JP2016127783A - Vacuum cleaner - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a vacuum cleaner to allow a user to rapidly use the cleaner in a nearly full-charged state.SOLUTION: A cleaner body 2 includes: an electric blower 4; and a secondary cell 5 for supplying power to the electric blower 4. A charging stand 3 supplies a charging current to the secondary cell 5. A charging control circuit 21 supplies a charging current to the secondary cell 5 with a normal charging current value when the cleaner body 2 is electrically connected to the charging stand 3. A charging current changeover circuit 24 can change over the current value of the charging current from a normal charging current value to a rapid charging current value greater than the normal charging current value. A secondary cell voltage detection circuit 23 detects the voltage of the secondary cell 5. A charging announcement section 26 announces charging termination when the voltage of the secondary cell 5 detected by the secondary cell voltage detection circuit 23 exceeds the first charging termination voltage value during the charging with the rapid charging current value.SELECTED DRAWING: Figure 4

Description

  The present invention relates to a rechargeable electric vacuum cleaner that charges a secondary battery of a vacuum cleaner body.

  A rechargeable vacuum cleaner that can be switched between normal charging and quick charging has been proposed (see, for example, Patent Document 1).

Japanese Utility Model Publication No. 62-68427

  However, constant voltage charging is required to charge the secondary battery from 90% charging to 100% full charging, which is very time consuming. For this reason, even if it was quick charge, there existed a problem that a user could not use a cleaner body quickly.

  The present invention has been made to solve the above-described problems, and an object of the present invention is to obtain a vacuum cleaner that can be used quickly by a user in a fully charged state.

  The vacuum cleaner according to the present invention includes a vacuum cleaner body having an electric blower and a secondary battery that supplies power to the electric blower, a charging stand that supplies a charging current to the secondary battery, and the vacuum cleaner body. Is electrically connected to the charging stand, a charging control circuit for supplying the charging current with a normal charging current value to the secondary battery, and the normal charging from the normal charging current value to the current value of the charging current A charging current switching circuit that can be switched to a rapid charging current value greater than the current value, a secondary battery voltage detection circuit that detects the voltage of the secondary battery, and when performing charging at the rapid charging current value, And a charging notification unit that notifies the end of charging when the voltage of the secondary battery detected by the secondary battery voltage detection circuit exceeds a first charging end voltage value.

  In the present invention, when the voltage value of the secondary battery exceeds a predetermined value during quick charging, the completion of charging is reported. Thereby, even if the secondary battery is not fully charged, the user can quickly use the cleaner body in a fully charged state.

It is a perspective view which shows the vacuum cleaner which concerns on embodiment of this invention. It is a side view which shows the cleaner body which concerns on embodiment of this invention. It is a perspective view which shows the charging stand which concerns on embodiment of this invention. It is a block diagram which shows the vacuum cleaner which concerns on embodiment of this invention. It is a figure which shows the charge characteristic of the secondary battery which concerns on embodiment of this invention.

  FIG. 1 is a perspective view showing a vacuum cleaner according to an embodiment of the present invention. The electric vacuum cleaner 1 includes a vacuum cleaner body 2 and a charging stand 3. The vacuum cleaner body 2 is placed on the charging stand 3 in an upright state.

  FIG. 2 is a side view showing the cleaner body according to the embodiment of the present invention. The vacuum cleaner body 2 is a cordless stick type (vertical) vacuum cleaner having an electric blower 4 and a secondary battery 5 that supplies electric power to the electric blower 4.

  The main body 6 of the vacuum cleaner main body 2 is configured in an external cylindrical shape, and an electric blower 4, a secondary battery 5, a control circuit board 7, and the like are provided therein. The grip portion 8 is a handle for the user to grip when cleaning, and is provided on the front side surface of the main body portion 6. A hand switch 9 is provided on the grip 8 for the user to switch the input of the electric blower 4 or switch the charging mode.

  The dust separation unit 10 is detachably mounted on the lower surface side of the main body 6 and is configured in an external cylindrical shape having the same diameter as the main body 6. The connection pipe 11 is a ventilation pipe that extends downward from the lower surface of the main body 6. An inhaler 12 is provided at the lower end of the connecting pipe 11.

  The electric blower 4 sucks dust together with air from the suction tool 12 through the connection pipe 11. The dust separation unit 10 is a cyclone type having a swirl chamber, and separates and collects dust in the swirl chamber. The dust separation unit 10 is not limited to the cyclone type and may be a paper pack type.

  FIG. 3 is a perspective view showing the charging stand according to the embodiment of the present invention. The charging stand 3 is connected to an external power source by a power cable 13. When the cleaner body 2 is placed on the charging stand 3, the electrical connection portions 14 and 15 of both are electrically connected, and the charging stand 3 supplies a charging current to the secondary battery 5 of the cleaner body 2. .

  FIG. 4 is a block diagram showing the vacuum cleaner according to the embodiment of the present invention. FIG. 5 is a diagram showing charging characteristics of the secondary battery 5 according to the embodiment of the present invention. When the user operates the electric blower input power switching unit 16 of the hand switch 9 provided in the cleaner body 2, the control circuit 17 controls the electric blower drive circuit 18 to input from the secondary battery 5 to the electric blower 4. Switch power.

  The charging stand 3 has a power supply circuit 19. The power circuit 19 is an AC-DC converter that converts alternating current input from an external power source via the power cable 13 into direct current. The charging stand connection detection circuit 20 detects whether or not the electrical connection portions 14 and 15 of the cleaner body 2 and the charging stand 3 are electrically connected. When the cleaner body 2 is electrically connected to the charging stand 3, the charging control circuit 21 supplies a charging current to the secondary battery 5 with a normal charging current value. The charging current detection circuit 22 detects the charging current value of the secondary battery 5. The secondary battery voltage detection circuit 23 detects the voltage of the secondary battery 5.

  The charging current switching circuit 24 can switch the current value of the charging current from the normal charging current value to a rapid charging current value larger than the normal charging current value. The user operates the charging current switching unit 25 of the hand switch 9 to instruct the charging current switching circuit 24 to switch from the normal charging current value to the rapid charging current value.

  If the voltage of the secondary battery 5 detected by the secondary battery voltage detection circuit 23 exceeds the first charge end voltage value while charging at the quick charge current value, the control circuit 17 charges the charge notification unit 26. Notify completion. Specifically, the charging notification unit 26 is an LED lamp, and lights or blinks during charging, and notifies the end of charging by turning off.

  When the voltage of the secondary battery 5 exceeds the first charging end voltage value, the charging control circuit 21 switches the charging of the secondary battery 5 to constant voltage charging. Then, charging is continued until the charging current value detected by the charging current detection circuit 22 falls below the charging end current value. Alternatively, charging may be continued until the voltage of the secondary battery 5 detected by the secondary battery voltage detection circuit 23 exceeds a second charge end voltage value higher than the first charge end voltage value. However, since the voltage difference between the first charging end voltage value and the second charging end voltage value is small, it is preferable to detect the charging current value. Thus, when the voltage of the secondary battery 5 exceeds the first charging end voltage value, the charging of the secondary battery 5 is switched to constant voltage charging, and the charging current value detected by the charging current detection circuit 22 is the charging end current value. Or the charging is continued until the voltage of the secondary battery 5 detected by the secondary battery voltage detection circuit 23 exceeds the second charging end voltage value higher than the first charging end voltage value. Therefore, the secondary battery 5 is appropriately fully charged while accurately detecting the charge state of the secondary battery 5.

  Here, the fact that the voltage of the secondary battery 5 exceeds the first charging end voltage value means that the secondary battery 5 is charged, for example, 80% or more of the full charge. When the charging current value is lower than the charging end current value or the voltage of the secondary battery 5 exceeds the second charging end voltage value, it means that the secondary battery 5 is fully charged.

  As described above, in the present embodiment, the charging completion is reported when the voltage value of the secondary battery 5 exceeds a predetermined value during quick charging. Thereby, even if the secondary battery 5 is not fully charged, the user can quickly use the cleaner body 2 in a fully charged state.

  Further, by detecting the charging current value or the voltage of the secondary battery 5, it is possible to determine the full charge of the secondary battery 5 without using an IC dedicated for determining the charging capacity.

  Conventionally, since the operation unit for switching from normal charging to quick charging is provided on the charging stand 3 installed on the floor, the user has to bend and operate. On the other hand, in the present embodiment, the charging current switching unit 25 of the hand switch 9 that switches from normal charging to quick charging is positioned on the upper side of the cleaner body 2 in a state where it is placed on the charging stand 3, specifically Is provided at a height of about 80 cm from the floor. For this reason, the user can perform an operation without bending his / her waist.

  Further, the hand switch 9 switches the current value of the charging current as the charging current switching unit 25 when the cleaner body 2 is electrically connected to the charging stand 3, and the cleaner body 2 electrically connects to the charging stand 3. It is preferable that the electric blower input power switching unit 16 is configured to switch the input power to the electric blower 4 when it is not connected. Thereby, one hand switch 9 can be shared for two uses.

  The control circuit 17 and the charge control circuit 21 are realized by a processing circuit such as a CPU or a system LSI that executes a program stored in a memory. In addition, a plurality of processing circuits may cooperate to execute the above function.

DESCRIPTION OF SYMBOLS 1 Electric vacuum cleaner, 2 Vacuum cleaner main body, 4 Electric blower, 3 Charging stand, 9 Hand switch, 16 Electric blower input electric power switching part, 21 Charging control circuit, 22 Charging current detection circuit, 23 Secondary battery voltage detection circuit, 24 Charging current switching circuit, 26 charging notification unit, 25 charging current switching unit

Claims (5)

A vacuum cleaner body having an electric blower and a secondary battery for supplying electric power to the electric blower;
A charging stand for supplying a charging current to the secondary battery;
When the cleaner body is electrically connected to the charging stand, a charging control circuit that supplies the charging current with a normal charging current value to the secondary battery;
A charging current switching circuit capable of switching the current value of the charging current from the normal charging current value to a rapid charging current value larger than the normal charging current value;
A secondary battery voltage detection circuit for detecting a voltage of the secondary battery;
A charging notification unit that notifies the end of charging when the voltage of the secondary battery detected by the secondary battery voltage detection circuit exceeds a first charging end voltage value when charging is performed at the rapid charging current value; A vacuum cleaner comprising: A charge current detection circuit for detecting a charge current value of the secondary battery;
The charging control circuit switches charging of the secondary battery to constant voltage charging when the voltage of the secondary battery exceeds the first charging end voltage value, and the charging current value detected by the charging current detection circuit is The electric vacuum cleaner according to claim 1, wherein the charging is continued until the charging end current value is below.   The charging control circuit switches the charging of the secondary battery to constant voltage charging when the voltage of the secondary battery exceeds the first charging end voltage value, and detects the secondary battery detected by the secondary battery voltage detection circuit. 2. The electric vacuum cleaner according to claim 1, wherein charging is continued until a voltage of the battery exceeds a second charging end voltage value higher than the first charging end voltage value. The vacuum cleaner body is placed upright on the charging stand,
A switch for instructing the charging current switching circuit to switch from the normal charging current value to the quick charging current value is provided at an upper position of the cleaner body in a state of being placed on the charging stand. The electric vacuum cleaner according to any one of claims 1 to 3.   The switch switches the current value of the charging current when the cleaner body is electrically connected to the charging stand, and the switch when the cleaner body is not electrically connected to the charging stand. The electric vacuum cleaner according to claim 4, wherein input electric power to the electric blower is switched.

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