuating device in the form of a rotatably mounted adjusting screw 221 , This can be rotated by the user, for example by means of a coin from a first operating position "0" in a second operating position "I". 4 shows the adjusting screw 221 in the first operating position "0". To the set screw 221 is a transmission part 222 molded, which consists of two sections 223 and 224 consists. The first paragraph 223 extends vertically from the lid part 23 and has the shape of a hollow cylinder portion. The second section 224 is diagonal to the first section 223 directed and accordingly has the shape of a hollow cone cutout.

With closed lid part 23 is the switch 16 in the effective range of the transmission part 222 , The desk 16 is designed as a rocker switch and can be a switched switch position ( 8th ) and a switched-off switch position ( 9 ). By turning the adjusting screw 221 pivots the transmission part 222 and press the switch 16 in the desired switching position. The slope (section 224 ) ensures that the switch 16 when placing the lid part 23 on the storage compartment 7 always when its switching position is not the operating position of the screw 221 corresponds, is forcibly transferred to the appropriate operating position. In 8th is the switch 16 for example, switched on and the set screw turned to "0". After closing the lid part 23 would be the switched position no longer recognizable. That's why the slope presses 224 on the switch 16 and turn it off, like in 9 is shown. The slope 224 must be dimensioned so that its end when placing the lid part 23 not yet on the switch 16 presses, because that would lead to a blockage.

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• - DE 102006058613 [0002, 0017]

Claims (3)

Electrical device with a battery pack ( 8th ) for the power supply of an electrical consumer, and with a housing ( 1 ), in which a by a removable cover part ( 23 ) locked receiving compartment ( 7 ) for the accumulator package ( 8th ), wherein on the accumulator packet ( 8th ) a switch ( 16 ), which can assume at least two different switching positions, and wherein on the cover part ( 23 ) an adjusting device ( 22 ) is arranged, which an actuating part ( 221 ) and a transmission part ( 222 ), wherein the actuating part ( 222 ) can assume different, the switch positions corresponding actuating positions, and wherein the transmission part ( 222 ) is designed such that it when placing the cover part ( 23 ) on the storage compartment ( 7 ) the switch ( 16 ) of the storage compartment ( 7 ) accumulator packages ( 8th ) automatically transferred into a switching position, the operating position of the actuating part ( 221 ) corresponds. Electrical device according to claim 2, characterized in that the transmission part ( 222 ) a slope ( 224 ), which when placing the cover part ( 23 ) on the storage compartment ( 7 ) the switch ( 16 ) in a switching position, the operating position of the actuating part ( 221 ) corresponds. Electrical device according to one of the preceding claims, characterized in that the accumulator packet ( 8th ) from several accumulator cells ( 9 . 9.1 . 9.2 ), which are electrically contacted with each other such that at least two cell groups (A, B, C) are formed, and that the switch ( 16 ) in an electrical line ( 14.1 ) is arranged between two cell groups (A, B, C).