JP2018065202A - Electric apparatus - Google Patents

Abstract

PROBLEM TO BE SOLVED: To improve handleability by using a battery as a power source, concerning an electric apparatus utilizing turning force of a rotor such as a handy polisher or a shoebrush.SOLUTION: In an electric apparatus having a motor for rotating a rotor 11, and a battery fitting part 16 for fitting a battery 1 as a power source for supplying power to the motor, turning force of the rotor 11 is transferred directly or indirectly to an object, to thereby change the condition of the object.SELECTED DRAWING: Figure 1

Description

  The present invention relates to an electric appliance that uses the rotational force of a rotating body such as a handy polisher or a shoe brush.

  Electrical appliances that mainly use the rotational force of a rotating body include electrical appliances such as rice polishers and blowers in addition to handy polishers and shoe brushes. In many cases, a commercial 100V AC power source is used for these electric appliances (see, for example, Patent Document 1). Generally, a battery (DC power supply) such as a dry cell is used in an electric appliance such as a flashlight or a handy radio with low power consumption. However, since the above-described handy polishers, shoe brushes, and the like require a relatively large amount of power, those using a commercial 100V AC power source as the power source are the mainstream.

JP-A-2016-22553

  However, when a commercial 100V AC power supply is used, the power cord needs to be routed, and the handling of the electric appliance is poor. In addition, electric appliances cannot be used in places where AC power sources such as outdoors are not prepared or where AC power sources are not preferred (for example, locations where water is used).

  On the other hand, among hand-held power tools such as screw tighteners and electric drills, those using a battery as a power source are widely used. Particularly in recent years, lithium ion batteries in which a plurality of battery cells are housed in a case have been widely used. Since lithium-ion batteries for power tools can supply relatively large power, if this can be used as a power source for various types of electric appliances, an AC power source is not necessary, and the cordless design makes it much easier to use. Can be improved.

  An object of the present invention is to improve handling of an electric appliance that uses the rotational force of a rotating body such as a handy polisher or a shoe brush by using a battery as a power source.

  Said subject is solved by each following invention. 1st invention has the motor for rotating a rotary body, and the battery attachment part for attaching the battery as a power supply which supplies electric power to the said motor, The rotational force of the said rotary body is directly Or indirectly to the object to change the state of the object.

  According to 1st invention, a rotary body is rotated by attaching a battery to a battery attachment part and supplying electric power to a motor. And the rotational force of the said rotary body is directly or indirectly transmitted to a target object, and the state of the said target object is changed. For example, the floor board or the like can be cleaned by rotating a rotating body such as a brush in contact with the surface of the floor board as the object. Thus, by using the battery as the power source, it is not necessary to route the power cord as in the case of using an AC power source, and the handling of the electric appliance is improved. In addition, the electric appliance can be used even in places where AC power sources such as outdoors are not prepared or where AC power sources are not preferred (for example, locations where water is used).

  2nd invention changes the state of the surface of the said target object by rotating a rotary body and making it contact the surface of a target object. Examples of the electric appliance that rotates the rotating body to contact the surface of the object and changes the surface state of the object include a handy polisher, a shoe brush, a bottle washer, and a knife sharpener.

  In a third aspect of the invention, the shape of the object is changed by rotating the rotating body and bringing it into contact with the object. Examples of the electric appliance that changes the shape of the object by rotating the rotating body so as to contact the object include a mixer, a blender, a rice mill, or a cultivator used in cooking.

  4th invention changes the state of the surface of the said target object using the water flow which generate | occur | produced by rotation of a rotary body. Examples of the electric appliance that changes the state of the surface of the object using the water flow generated by the rotation of the rotating body include a dishwasher and a rice sharpener.

  5th invention changes the state of the said target object using the airflow which generate | occur | produced by rotation of a rotary body. Examples of the electric appliance that changes the state of the object using the airflow generated by the rotation of the rotating body include, for example, a suction device that sucks hair loss for dogs and cats (objects), and an eraser on a desk (object) There are suction machines for sucking rubber residue, dryers, blowers, etc.

  In a sixth aspect of the invention, the rotational force of the rotating body is converted into a linear motion by the action of a screw and transmitted to the object to change the state of the object. An example of an electric appliance that converts the rotational force of the rotating body into a linear motion by the action of a screw and transmits it to an object to change the state of the object is, for example, a corkscrew.

  In the seventh aspect of the invention, the object and the cutting blade are relatively rotated by the rotating body to change the state of the object. Examples of the electric appliance that changes the state of the object by relatively rotating the object and the cutting blade by a rotating body include a fruit peeler and a can opener.

  In the eighth aspect of the invention, a battery pack for an electric tool that can be charged as a battery can be attached. Thus, by making it possible to use a battery for a power tool that is widely distributed, the usability and added value of the electric appliance and the power tool can be increased. Further, the use of a battery that can be repeatedly used by charging can reduce the running cost and reduce the load on the environment.

  In the ninth invention, a lithium ion battery in which a plurality of cells are housed in a battery case is attached as a battery. For this reason, sufficient electric power can be supplied with respect to the motor which rotates a rotary body. By using a lithium ion battery as a power source, additional charging or the like becomes possible, and in this respect also, the usability of the electric appliance can be improved.

  In a tenth aspect of the invention, a box-type battery can be slid and attached to the battery attachment portion. For this reason, it is not necessary to store the battery in the housing of the electric appliance.

  In an eleventh aspect of the invention, the battery mounting portion includes a pair of guide rail portions for sliding and engaging the battery. For this reason, the solid attachment state of the battery can be realized while facilitating the attachment and removal of the battery.

  According to the twelfth aspect of the present invention, a long rod-shaped battery can be inserted and attached to the battery attachment portion. This simplifies the stick-type battery mounting structure.

  A thirteenth aspect of the present invention includes an attachment recess for inserting a battery, and a connection terminal for electrically connecting the battery to the bottom of the attachment recess. For this reason, the battery can be attached by being inserted to the bottom of the attachment recess. By disposing the connection terminal at the bottom of the mounting recess, it is possible to protect the terminal and enhance the durability of the electric appliance.

  In a fourteenth aspect of the present invention, a grip portion that is held by a user during use is provided, and the grip portion is provided with the battery mounting portion. Thus, by attaching the battery to the side opposite to the rotating body, it is possible to improve the operability and handleability of the electric appliance.

  A fifteenth aspect of the present invention includes a pedestal portion for installation and use, and the pedestal portion includes the battery attachment portion. For this reason, by attaching a relatively heavy battery to the battery mounting portion, the pedestal portion can be installed in a stable posture that is difficult to fall.

  The sixteenth invention is configured so that a lithium ion battery having a nominal voltage of 10.8 V can be attached as the battery.

  A seventeenth aspect of the invention is an electrical appliance that includes a controller that controls a motor and includes a communication terminal for transmitting and receiving information between the controller and the battery in a battery mounting portion. Thereby, information is transmitted and received between the controller and the battery via the communication terminal, and the operation of the electric appliance is controlled.

  An eighteenth aspect of the invention is an electric appliance configured to control power supply to a motor based on information related to a battery. Thereby, for example, the electric appliance can be stopped based on the temperature information of the battery, and the electric appliance and the battery can be protected.

  A nineteenth aspect of the invention is an electric appliance configured to control power supply to a motor based on battery temperature information. Thereby, for example, when the temperature of the battery exceeds an allowable value, the electric appliance can be stopped, and the electric appliance and the battery can be protected.

  A twentieth aspect of the invention is an electric appliance configured to stop power supply to the motor based on the information indicating that the battery cannot be discharged. For this reason, the battery is not overdischarged and the battery is protected.

  In a twenty-first aspect, the power supply is controlled based on information on the state of the electric appliance.

  A twenty-second invention is a battery including a remaining capacity display unit. For this reason, in the state which removed the battery from the battery attachment part of the electric appliance, the remaining capacity of the said battery can be confirmed.

  A twenty-third aspect of the present invention includes a notification unit that notifies a state of a battery or an electric appliance. That is, the state of the battery or the electric appliance is notified by the notification unit.

  In the twenty-fourth invention, the notification section is provided on the electric appliance side. That is, the state of the battery or the electric appliance is notified by the notification section provided on the electric appliance side.

  In a twenty-fifth aspect of the invention, there is provided an attachment portion for detachably attaching a battery as a power source for supplying electric power. For this reason, it is possible to use a household electric appliance by attaching a battery for power supply to the battery attachment portion.

It is a whole perspective view of a bus polisher which is an electric appliance concerning a 1st embodiment. It is a perspective view of the power supply part of the said bus polisher. It is a perspective view of the battery pack single-piece | unit of a slide attachment type. It is a front view of the battery pack single-piece | unit of a slide attachment type. It is a bottom view (VV arrow view of FIG. 2) which shows the attachment and removal state of the battery pack of the slide attachment type with respect to the battery attachment part of a bus polisher. It is a whole perspective view of a rechargeable screw fastening machine. It is a whole perspective view of a shoe brush which is an electric appliance concerning a 2nd embodiment. It is a perspective view of the battery pack single-piece | unit of the insertion attachment type used for a shoe brush. It is the whole multi-brush perspective view which is an electric appliance which concerns on the example of a change of 2nd Embodiment. It is a whole perspective view of the knife sharpener which is an electric appliance which concerns on 3rd Embodiment. It is the whole cultivator perspective view which is an electric appliance concerning a 4th embodiment. It is a whole perspective view of the hand mixer which is an electric appliance concerning a 5th embodiment. It is a perspective view of the stick blender which is an electric appliance concerning a 6th embodiment. It is a perspective view of the blender which is an electric appliance which concerns on the example of a change of 6th Embodiment. It is a perspective view of the rice mill which is an electric appliance which concerns on 7th Embodiment. It is a perspective view of the dishwasher which is an electric appliance which concerns on 8th Embodiment. It is a perspective view of the hair loss suction machine which is an electric appliance concerning a 9th embodiment. It is a perspective view of the corkscrew which is an electric appliance which concerns on 10th Embodiment. It is a perspective view of the electric can opener which is an electric appliance concerning an 11th embodiment. It is a perspective view of the electric peeler which is an electric appliance which concerns on 12th Embodiment. It is a perspective view showing the example of a change of the power supply part of an electric appliance. It is a control block diagram of an electric appliance and a battery pack. It is a control flowchart of an electric appliance. It is a control block diagram which concerns on the example of a change with an electric appliance and a battery pack. It is a control flowchart which concerns on the example of a change of an electric appliance. It is a control flowchart which concerns on the example of a change of a battery pack. It is a control block diagram of an electric appliance and a charger.

<Embodiment 1>
Based on FIGS. 1-6, the electric appliance which concerns on Embodiment 1 of this invention is demonstrated. The electric appliance according to this embodiment is a bus polisher 10. The bath polisher 10 is a rotating device for cleaning a bathtub, a bathroom floor, and a wall surface. As shown in FIG. 1, the bus polisher 10 includes a polisher body 10m and a power supply 10e. The polisher main body portion 10m includes a rotating brush 11 formed in a substantially hemispherical shape, a cylindrical housing portion 12 whose tip is bent obliquely, and a cylindrical grip portion 14. And the cylindrical housing part 12 and the cylindrical grip part 14 are connected in the state which can be relatively moved only a predetermined dimension to an axial direction. That is, the distance from the grip portion to the rotating brush 11 can be adjusted when the bus polisher 10 is used. The distal end portion of the cylindrical housing portion 12 has an enlarged diameter, and serves as a motor storage portion 12f that stores a motor, a speed reduction mechanism, and the like (not shown).

  From the front end of the motor housing portion 12f, an output rotation shaft (not shown) of the speed reduction mechanism protrudes in the axial direction in a watertight state, and the rotary brush 11 is coaxially connected to the output rotation shaft. The motor storage portion 12f stores an electric circuit that supplies electric power to the motor. A motor start switch 14 s as a component of the electric circuit is provided on the outer peripheral surface of the tip of the grip portion 14. A concave connector 15 that electrically connects the electric circuit of the polisher main body 10 m and the power supply 10 e is provided on the base end surface of the grip 14. The base end surface of the grip portion 14 is configured to be closed by a hemispherical lid 14h in a state where a convex connector 18 (described later) of the power source portion 10e is removed from the concave connector 15.

  As shown in FIGS. 1 and 2, the power supply unit 10e of the bus polisher 10 electrically connects the battery pack 1, the battery mounting unit 16 to which the battery pack 1 is mounted, the battery mounting unit 16 and the polisher body unit 10m. The lead cable 17 is connected. Here, a body holder 16k for holding the battery attachment portion 16 on the user's body (belt portion) is provided on the back surface of the battery attachment portion 16. A convex connector 18 that is electrically connected to the concave connector 15 of the polisher body 10m is provided at the tip of the lead cable 17. Thus, with the battery pack 1 attached to the battery attachment portion 16, the convex connector 18 of the lead cable 17 of the power supply portion 10e is connected to the concave connector 15 of the polisher main body portion 10m. The electrical circuit of the polisher body 10m is electrically connected. The battery pack 1 is a versatile slide mounting type battery that is also used as a battery for a rechargeable electric tool such as an electric screw tightener or an electric drill, and is shared with various rechargeable electric tools. )be able to.

  As shown in FIGS. 3 and 4, the battery pack 1 includes a plurality of cells housed in a rectangular battery case. In this embodiment, a lithium ion battery with an output voltage of 10.8 V is used. . The battery pack 1 can be repeatedly used by removing it from the battery mounting portion 16 and charging it with a separately prepared charger. In each of the embodiments described below, a configuration in which a lithium ion battery with an output voltage of 10.8 V is used as a power source is illustrated. However, a configuration in which a lithium ion battery with an output voltage of 18 V, 14.4 V, or the like is used as a power source is used. It is also possible. Moreover, not only a lithium ion battery but a structure using a nickel hydride battery etc. as a power supply is also possible.

  As shown in FIG. 3 and the like, a pair of left and right rail receiving portions 1a is provided on the upper surface of the battery pack 1. Inside the left and right rail receiving portions 1a, positive and negative power terminal receiving portions 1b and 1c and three communication terminal receiving portions 1d are provided. On the rear side of the positive and negative power supply terminal receiving portions 1b and 1c, a cooling intake port 1g opened in a rectangular shape is provided. Furthermore, one lock claw 1e is provided on the rear side of the intake port 1g. The lock claw 1e is biased so as to protrude upward by a spring mounted in the battery case. As shown in FIG. 3, an unlock button 1 f is provided on the rear surface of the battery pack 1. The unlock button 1f is provided integrally with the lock claw 1e. For this reason, when the unlock button 1f is pushed downward with the fingertip, the lock claw 1e can be moved in the direction of pulling downward against the spring biasing force (unlock side). Further, at the front end position of the upper surface of the battery pack 1, three exhaust ports 1h that are opened in a rectangular shape are provided. For this reason, the outside air introduced into the battery case through the intake port 1g during charging is exhausted from the exhaust port 1h, whereby the battery pack 1 is cooled. Further, as shown in FIG. 4, a remaining capacity display portion 1 j for displaying the remaining capacity of the power LED is provided on the front surface of the battery pack 1.

  The battery mounting portion 16 includes a pair of left and right rail portions 16a that can be fitted to the left and right rail receiving portions 1a of the battery pack 1, as shown in a bottom view (viewed by a VV arrow in FIG. 2) in FIG. Yes. The rail portion 16a extends in the front-rear direction, and positive and negative power supply connection terminals 16b and 16c and one communication terminal 16d are provided inside the rail portions 16a. Further, an engagement recess (not shown) into which the lock claw 1e on the battery pack 1 side is fitted is provided at the rear portion of the battery mounting portion 16. For this reason, the battery pack 1 can be attached to the battery attachment portion 16 by sliding the battery pack 1 forward from the rear side with respect to the battery attachment portion 16 (see the white arrow in FIG. 5). Further, when the user pushes the unlock button 1f to the unlock side with the fingertip while the battery pack 1 is attached, the lock claw 1e is disengaged from the engagement recess (not shown). Thereby, the battery pack 1 can be slid rearward, and the battery pack 1 can be removed from the battery mounting portion 16.

  As shown in FIG. 1, when the battery pack 1 is attached to the battery attachment portion 16, the positive and negative power supply terminal receiving portions 1 b and 1 c of the battery pack 1 are connected to the positive and negative power connection terminals 16 b and 16 c of the battery attachment portion 16. Will enter. Thereby, the power supply line of the said battery pack 1 and the battery attachment part 16 is electrically connected. Further, when the communication terminal 16d of the battery mounting portion 16 enters the communication terminal receiving portion 1d in the center of the battery pack 1, the communication line between the battery pack 1 and the battery mounting portion 16 is electrically connected. Become. Thereby, transmission / reception of a signal such as an automatic stop accompanying the overdischarge of the battery becomes possible. Of the three communication terminal receiving portions 1d of the battery pack 1, the left and right communication terminal receiving portions 1d are used when the battery pack 1 is attached to a separately prepared charger for charging.

  When the bus polisher 10 is used, the battery pack 1 is attached to the battery attachment portion 16 of the power supply portion 10e, and the battery attachment portion 16 and the battery pack 1 are held on the body using the body wearing tool 16k. And the convex connector 18 of the power supply part 10e is connected to the concave connector 15 of the polisher main-body part 10m. In this state, the motor is driven by gripping the grip portion 14 of the polisher main body portion 10m and pushing the start switch 14s, and the rotating brush 11 of the bus polisher 10 rotates. And in the state which the rotating brush 11 is rotating, the bathtub etc. can be wash | cleaned, flowing water by making the rotating brush 11 contact objects, such as a bathtub. That is, the state of the surface of the object can be changed by washing the object such as a bathtub. Thus, the rotating brush 11 corresponds to the rotating body of the present invention.

  FIG. 6 shows an example of a rechargeable electric tool attached with the battery pack 1 as a power source. The electric power tool 5 shown in FIG. 6 is an impact-type screw tightening machine, and includes a main body portion 5a, a grip portion 5b, and a power source portion 5c. The battery pack 1 is mounted along the lower surface of the power supply unit 5c, where the power supply unit 5c corresponds to the battery mounting unit. The battery pack 1 can be removed by sliding the power supply unit 5c forward (in the direction of white arrow removal). Conversely, the battery pack 1 can be mounted by sliding it backward (in the direction of the white arrow) with respect to the power supply 5c. The electric power tool 5 can be used by electric power from the battery pack 1 attached to the power supply unit 5c. The battery pack 1 removed from the power supply unit 5c of the electric tool 5 can be directly attached to the battery mounting unit 16 of the power supply unit 10e of the bus polisher 10. Thereby, the battery pack 1 can be used as a power source for the bus polisher 10.

  Thus, according to the bus polisher 10 of this embodiment, since the battery pack 1 used for the rechargeable electric tool can be used as a power source, the power cord is used as in the case of using a commercial 100V AC power source. There is no need to draw around, and the handleability of the bus polisher 10 is improved. In addition, the electric appliance can be used even in work using water where it is not preferable to use a commercial 100V AC power supply. Here, in the present embodiment, an example in which the present invention is applied to the bus polisher 10 has been shown. However, the present invention can also be applied to a vehicle polisher and a floor polisher. Moreover, in this embodiment, the example which electrically connects the polisher main-body part 10m and the power supply part 10e via the lead cable 17 grade | etc., Was shown. However, a configuration in which the battery attachment portion 16 is provided at the base end portion of the polisher main body portion 10m (grip portion 14) and the battery pack 1 is attached to the base end portion of the grip portion 14 is also possible.

<Embodiment 2>
Based on FIGS. 7-9, the electric appliance which concerns on Embodiment 2 of this invention is demonstrated. Note that the same members as those described in the first embodiment are denoted by the same reference numerals and description thereof is omitted. The electric appliance according to this embodiment is a shoe brush 20. The shoe brush 20 is a rotating device for mainly cleaning the inside of a sneaker or the like. As shown in FIG. 7, the shoe brush 20 includes a cylindrical grip portion 23, a reduced diameter portion 24 provided coaxially at the tip of the grip portion 23, and a tubular portion 25 protruding in the axial direction from the reduced diameter portion 24. And a rotating brush portion 26 provided at the distal end of the tubular portion 25. The distal end side of the tubular portion 25 is slightly inclined according to the shape of a sneaker or the like.

  On the base end side of the grip portion 23 of the shoe brush 20, a cylindrical battery attachment portion 22 into which the battery pack 2 of the insertion attachment type is inserted is formed. The grip portion 23 has a space for housing a motor, a speed reduction mechanism, an electric circuit, and the like (not shown) closer to the tip than the battery mounting portion 22. An output rotating shaft (not shown) such as a motor housed in the grip portion 23 is connected to the rotating brush portion 26 while being passed through the tubular portion 25. A start switch 23s for a motor, which is a component part of the electric circuit, is provided on the outer end surface of the grip portion 23.

  The battery pack 2 of the insertion mounting type is a lithium ion battery used as a power source of an electric tool such as a screwing machine, and as shown in FIG. 8, a main body 2a having a triangular cross section and a rear portion of the main body 2a. A head portion 2b formed with a slightly larger diameter is provided. The main body 2a is internally provided with three battery cells. Positive and negative terminal holes 2c and 2d are provided on the front end surface (front end surface) of the main body 2a. Further, on both left and right side portions of the head portion 2b of the battery pack 2, there are provided an engaging claw 2e and a push button 2f for operating the claw 2e to the disengagement side.

  The battery mounting portion 22 of the shoe brush 20 (grip portion 23) has a cross-sectional shape and a hole shape with a depth that can accommodate the main body portion 2a of the battery pack 2. A pair of left and right engaging protrusions (not shown) are provided on the inner side of the mouth of the battery mounting portion 22 corresponding to both engaging claws 2e of the head 2b of the battery pack 2. The engaging claws 2e are engaged with the both engaging protrusions only in the direction in which the battery pack 2 is removed, and the engaging claws 2e are retracted against the elastic force in the attaching direction. For this reason, when the battery pack 2 is inserted into the battery attachment portion 22, the left and right engagement claws 2e engage with the engagement protrusions on the battery attachment portion 22 side, and the battery pack 2 is locked at the attachment position.

  In addition, positive and negative connection terminals (not shown in the figure) are provided at the bottom of the battery mounting portion 22. For this reason, when the main body 2a of the battery pack 2 is inserted into the battery mounting portion 22 and locked in the mounting position, the positive and negative connection terminals of the battery mounting portion 22 (bottom) are the terminals of the battery pack 2 (main body 2a). The battery pack 2 is electrically connected to the power supply circuit of the shoe brush 20 by being inserted into the holes 2c and 2d. Further, when the battery pack 2 is locked at the attachment position, when the left and right push buttons 2f are pushed from both sides with the fingertips, the engagement state of the engagement claws 2e with respect to the engagement protrusions is released. For this reason, the battery pack 2 can be removed by being extracted from the battery mounting portion 22 of the shoe brush 20.

  When the shoe brush 20 is used, the battery pack 2 is inserted into the battery mounting portion 22 of the shoe brush 20 and locked in the mounting position. Thereby, the battery pack 2 is electrically connected to the power supply circuit of the shoe brush 20. For this reason, when the grip part 23 of the shoe brush 20 is gripped and the start switch 23s is pushed, the motor is driven and the rotating brush part 26 of the shoe brush 20 rotates. And while the rotating brush part 26 is rotating, by inserting the rotating brush part 26 into the sneaker, the sneaker or the like can be washed while flowing water. That is, the rotating brush portion 26 corresponds to the rotating body of the present invention.

  According to the shoe brush 20 of the second embodiment configured as described above, since the battery pack 2 used in the rechargeable electric tool can be used as a power source, the power cable is used as in the case of using an AC power source. The handleability of the shoe brush 20 is improved without being routed. In addition, the electric appliance can be used even in work using water in which it is not preferable to use a commercial 100V AC power supply. Here, in the present embodiment, an example in which the present invention is applied to the shoe brush 20 has been shown. However, as illustrated in FIG. 9, the present invention can be similarly applied to the multi-brush 20m.

  The multi-brush 20m is an electric appliance that is used when cleaning a kitchen sink or sink. The multi-brush 20m includes a cylindrical housing having a substantially inverted L side surface, and a vertical portion of the housing serves as a grip portion 23. The upper portion of the grip portion is bent forward, thereby forming a housing upper portion 27 in which a motor, a speed reduction mechanism, an electric circuit, and the like (not shown) are accommodated. An output rotation shaft (not shown) of the speed reduction mechanism protrudes forward from the front surface of the housing upper portion 27, and a disk-shaped rotating brush 29 is coaxially connected to the output rotation shaft. A motor start switch 23 s is provided at an inner boundary position between the housing upper portion 27 and the grip portion 23. A battery mounting portion 22 into which the battery pack 2 is inserted from below is provided at a lower position of the grip portion 23. A guard portion 28 is provided between the housing upper portion 27 and the lower end position of the grip portion 23 to protect the hand in a state where the grip portion 23 is gripped. That is, the rotating brush 29 corresponds to the rotating body of the present invention.

  Here, in the electric appliance (shoe brush 20, multi-brush 20m) according to the present embodiment, an example in which the battery pack 2 of the insertion mounting type is used is shown. However, it is also possible to use the battery pack 1 of the slide mounting type described in the first embodiment. It is also possible to adopt a method in which the power supply unit composed of the battery pack 1 and the battery mounting unit 16 is electrically connected to the electrical appliance by the lead cable 17 or the like.

<Embodiment 3>
Based on FIG. 10, the electric appliance which concerns on Embodiment 3 of this invention is demonstrated. Note that the same members as those described in the first embodiment are denoted by the same reference numerals and description thereof is omitted. The electric appliance according to this embodiment is a knife sharpener 30. The knife sharpener 30 is an electric tool for sharpening various knives, and includes a knife sharpening portion 30 m provided on the right side of the partition wall 36 and a power supply unit 30 e provided on the left side of the partition wall 36. The knife sharpening portion 30m includes a square housing 32, and, for example, two knife insertion grooves 34 are formed in an upper part of the square housing 32 in a state where the knife insertion grooves 34 are arranged in the left-right direction. A rotating grindstone (not shown) having different roughness is provided inside the square housing 32 with each knife insertion groove 34 interposed therebetween. The rotating grindstone is configured to sharpen both surfaces of the knife inserted into the knife insertion groove 34 by rotating. The square housing 32 contains a motor for rotating the rotary grindstone, a speed reduction mechanism, and an electric circuit. That is, the grindstone corresponds to the rotating body of the present invention.

  The power supply unit 30 e of the knife sharpener 30 includes a battery mounting portion 16 fixed in a bowl shape on the left side of the partition wall 36, and a slide mounting type battery pack 1 mounted on the battery mounting portion 16. The battery mounting portion 16 is fixed to the left side of the partition wall 36 in a horizontally downward state and positioned so that the rail portion 16a (see FIG. 5) extends in the left-right direction. And the battery pack 1 is attached to the battery attachment part 16 because the battery pack 1 slides horizontally from left to right. When the battery pack 1 is attached to the battery attachment portion 16, the battery pack 1 and the electric circuit of the knife sharpening portion 30m are electrically connected. A motor start switch 37, which is a component of the electric circuit, is provided on the front side of the battery mounting portion 16.

  When the knife sharpener 30 is used, the battery pack 1 is attached to the battery attachment portion 16 of the power supply portion 30e. In this state, by pressing the start switch 37, the motor starts and the grindstone rotates. For this reason, the knife can be sharpened by inserting the knife into the knife insertion groove 34. That is, the surface of the object can be changed by bringing the rotating body (rotary grindstone) into contact with the surface of the knife that is the object. Thus, since the battery pack 1 can be used as a power source, a power cord is not required as in the case of using an AC power source, and the handleability of the knife sharpener 30 is improved. Further, the knife sharpener 30 can be used even outdoors where a commercial 100V power source cannot be used. Further, in this embodiment, an example in which the battery pack 1 and the battery mounting portion 16 of the slide mounting type are used is shown, but the battery pack 2 and the battery mounting portion 22 of the insertion mounting type are used instead of the battery pack 1 and the like. It is also possible to do.

<Embodiment 4>
Based on FIG. 11, an electric appliance according to Embodiment 4 of the present invention will be described. Note that the same members as those described in the first embodiment are denoted by the same reference numerals and description thereof is omitted. The electric appliance according to the present embodiment is a cultivator 40. The cultivator 40 is a rotating device used in a kitchen garden or the like. The cultivator 40 includes a cultivator main body 40 m including left and right rotor blades 41 and left and right rear wheels 43. A housing 45 is provided on the upper side of the cultivator main body 40 m via a scattering prevention cover 44. A motor, a speed reduction mechanism, an electric circuit, and the like (not shown) are housed in the housing 45. The output rotation shaft of the speed reduction mechanism is connected to the left and right rotor blades 41 via gears. For this reason, when the motor is driven, the left and right rotor blades 41 are rotated via the speed reduction mechanism. That is, the left and right rotor blades 41 correspond to the rotating body of the present invention.

  Further, the battery mounting portion 16 of the power supply unit 40e for driving the motor is vertically mounted on the rear side of the housing 45, and the battery pack 1 of the slide mounting type is mounted on the battery mounting portion 16 from top to bottom. It is configured to be mounted by sliding. Further, on the rear side of the housing 45 of the cultivator 40, a rod-shaped frame 46 connected to the cultivator main body 40m in a state where the battery mounting portion 16 is avoided is provided. An auxiliary handle 47 and a main handle 48 are provided at the upper end of the frame 46. The main handle portion 48 is provided with a trigger switch 48t, which is a component of the electric circuit, in the vicinity of the grip portion 48g. Here, the wiring connecting the trigger switch 48 t and the electric circuit in the housing 45 is passed through the inside of the frame 46.

  When the cultivator 40 is used, the battery pack 1 is slid and attached to the battery attachment portion 16 on the rear side of the housing 45 from the top. In this state, the battery pack 1 and the electric circuit of the cultivator 40 are electrically connected. Accordingly, by holding the auxiliary handle 47 and the main handle 48 of the cultivator 40 and pulling the trigger switch 48t of the main handle 48, the motor is driven to rotate the left and right rotor blades 41. . The cultivated land is cultivated by the rotation of the left and right rotor blades 41. That is, the shape of the object (arable land) can be changed by bringing the rotating body (rotor blade 41) into contact with the object (arable land). Thus, since the battery pack 1 can be used as a power source for the cultivator 40, handling is improved as compared with a conventional cultivator using a commercial 100V power source using an extension cord. Moreover, since it is not necessary to provide an extension cord entrainment prevention guide in a cultivator, a cultivator becomes compact.

<Embodiment 5>
Based on FIG. 12, an electric appliance according to Embodiment 5 of the present invention will be described. Note that the same members as those described in the first embodiment are denoted by the same reference numerals and description thereof is omitted. The electric appliance according to this embodiment is a hand mixer 50. The hand mixer 50 is an electric appliance used for whipping fresh cream, stirring eggs, and the like, and includes a housing 52 and a pair of stirring portions 54 provided on the lower surface side of the housing 52. The housing 52 includes an angled front housing part 52f and a grip part 52g extending rearward from the upper end position of the front housing part 52f. Further, a lateral housing portion 52y extending rearward is connected to a position below the center portion of the front housing portion 52f, and the rear end position of the lateral housing portion 52y is connected to the rear end position of the grip portion 52g. Has been. An opening 52h is formed between the grip 52g of the housing 52 and the lateral housing 52y.

  The front housing portion 52f of the housing 52 houses a motor, a speed reduction mechanism, an electric circuit, and the like (not shown). The speed reduction mechanism is provided with a pair of output rotation shafts (not shown) facing downward, and a connection shaft 54j of the pair of stirring portions 54 is configured to be connectable to the pair of output rotation shafts from below. . Further, an operation switch 53 capable of switching the speed of the motor is provided in the vicinity of the grip portion 52g at the upper end position of the front housing portion 52f. Further, a lower part of the rear side of the horizontal housing part 52y of the housing 52 is provided with a notch part so that the slide-mount type battery pack 1 can be fitted from behind, and the battery attaching part 16 is provided on the ceiling part of the notch part. ing. Then, the battery pack 1 is attached to the battery attachment portion 16 by horizontally sliding forward from the rear.

  When the hand mixer 50 is used, the battery pack 1 is attached to the battery mounting portion 16 of the housing 52 (lateral housing portion 52y). Further, the connecting shafts 54j of the pair of stirring portions 54 are connected from the lower side of the housing 52 to a pair of output rotation shafts (not shown) of the speed reduction mechanism. In this state, by grasping the grip portion 52g of the hand mixer 50 and operating the operation switch 53 with the thumb, the motor is driven and the pair of stirring portions 54 are rotated. Thereby, the raw eggs etc. put into the ball can be stirred by the pair of stirring portions 54 of the hand mixer 50. For this reason, a pair of stirring part 54 is corresponded to the rotary body of this invention. That is, the shape of the target object (eg, raw egg) can be changed by bringing the rotating body (stirring unit 54) into contact with the target object (eg, raw egg). As described above, since the battery pack 1 can be used as a power source, a power cord is not required as in the case of using an AC power source, and handling is improved. Here, in the present embodiment, the example in which the battery pack 1 of the slide mounting type and the battery mounting portion 16 are used has been shown, but the battery pack 2 and the battery mounting portion 22 of the insertion mounting type are used instead of the battery pack 1 or the like. It is also possible to use it.

<Embodiment 6>
Based on FIG. 13, FIG. 14, the electric appliance which concerns on Embodiment 6 of this invention is demonstrated. Note that the same members as those described in the first embodiment are denoted by the same reference numerals and description thereof is omitted. The electric appliance according to the present embodiment is a stick blender 60. The stick blender 60 is a rotating device that cuts and mixes vegetables and the like in a roughly cut cup while being finely cut from above. The stick blender 60 includes a cylindrical grip portion 63, a tube portion 65 that projects coaxially downward from the lower end position of the grip portion 63, and a concave spherical guard 66 provided at the tip (lower end) of the tube portion 65. It is equipped with. A rotating shaft (not shown) is coaxially accommodated inside the tube portion 65 of the stick blender 60, and a propeller-like cutting blade (covered with a guard 66 at the tip (lower end) position of the rotating shaft ( (Not shown) is attached.

  On the upper end side of the grip part 63, a battery attachment part 22 into which the battery pack 2 of the insertion attachment type is inserted from above is formed. The grip 63 has a space below the battery mounting portion 22 in which a motor, a speed reduction mechanism, an electric circuit, and the like (not shown) are stored. And the output rotating shaft of the said deceleration mechanism is connected with the rotating shaft provided with a cutting blade. Further, on the outer peripheral surface of the grip portion 63, a motor start switch 63s of the stick blender 60 is provided.

  When the stick blender 60 is used, the battery pack 2 is inserted into the battery mounting portion 22 of the stick blender 60 and locked in the mounting position. Thereby, the battery pack 2 is electrically connected to the electric circuit of the stick blender 60. In this state, the motor is driven by grasping the grip 63 of the stick blender 60 and pushing the start switch 63s, and the cutting blade inside the guard 66 rotates. That is, the cutting edge corresponds to the rotating body of the present invention. And vegetables etc. can be further cut and mixed by pushing the vegetables etc. in a cup from the upper part in the guard 66 part of the stick blender 60. FIG. That is, it is possible to change the shape of the object (vegetables, etc.) by bringing the rotating body (cutting blade) into contact with the object (vegetables, etc.). Thus, since the battery pack 2 can be used as a power source, a power cord is not required as in the case where an AC power source is used, and handling is improved.

  FIG. 14 shows a blender 60m that is an electric appliance according to a modification of the sixth embodiment. The blender 60m is an instrument for chopping and mixing vegetables, fruits, etc. to make juice, smoothies and the like. The blender 60m includes a blender body portion 67, a cutter portion 68, and a cup portion 69. The blender main body 67 is formed in a substantially cylindrical shape at a portion in which a motor, a speed reduction mechanism, an electric circuit and the like (not shown) are accommodated. And the output rotating shaft of the said deceleration mechanism is provided in the state which protruded upwards from the upper surface center of the blender main-body part 67. As shown in FIG. In addition, a battery attachment portion 16 to which the slide attachment type battery pack 1 is attached from below is provided on the lower side surface of the blender main body portion 67. The motor start switch 67s is provided on the side surface of the blender main body 67 at a position above the battery mounting portion 16.

  On the upper surface of the blender body 67, the cutter 68 is coaxially stacked from above. The cutter portion 68 is configured to close the opening of the cup portion 69 in a lid shape, and a rotary blade (not shown) is provided in a rotatable state at the center portion of the cutter portion 68. Then, the output rotary shaft of the blender main body 67 is engaged with the rotary blade of the cutter 68 in a state where the cutter 68 is superimposed on the upper surface of the blender main body 67 and is not relatively rotatable. That is, the rotary blade corresponds to the rotary body of the present invention.

  When using the blender 60m, the battery pack 1 is attached and locked to the battery mounting portion 16 of the blender 60m. Thereby, the battery pack 1 is electrically connected to the electric circuit of the blender 60m. Next, raw materials such as vegetables and fruits are stored in the cup portion 69, and the opening of the cup portion 69 is covered with the cutter portion 68. Next, the cutter unit 68 is set on the upper surface of the blender main body 67 with the cutter unit 68 facing down. In this state, by operating the start switch 67s, the motor is driven to rotate the rotary blade of the cutter unit 68 together with the output rotation shaft, and the material such as vegetables is cut finely. Here, the example in which the battery pack 1 of the slide mounting type is used for the power source of the blender 60m is shown, but the battery pack 2 of the insertion mounting type can be changed to be usable.

<Embodiment 7>
An electric appliance according to Embodiment 7 of the present invention will be described based on FIG. Note that the same members as those described in the first embodiment are denoted by the same reference numerals and description thereof is omitted. The electric appliance according to this embodiment is a rice mill 70. The rice milling machine 70 is an instrument that removes nuka from the surface of brown rice to make white rice. The rice mill 70 includes a rice mill main body 70 m provided on the right side of the housing 71 and a rice control unit 70 c provided on the left end of the housing 71. The rice milling machine main body 70 m includes a rice milling container (not shown) in the housing 71, and an opening 72 of the rice milling container is provided on the upper surface of the housing 71. The opening 72 is configured to be openable and closable by a disc lid 73. A basket portion (not shown) in which brown rice supplied from the opening 72 is stored is provided inside the rice milling container of the rice milling machine main body portion 70m. In addition, a blade (not shown) for rotating the brown rice stored in the basket is provided inside the basket. And by rotating the said blade | wing, brown rice will contact | abut to the wall surface of a basket part, or brown rice will contact | abut, and rice milling will be performed.

  The rice milling control unit 70c is configured to be able to control the rotation speed and rotation time of the blades of the rice milling machine main body 70m. A display unit 74 and a plurality of operation switches 75 are provided on the upper surface of the housing 71 of the rice milling control unit 70c. Further, a motor, a speed reduction mechanism, and an electric circuit for rotating the blades of the rice milling machine main body 70m are housed inside the housing 71 of the rice milling control unit 70c. That is, the output rotation shaft of the speed reduction mechanism is connected to the blades of the rice milling machine main body 70m via a transmission mechanism (not shown). The lower surface of the housing 71 of the rice control unit 70c is provided with a battery housing recess 71m for housing the battery pack 1 of the slide mounting type, and the battery mounting portion 16 is provided on the ceiling surface of the battery housing recess 71m. It has been. And the battery pack 1 is attached to the battery attachment part 16 because the battery pack 1 slides horizontally from the front to the back. That is, the blades of the rice mill main body 70m correspond to the rotating body of the present invention.

  When using the rice mill 70, the battery pack 1 is attached to the battery mounting part 16 of the rice control unit 70c. Next, a specified amount of brown rice is supplied into the basket from the opening 72 of the rice milling machine main body 70m. In this state, by operating the operation switch 75 of the rice control unit 70c, the blades of the rice milling machine main body 70m are rotated by the driving of the motor, and rice polishing is performed. That is, the shape of the object (brown rice) can be changed by bringing the rotating body (blade) into contact with the object (brown rice). As described above, since the battery pack 1 can be used as a power source, a power cord is not required as in the case of using an AC power source, and handling is improved. Further, in this embodiment, an example in which the battery pack 1 and the battery mounting portion 16 of the slide mounting type are used is shown, but the battery pack 2 and the battery mounting portion 22 of the insertion mounting type are used instead of the battery pack 1 and the like. It is also possible to do.

<Eighth embodiment>
Based on FIG. 16, an electric appliance according to Embodiment 8 of the present invention will be described. Note that the same members as those described in the first embodiment are denoted by the same reference numerals and description thereof is omitted. The electric appliance according to the present embodiment is a portable dishwasher 80 used outdoors. The dishwasher 80 includes a main washing unit 80w that generates a water flow to wash dishes, and a cup washing unit 80b that includes brushes 88 and 89 for manually washing cups and the like. The main washing part 80w is formed in a rectangular water tank shape, and includes a water supply port provided with a water supply valve and a water discharge port (not shown) provided with a drainage valve. The main washing section 80w is divided into a left and right interior by a partition wall 81, and a right tank 82 and a left tank 83 communicate with each other at a front end portion and a rear end portion. A control box 84 is provided on the front side surface of the main cleaning unit 80w, and a motor, a speed reduction mechanism, an electric circuit, and the like are accommodated in the control box 84.

  Then, the output rotation shaft of the speed reduction mechanism projects in the left tank 83 in a sealed state, and is connected to a rotating blade (not shown) provided in the left tank 83. The control box 84 is configured to be able to open and close the water supply valve and the drain valve. A display 84m and an operation switch 84s are provided on the surface of the control box 84. Further, on the front side surface of the main washing portion 80w, a battery attachment portion 16 to which the battery pack 1 of the slide attachment type is attached is provided vertically on the left side of the control box 84. Accordingly, the battery pack 1 is attached to the battery attachment portion 16 by sliding the battery pack 1 from the top to the bottom.

  When using the dishwasher 80, a water supply pipe is connected to the water supply port of the main washing unit 80w, and a drain pipe is connected to the water discharge port. Further, the battery pack 1 is attached to the battery mounting portion 16 of the main cleaning portion 80w. In this state, the tableware to be cleaned is stored in the right tub 82 and the left tub 83, and the operation switch 84s of the control box 84 is operated to automatically perform cleaning. That is, first, the water supply valve is opened, and water is supplied into the main cleaning unit 80w. Then, when water is supplied to a predetermined level, the water supply valve is closed, the motor is started, and the rotating blade (not shown) rotates. As a result, a water flow is generated in the main washing section 80w, and water is circulated between the right tank 82 and the left tank 83 to wash the dishes. Then, when a predetermined time has elapsed, the motor is stopped, the drain valve is opened, and drainage is performed.

  This series of operations is repeated a plurality of times to clean the dishes. That is, the surface state of the object (tableware) can be changed using the water flow generated by the rotation of the rotating body (rotating blade). Accordingly, the rotating blades that generate the water flow correspond to the rotating body of the present invention. As described above, since the battery pack 1 can be used as a power source, a power cord is not required as in the case of using an AC power source, and handling is improved. Here, in the present embodiment, the dishwasher 80 is taken as an example to explain the electric appliance that changes the surface state of the object using a water flow. It is also possible to apply technology.

<Ninth Embodiment>
Based on FIG. 17, an electric appliance according to Embodiment 9 of the present invention will be described. Note that the same members as those described in the first embodiment are denoted by the same reference numerals and description thereof is omitted. The electric appliance according to the present embodiment is a hair loss suction machine 90 that sucks hair loss for dogs and cats. Here, FIG. 17 is a perspective view of the hair loss suction machine 90 as viewed from below. The hair loss suction machine 90 is configured to suck the hair loss of the dog and cat together with the outside air by using the rotational force of a fan (not shown), and to store the sucked hair loss and the like. The hair loss suction machine 90 includes a suction machine main body 90m, a grip part 92, and a hair loss storage part 97.

  The suction machine main body 90m includes a housing 93 having a circular suction port 95 on the front lower surface side. A brush-like rotor 94 is rotatably mounted around the suction port 95 of the housing 93. Further, a motor, a speed reduction mechanism, an electric circuit, and the like (not shown) for rotating the fan and the rotor 94 are accommodated in the housing 93 of the suction machine main body 90m. Further, a rectangular exhaust port 93b is formed in the lateral direction at the rear end position of the housing 93 of the suction machine main body 90m, and a hair loss storage portion 97 is connected to the rectangular exhaust port 93b. That is, the fan corresponds to the rotating body of the present invention.

  The hair loss storage portion 97 is formed in an elongated rectangular tube container shape, and an opening portion 97k is provided on the front end side, and an exhaust portion 97h having a plurality of small holes is provided on the rear end side. And the opening part 97k of the hair loss storage part 97 is comprised in the airtight state with respect to the square exhaust port 93b of the suction machine main-body part 90m (housing 93), and is comprised so that removal is possible. A front part of a grip part 92 extending rearward in a state substantially parallel to the hair loss storage part 97 is connected to the upper part of the housing 93 of the suction machine main body part 90m. An operation switch 92 s is provided on the upper front end of the grip portion 92. In addition, a battery mounting portion 22 into which the battery pack 2 of the insertion mounting type is inserted from the rear is formed at the rear end position of the grip portion 92.

  When using the hair loss suction machine 90, the battery pack 2 of the attachment type is attached to the battery attachment part 22 of the grip part 92. Thereby, by gripping the grip part 92 and operating the operation switch 92s, the fan is rotated by driving the motor or the like, and the outside air is sucked from the suction port 95 of the suction machine main body part 90m. Further, the rotor 94 around the suction port 95 rotates. In this state, by brushing the dog and cat, the hair loss can be sucked while scraping the hair. Hair loss sucked from the suction port 95 of the suction machine main body 90m together with outside air is discharged from the rectangular exhaust port 93b of the suction machine main body 90m and stored in the hair loss storage part 97. And only gas is exhausted from the exhaust part 97h of the hair loss storage part 97. That is, the state of the surface of the object (dog) can be changed using the airflow generated by the rotation of the rotating body (fan).

  Thus, since the battery pack 2 can be used as a power source, a power cord is not required as in the case where an AC power source is used, and handling is improved. Further, in the present embodiment, an example in which the battery pack 2 and the battery mounting portion 22 of the insertion mounting type are used is shown, but the battery pack 1 and the battery mounting portion 16 of the slide mounting type can also be used. Here, in the present embodiment, the hair loss suction machine 90 that sucks hair loss for dogs and cats has been described as an example of an electric appliance that changes the surface state of an object using an air flow. It is also possible to apply the technology according to the present embodiment to a suction machine, a dryer, a blower, and the like.

<Embodiment 10>
An electric appliance according to Embodiment 10 of the present invention will be described based on FIG. Note that the same members as those described in the first embodiment are denoted by the same reference numerals and description thereof is omitted. The electric appliance according to the present embodiment is a cork extractor 100 for extracting a cork stopper from a wine bottle. The cork removal device 100 includes a cork removal part 102 and a grip part 105 provided coaxially. The cork removal portion 102 includes a cylindrical portion 104 and a screw portion 103 provided coaxially with the cylindrical portion 104 inside the cylindrical portion 104. A ring-shaped receiving port 104f is formed at the tip (lower end) of the cylindrical portion 104. The ring-shaped receiving port 104f is configured so as to be coaxially abutted from above with respect to a spout of a wine bottle (not shown). The screw portion 103 is a portion that is screwed into a cork stopper while rotating around an axis, and is formed by forming a thin stainless steel round bar with a sharp tip in a spiral shape.

  The grip portion 105 of the cork removal device 100 is a portion that is gripped when the cork stopper is pulled out, and stores a motor, a speed reduction mechanism, an electric circuit, and the like (not shown) that rotate the screw portion 103 of the cork removal portion 102 inside. Yes. The output rotation shaft of the speed reduction mechanism is coaxially connected to the base end portion of the screw portion 103. An operation switch 106 for driving the motor is provided on the center outer surface of the grip portion 105. In addition, a battery mounting portion 22 into which the plug-in mounting type battery pack 2 is inserted from above is formed at the upper end position of the grip portion 92. That is, the screw portion 103 corresponds to the rotating body of the present invention.

  When the corkscrew 100 is used, the battery pack 2 is inserted into the battery mounting portion 22 of the grip portion 105 and locked at the mounting position. Next, the grip part 105 of the cork removal device 100 is gripped, and the receiving port 104f of the cylindrical part 104 of the cork removal unit 102 is brought into contact with the spout of a wine bottle (not shown) coaxially from above. Thereby, the front-end | tip of the screw part 103 comes to bite into the upper end of a cork stopper. In this state, when the operation switch 106 of the grip part 105 is operated, the motor is driven and the screw part 103 of the cork removal part 102 rotates about the axis. Thereby, the screw part 103 is screwed into the cork stopper. Here, since the screw portion 103 is rotated at a fixed position, when the screw portion 103 is screwed into the cork stopper, the cork stopper moves relatively in the axial direction by the action of the screw, so that the wine bottle It is pulled out from the spout. That is, it is possible to change the state of the object (wine bottle) by converting the rotational force of the rotating body (screw part 103) into a linear motion by the action of the screw and transmitting it to the object (cork stopper). Thus, since the battery pack 2 can be used as a power source, a power cord is not required as in the case where an AC power source is used, and handling is improved.

<Embodiment 11>
An electric appliance according to Embodiment 11 of the present invention will be described based on FIG. Note that the same members as those described in the first embodiment are denoted by the same reference numerals and description thereof is omitted. The electric appliance according to the present embodiment is an electric can opener 110 that opens a cylindrical can. The electric can opener 110 includes a box-shaped housing portion 114 and a can opener portion 112 that is rotatably attached to the upper end position of the housing portion 114 from a horizontal position. A feed gear 115 is provided on the upper portion of the front surface 114f of the housing portion 114 in parallel with the front surface 114f to support the upper end outer peripheral portion of the cylindrical can from below and rotate the can horizontally around the axis.

  A motor for rotating the feed gear 115, a speed reduction mechanism, an electric circuit, and the like (not shown) are accommodated in the housing portion 114 of the electric can opener 110. The output rotation shaft of the speed reduction mechanism is coaxially connected to the base end portion of the feed gear 115. In addition, a rectangular recess 114k that accommodates the battery pack 1 of the slide mounting type is formed in the upper right rear part of the housing part 114, and the battery mounting part 16 is formed on the rear vertical wall of the recess 114k of the housing part 114. It is formed vertically. Accordingly, the battery pack 1 can be attached to the battery attachment portion 16 by sliding the battery pack 1 from the top to the bottom. That is, the feed gear 115 corresponds to the rotating body of the present invention.

  The can opener 112 of the electric can opener 110 is a box-like body including a cutting blade 113 and a can holding part 116 on the lower surface side, and a horizontal can open position (see FIG. 19) and a predetermined angle around the rotation center C. It is comprised so that it can rotate between the can set positions rotated up. The cutting blade 113 of the can opener 112 is positioned in a state where a predetermined interval is opened in parallel with the feed gear 115 in a state where the can opener 112 is disposed at the can open position. Thereby, the upper end outer peripheral part of the can is set on the feed gear 115, the can opener 112 is rotated downward from the can set position, and further pushed down to the can open position, so that the cutting blade 113 is bitten into the upper surface of the can. be able to. Furthermore, the upper surface of the can can be pressed by the can pressing portion 116. An operation switch 112s for driving the motor is provided at the upper right end position of the can opener 112.

  When the electric can opener 110 is used, the battery pack 1 is slid from the top to the bottom and attached to the battery attachment portion 16 of the housing portion 114. In this state, the can opener 112 of the electric can opener 110 is turned up to the can setting position, and the upper end outer periphery of the can is set on the feed gear 115. Next, the can opener 112 is rotated downward from the can setting position, and further pushed down to the can open position, whereby the cutting blade 113 is bitten into the upper surface of the can. In this state, by continuing to push the operation switch 112s downward, the feed gear 115 is rotated by the action of a motor or the like, and the can is rotated about the axis with respect to the cutting blade 113. As a result, the upper surface of the can is continuously cut along the outer periphery of the upper end by the cutting blade 113. That is, the state of the object (canned product) can be changed by relatively rotating the object (canned product) and the cutting blade 113 by the rotating body (feed gear 115). As described above, since the battery pack 1 can be used as a power source, a power cord is not required as in the case of using an AC power source, and handling is improved.

<Twelfth embodiment>
An electric appliance according to Embodiment 12 of the present invention will be described based on FIG. Note that the same members as those described in the first embodiment are denoted by the same reference numerals and description thereof is omitted. The electric appliance according to the present embodiment is an electric peeler 120 that peels a substantially spherical fruit such as an apple or a basket. The electric peeler 120 has an L-shaped side surface from a horizontal base 121 having a rotating seat 121h that rotatably supports a fruit and a box-shaped housing part 122 provided at a right angle to the base 121. Is formed. The rotating seat 121h of the base portion 121 is supported in a horizontally rotatable state at the center of the front portion of the base portion 121, and a fixed blade 121s for fixing fruits to the upper surface table of the rotating seat 121h is provided. In addition, a motor that rotates the rotary seat 121h, a speed reduction mechanism, and the like are provided inside the base portion 121. That is, the rotating seat 121h corresponds to the rotating body of the present invention.

  A positioning shaft 125 is horizontally provided in the upper central position on the front side of the housing portion 122 so as to be rotatable around the axis. A peeling blade 126 is attached to the positioning shaft 125. The peeling blade portion 126 is composed of an L-shaped pedestal portion 126z that is symmetrically fixed before and after the positioning shaft 125, and a frame-shaped cutting blade 126s that connects the front ends of the front and rear L-shaped pedestal portions 126z. The frame-shaped cutting blade 126s is formed long in the front-rear direction, and a connecting shaft 126j is formed so as to protrude coaxially at the front end position and the rear end position of the cutting blade 126s. The front and rear connecting shafts 126j of the cutting blade 126s are rotatably supported at the front ends of the front and rear L-shaped pedestals 126z.

  Inside the housing portion 122 are housed a motor that rotates the positioning shaft 125, a speed reduction mechanism, and an electric circuit that drives the motor and the motor that rotates the rotating seat 121h of the base portion 121. Further, on the upper surface of the housing part 122, an operation switch 124 and an indicator 124m of the electric peeler 120 are provided. Further, a rectangular recess 122k for accommodating the battery pack 1 of the slide mounting type is formed downward on the right side of the rear portion of the housing portion 122, and the battery mounting portion 16 is formed on the rear vertical wall of the recess 122k of the housing portion 122. Is formed vertically. Thus, the battery pack 1 can be mounted on the battery mounting portion 16 by sliding the battery pack 1 from the bottom to the top.

  When using the electric peeler 120, the battery pack 1 is slid from below to be attached to the battery attachment portion 16 of the housing portion 122. Next, the fruit is set on the rotating seat 121 h of the base 121 of the electric peeler 120. By operating the operation switch 124 in this state, a motor or the like operates, and the fruit rotates around the horizontal axis together with the rotating seat 121h. Thereby, the skin of the outer peripheral surface of the fruit which is contacting with the cutting blade 126s of the peeling blade part 126 comes to peel. Further, the positioning shaft 125 rotates in a certain direction around the axis by the action of a motor or the like, and the inclination angle of the cutting blade 126s of the peeling blade portion 126 gradually changes. This gradually changes the contact position between the cutting blade 126s and the outer peripheral surface of the fruit, and the outer peripheral surface of the fruit is peeled as a whole. That is, the state of the object (fruit) can be changed by relatively rotating the object (fruit) and the cutting blade 126s by the rotating body (rotating seat 121h). As described above, since the battery pack 1 can be used as a power source, a power cord is not required as in the case of using an AC power source, and handling is improved.

<Example of change>
Here, the present invention is not limited to the above-described embodiment, and can be modified without departing from the gist of the present invention. For example, in the first to twelfth embodiments, the battery mounting portions 16 and 22 for attaching the battery packs 1 and 2 are provided on the grip portion and the housing of the electric appliance. However, for example, a configuration in which battery mounting portions 16 and 22 are provided in a pedestal portion or the like, and an electric appliance and the pedestal portion are electrically connected by a lead cable is also possible. Moreover, in this embodiment, the example which attaches the battery pack 2 to an electric appliance by inserting the battery pack 2 with respect to the battery attachment part 22 provided in the electric appliance was shown. However, as shown in FIG. 21, the battery mounting portion 22 is provided separately from the electric appliance 130, and the battery mounting portion 22 is connected to the concave connector 15 of the electric appliance 130 via the lead cable 17 and the convex connector 18. But it is possible.

<Regarding Control Between Electric Appliance 300 and Battery Pack 400>
Next, various controls performed between the representative electric appliance 300 according to the first to twelfth embodiments and the battery pack 400 will be described with reference to FIGS. The electric appliance 300 is substantially the same as the electric appliance described in the first to twelfth embodiments, and is given another reference in consideration of the convenience of description. The battery pack 400 is substantially the same as the battery pack 1 of the slide mounting type (box type) and the battery pack 2 of the stick type, and the same reference numerals are given for convenience of explanation. ing.

  As shown in FIG. 22, the battery pack 400 is provided with positive and negative power supply terminal receiving portions 401 and 402 and three communication terminal receiving portions 403, 404 and 405. In addition, a remaining capacity display unit 406 for displaying the remaining capacity of the LED with an LED is provided on the front surface of the battery pack 1 (see reference numeral 1j in FIG. 4). The battery pack 400 includes a remaining capacity detection circuit 407 and three battery cells V1, V2, and V3. The maximum output voltage of 10.8V is secured by the three battery cells V1, V2, and V3. The battery pack 400 includes a thermistor 408 that detects the temperatures of the battery cells V1, V2, and V3.

  As the thermistor 408, an NTC thermistor having a negative resistance temperature characteristic is generally used, but a PTC thermistor having a positive characteristic may be used. Further, in the present embodiment, the thermistor 408 is illustrated in the vicinity of the battery cell V1 in order to appropriately detect the temperature of the battery. However, instead of this, the thermistor 408 is disposed in the vicinity of the battery cells V2, V3. It is good. When there is a large temperature difference between V1, V2 and V3, it is desirable to arrange the thermistor in the battery cell where the temperature is most likely to rise.

  Even when the battery pack 400 is removed from the battery mounting portion of the electric appliance 300, the remaining capacity can be confirmed by the remaining capacity display unit 406. The remaining capacity display unit 406 displays four lights using LEDs 1 to 4. When the user presses the remaining capacity switch 409, the remaining capacity detection circuit 407 turns on the LEDs 1 to 4 according to the remaining capacity. In the remaining capacity detection circuit 407, the remaining capacity is detected in accordance with the battery voltage. For example, the remaining capacity is controlled to switch the number of lights to 1 lamp, 2 lamps, 3 lamps, 4 lamps every 25%.

  As shown in FIG. 22, the positive and negative power supply terminal receiving portions 401 and 402 of the battery pack 400 and the battery cell temperature detecting terminal receiving portion 405 are electrically connected to the battery mounting portion side (terminal 317) of the electric appliance 300. Connected. Of the three communication terminal receivers 403, 404, and 405 of the battery pack 400, the battery cell voltage detection terminals 403 and 404 are charger terminal receivers and are connected only to the charger 500 ( (See FIG. 27). The electric appliance 300 includes a motor 301, a power supply circuit 302, a control microcomputer 303, a battery state detection unit 304, an energization control switch (FET) 305, a switch drive circuit 306, a main switch 310, and a strength switch. 311 and a current detection circuit 315 are mounted.

  In the power supply circuit 302, when a battery voltage is input, the battery voltage is stepped down to a control voltage Vcc having a predetermined voltage value and output. The control voltage Vcc generated by the power supply circuit 302 is used as an operation power supply for each unit such as the control microcomputer 303 and the drive circuit 306.

  The control microcomputer 303 is a microcomputer provided with a CPU, ROM, RAM, I / O, and the like.

  In the battery state detection unit 304, the battery voltage detection circuit 316 detects the battery voltage input from the power supply terminal receiving unit 401 of the battery pack 400 and the positive electrode terminal 312 of the electric device and inputs the battery voltage to the control microcomputer 303. When the temperature detection circuit 314 detects the resistance value of the thermistor 408 via the communication terminals 405 and 317, the resistance value detection value of the thermistor 408 is input to the control microcomputer 303. Note that the characteristics of the thermistor 408 are stored in advance in the ROM of the control microcomputer, and the control microcomputer 303 detects the temperature of the battery cell from the input resistance value of the thermistor 408 and the characteristic data stored in the ROM. Can do.

  The current detection circuit 315 can detect an energization current value from, for example, a potential difference generated at both ends of the current detection resistor based on an energization current that flows when the electric appliance 300 is operating.

  In this embodiment, the energization control switch 305 uses an N-channel MOSFET, and the power supplied to the motor 301 can be controlled by controlling the on / off duty ratio of the drive circuit 306.

  The main switch 310 is configured to input to the control microcomputer 303 whether or not the switch is in an on state, and the strength switch 311 is in an on state when, for example, it is desired to operate in the strong mode. This is input to the control microcomputer 303, and when it is desired to operate in the weak mode, it is input to the control microcomputer 303 that it is in the off state. In the present embodiment, the main switch 310 and the strength switch 311 are separated from each other. For example, a single switch is used to switch between strong, weak, and stop according to the number of times the switch is turned on. Also good.

  FIG. 23 shows a flowchart of control performed by the control microcomputer 303 of the electric appliance 300. The flowchart is mainly for the discharge protection of the battery pack 400. When the battery pack 400 is attached to the battery attachment portion of the electric appliance 300, power is supplied to the electric appliance 300 and the control microcomputer 303 operates. Thereafter, when a signal indicating that the user has turned on the main switch 310 is input to the control microcomputer 303 (step 01, hereinafter abbreviated as “ST01”), the control microcomputer 303 first transfers the battery from the battery state detection unit 304 to the battery in ST02. Get state. The battery state is the battery voltage and the battery cell temperature as described above. Based on the acquired battery state, a start permission condition is determined in ST03. In this case, when the voltage of the battery pack 400 is 8 V or higher and the temperature is 60 ° C. or lower, it is determined that the start permission condition is satisfied. If it is determined that the activation permission condition is not satisfied, the flow is terminated in ST05, and the electric appliance 300 does not start the operation even if the main switch 310 is turned on.

  If it is determined in ST03 that the activation condition is satisfied, it is confirmed in ST04 whether the mode is the strong mode. The on / off duty ratio (duty) of the drive circuit 306 is changed according to the switching state of the strength switch 311, and the power supplied to the motor 301 is controlled by the energization control switch 305. When the strong mode is confirmed in ST04, 100% duty electric power is supplied to the motor 301 in ST06. If the strong mode is not confirmed in ST04 and it is determined that the mode is the weak mode, power of duty 50% is supplied to the motor 301 in ST07.

  While power is being supplied (when the electric appliance is being used), the battery state is acquired in ST08. Similar to the processing in ST02, the battery voltage detection unit 304 detects the battery voltage and the battery cell temperature. The control microcomputer 303 acquires the detected battery voltage and battery cell temperature from the battery state detection unit 304. Furthermore, since an energizing current flows during power supply, the energizing current value is also detected by the current detection circuit 315. The control microcomputer 303 acquires the detected energization current value from the current detection circuit 315.

  Based on the battery state acquired in ST08, it is determined in ST09 whether the electric appliance stop condition is satisfied. The stop condition is, for example, that the voltage of the battery pack 400 is detected to be 7.5 V or less for 1 second or longer, the temperature is detected to be 80 ° C. or higher for 1 second or longer, and the energizing current is 80 A or higher. It is set to be detected for more than a second. When one of these conditions is detected, the energization control switch 305 is turned off in ST11, and the motor 301 is stopped even if the main switch 310 is on.

  Since this type of battery pack 400 is used in an electric tool or an appliance that allows a large current to flow, the battery pack 400 tends to be in a high temperature state. Therefore, when the battery pack 400 reaches a high temperature state, it is necessary to stop discharging and prevent the life from being shortened. Therefore, the control microcomputer 303 of the electric appliance 300 reads the resistance value information of the thermistor 408 in the battery pack 400 via the T terminal 317, and turns off the energization control switch 305 when the battery temperature exceeds a specified value (for example, 80 ° C.). To cut off the power supply.

  In addition to the above high temperature protection, over discharge protection is performed. In order to prevent overdischarge, the battery voltage detection circuit 316 performs measurement so that the discharge is stopped when it is detected that the voltage of the battery pack 400 has fallen below the specified value. In the case of a 10.8 V battery, the cell voltage to be protected is 2.5 V × 3, and when the voltage falls below 7.5 V, the electric appliance is stopped. However, there is a case where a large current flows instantaneously due to a starting current or the like in an electric appliance, and even if the remaining battery pack on-capacity is not empty, it may fall below 7.5V for a moment. It is desirable to have a width of about a second.

  In order to prevent an abrupt temperature increase of the battery pack 400, the current value is detected by the current detection circuit 315 so as to stop when detecting not only the temperature but also an overcurrent exceeding a certain value. It should be noted that it is desirable that the detection time has a width so as not to stop at the starting current flowing in the motor at the time of starting. Further, since not only the battery pack 400 but also the electric appliance 300 itself continues to flow, it causes a failure. Therefore, the overcurrent protection of the battery pack 400 is set with a current value that can flow to the electric appliance 300 side. Also good.

  When the above-mentioned protective functions are activated and the electric appliance 300 is stopped, while the main switch 310 is kept in the ON state, if the latch is applied so that the electric appliance 300 does not operate, the user does not intend to do so. It is possible to prevent the electric appliance 300 from restarting operation. Further, it is preferable that the start condition has a hysteresis with respect to the stop condition so that it does not stop immediately even if it operates. For example, it is desirable to perform control to stop at 7.5 V and start operation at 8.0 V, or control to stop at 80 ° C. and start operation at 60 ° C.

  Further, not only the temperature of the battery cell but also the temperature in the electric appliance may be detected and stopped when it exceeds a certain value. For example, the thermistor of the power section temperature detection circuit 308 is disposed in the vicinity of the motor 301 so that the temperature of the motor 301 can be detected. When the temperature of the motor 301 is input to the control microcomputer 303 by the power unit temperature detection circuit 308 and the temperature of the motor 301 becomes abnormal, the control microcomputer 303 determines that the stop condition of the electric appliance is satisfied, and the electric appliance 300 May be stopped. At that time, the control microcomputer 303 may be configured to notify that there is an abnormality in the electrical device.

  Any of the battery pack voltage detected by the battery state detection unit 304, the battery cell temperature, and the current value detected by the current detection circuit 315 does not satisfy the activation permission condition of the electric appliance 300, or the stop condition of the electric appliance 300 is satisfied. If the condition is satisfied, the LED 5 may be turned on to notify that the battery pack 400 is in a discharge disabled state.

  Further, when it is determined that the temperature of the motor 301 of the electric appliance 300 is in an abnormal state, the LED 6 may be turned on to notify that the electric appliance 300 is in an undischargeable state. Furthermore, you may comprise LED5 and LED6 by one LED. For example, you may alert | report by changing the abnormality by the side of the electric appliance 300 of LED5, the blink pattern of a battery discharge impossible state, and a lighting color. By setting it as such a structure, it can be set as the structure which alert | reports to a user that either the battery pack 400 or the electric appliance 300 cannot be used.

  In the present embodiment, the notification units LEDs 5 and 6 are disclosed as being provided on the electric appliance 300 side, but may be provided on the battery pack 400 side, or may be provided on an adapter, for example.

  If an abnormal current such as a locked state of the motor 301 occurs and an excessive current flows, the battery pack 400 and the electric appliance 300 may be damaged. Therefore, in order to protect the battery pack 400 and the electric appliance 300, the battery The fuse 320 may be mounted inside the pack 400 or the electric appliance 300. If the fuse 320 is mounted on the electric appliance 300 side as shown in FIG. 22, the battery pack 400 can be used even if the fuse 320 is blown, so it is desirable to mount the fuse 320 on the electric appliance 300 side.

  FIG. 24 shows configurations of a battery pack 450 and an electric appliance 350 which are different from those in FIG. In this configuration, the power supply circuit 461 and the control microcomputer 454 are also configured in the battery pack 450. Further, a voltage monitoring circuit 460, a battery cell temperature detection circuit 456, and a current detection circuit 457 are also configured in the battery pack 450.

  The power supply circuit 461 is used as a power supply for operation of each part in the battery pack 450 such as the control microcomputer 454. The control microcomputer 454 is a microcomputer provided with a CPU, ROM, RAM, I / O, and the like. The voltage monitoring circuit 460 detects the voltages of the cells V1, V2, and V3 and inputs them to the control microcomputer 454. The temperature detection circuit 456 detects the battery cell temperature from the resistance value of the thermistor provided in the vicinity of the battery cell V <b> 1 and inputs it to the control microcomputer 454. The current detection circuit 457 detects an energization current that flows when the electric appliance 350 is operating, and inputs it to the control microcomputer 454. When the remaining capacity switch 455 is turned on, a signal is input to the control microcomputer 454, and the control microcomputer 454 calculates the remaining battery capacity corresponding to the cell voltage and displays it on the remaining capacity display circuit (LED or the like).

  The battery pack 450 is provided with positive and negative power terminal receiving portions 451 and 452 and communication terminal receiving portions 453 and 459, and the communication terminal receiving portions 453 and 459 are connected to the communication terminals 317 and 318 of the electric appliance 350. It is comprised so that. The control microcomputer 454 in the battery pack 450 is configured to be able to receive a signal from the control microcomputer 303 of the electric appliance 350 via the communication terminal receiving part 453 and the communication terminal 317 (hereinafter referred to as connection part C). A signal can be transmitted to the control microcomputer 303 of the electric appliance 350 via the terminal receiving portion 459 and the communication terminal 318 (hereinafter referred to as the connection portion D).

  Similarly to the electric appliance 300, the electric appliance 350 includes positive and negative power supply terminals 312 and 313, communication terminals 317 and 318, a control microcomputer 303, a power supply circuit 302, an energization control switch (FET) 305, a drive circuit 306, and a main switch 310. A strength switch 311 is provided.

  FIG. 25 shows a flowchart of operation control on the electric appliance 350 side performed by the control microcomputer 303, and FIG. 26 shows a flowchart of operation control on the battery pack 450 side performed by the control microcomputer 454. The discharge protection of the battery pack 450 is mainly achieved by the operation control. When a signal for turning on the main switch 310 by the user is input to the control microcomputer 303 (ST21), the control microcomputer 303 first outputs a Hi level signal to the connection C (ST22).

  When a Hi level signal is input from connection C, control microcomputer 454 starts operation control (ST41), and acquires the battery state in ST42. The control microcomputer 454 individually detects the voltages of the battery cells V1, V2, and V3 from the voltage monitoring circuit 460, and detects the temperature of the battery cell from the temperature detection circuit 456. In ST43, control microcomputer 454 determines whether each voltage of battery cells V1, V2, and V3 and the battery cell temperature satisfy the activation permission condition of the device. In addition, since the voltage of a battery cell can be detected individually in the configuration of FIG. 24, the activation condition is determined by whether or not the cell having the lowest voltage among V1 to V3 is 2.7 V or more. The battery cell temperature start permission condition is determined by whether or not the battery cell temperature is 60 ° C. or higher as in the configuration of FIG.

  If the control microcomputer 454 satisfies the activation permission condition, that is, if it is determined that the device can be activated, the control microcomputer 454 outputs the potential of the connection portion D to the low level (ST45). If the activation permission condition is not satisfied, the operation is terminated (ST44).

  When ST22 ends, the control microcomputer 303 proceeds to ST23 and waits for 10 msec, for example. This time is the time until the control microcomputer 454 completes the processing from ST41 to ST45. Then, the process proceeds to ST24, and it is determined whether or not a low level signal is input from the connection portion D. Here, when a low level signal is not input from the connection portion D, the battery pack 450 determines that the activation condition is not satisfied, stops signal output to the connection portion C in ST25, and ends the operation in ST26. To do. When a low level signal is input from the connection portion D, the battery pack 450 determines that the activation condition is satisfied, and drives the electric appliance (motor 301) with a duty ratio corresponding to each (ST28, ST29). .

  The control microcomputer 454 proceeds to ST46 and acquires the battery state. Here, the voltage and the temperature of the battery cell are acquired from the voltage monitoring circuit 460 and the temperature detection circuit 456, and the energization current flowing through the electric appliance is acquired from the current detection circuit 457.

  In ST47, it is determined whether or not the equipment stop condition is satisfied. The stop condition is, for example, that any one of the battery cells V1, V2, and V3 is detected to be 2.5 V or less for 1 second or more, and that the temperature is 80 ° C. or more is detected for 1 second or more. It is set that 80 A or more is detected for 1 second or more. When one of these conditions is detected, the output to the connection part D is stopped in ST48, and the operation is terminated (ST49). If these conditions are not detected, the process proceeds to ST50.

  In ST50, it is determined whether or not a signal from the connection unit C is input. If a signal is input, it is determined that the main switch 310 of the electric appliance is still ON, and the process returns to ST46. When the signal from the connection part C is not input, it judges that the main switch 310 of the electric appliance was turned off, and transfers to ST48 in order to complete | finish operation | movement.

  When the control microcomputer 303 starts driving the device to ST28 and ST29, it determines whether or not the Low level signal from the connection unit D is input in ST30. If the signal is input, it is determined that the battery does not satisfy the device stop condition, and the process proceeds to ST32. It is determined whether or not the main switch 310 is turned off. If the main switch 310 is not turned off, the process returns to ST27 and the same operation is repeated.

  When the signal from the connection part D is not input in ST30, or when the main switch 310 is turned off in ST31, the process proceeds to ST32 to stop the output of the Hi level signal to the connection part C, and in ST33. End the operation.

  In this way, in the configuration as shown in FIG. 24, by communicating the ON state of the main switch 310 at the connection portion C and whether or not the battery may be discharged at the connection portion D (discharge permission information), FIG. Similarly, discharge protection of the battery can be performed. Since voltage, temperature management, and current management of the battery cells V1, V2, and V3 are performed on the battery pack 450 side, the battery pack 450 can be protected even when used for an electric appliance that does not have such a function. Since the voltages of the battery cells V1, V2, and V3 are individually monitored, highly accurate voltage monitoring control is performed, and control is performed according to any of the battery cells V1, V2, and V3 having the lowest voltage. As a result, the life of the battery pack 450 can be extended. Since battery discharge protection is performed by the control microcomputer 454 mounted on the battery side, the set value can be set in accordance with the cell. For example, even when a battery cell with good performance or an inexpensive cell is used, the set value can be set according to the cell performance, so that the life can be extended.

  In this embodiment, the control microcomputers 303 and 454 communicate with each other by setting the connection portions C and D to the Hi level or the Low level. However, the present invention is not limited to this, and another communication method may be performed. For example, the control microcomputers 303 and 454 may perform digital communication so that the battery cell voltage, temperature, energization current value, and the like are transmitted and received as digital data.

  Moreover, although the connection part C is configured to transmit and receive the state of the main switch, the connection part C may be omitted. In this case, the control microcomputer 454 may be configured to always output a low level signal from the connection portion D as long as the battery pack 450 can be activated. The connection unit D is configured to transmit a signal when in a discharge-permitted state, but may transmit a signal when in a discharge-inhibited state.

  If the control microcomputer 303 determines that the battery pack 450 does not satisfy the start permission condition or satisfies the device stop condition, the control microcomputer 303 turns on the LED 5 to notify the user that the battery is in an undischargeable state. Good. Further, although not shown, when the abnormal temperature of the motor 301 is detected as in the configuration of FIG. 22 and it is detected that the electric appliance is in a discharge disabled state, the LED 5 may blink or the LED 6 may be turned on. .

  If the control microcomputer 454 determines that the battery pack 450 does not satisfy the start permission condition or satisfies the device stop condition when the remaining capacity switch 455 is pressed, the remaining capacity display circuit 458 is set to the normal remaining capacity. A display different from the display pattern may be displayed. For example, by blinking the LED, it can be notified that the battery pack 450 is unusable.

  The energization control switch 305 and the drive circuit 306 may be configured to be mounted on the battery pack 450 side in addition to the configuration mounted on the electric appliance 350 side. In that case, the control microcomputer 454 may be configured to control the drive circuit 306.

  FIG. 27 shows a control state when the battery pack 400 is set in the charger 500 and charged. In FIG. 27, the remaining capacity switch 409 of the battery pack 400 is omitted. In the charger 500, an AC power source 501 such as commercial 100V is converted into a direct current by the input rectifier circuit 502, and this direct current is converted into a predetermined current value or voltage value by the SW power source circuit 503. The charger 500 is provided with connection terminals 504 and 505 for positive and negative power supplies, and communication terminals 506, 507, and 508. With the battery pack 400 attached, the power connection terminals 504 and 505 are connected to the power terminal receiving portions 401 and 402 of the battery pack 400. Communication terminals 506, 507, and 508 are connected to communication terminal receiving portions 403, 404, and 405 of battery pack 400, respectively. The V3 voltage detection circuit 510 is connected to the positive connection terminal 504, the V2 voltage detection circuit 511 is connected to the communication terminal 507, and the V1 voltage detection circuit 512 is connected to the communication terminal 506. A temperature detection circuit 513 is connected to the communication terminal 508.

  The voltage information of each cell detected by the V1 to V3 voltage detection circuits 512, 511, and 510 and the temperature information of the cell detected by the temperature detection circuit 513 are input to the control circuit 515. In the control circuit 515, the charging current and the charging voltage are appropriately controlled by controlling the SW power supply circuit 503 in accordance with the detected battery state.

  Since the batteries used for the electric appliances 300 and 350 and the electric tool are devised so that a large amount of electric power can be taken out, the current value during charging can be increased. For this reason, rapid charging can be performed in a short time of about 1 hour or 30 minutes. Therefore, by charging the spare battery while operating the electric appliances 300 and 350 and the electric tool, the electric appliances 300 and 350 and the electric tool can be charged for a long time without interruption for charging. It can be operated continuously.

DESCRIPTION OF SYMBOLS 1 ... Battery pack 2 ... Battery pack 5 ... Electric tool 10 ... Bus polisher (electric appliance)
11 ... Rotating brush (rotating body)
16 ... Battery mounting part 20 ... Shoe brush (electric appliance)
20m ・ ・ Multi brush (Electric appliance)
22 ... Battery mounting part 23 ... Grip part 26 ... Rotating brush part (rotating body)
29 ... Rotating brush (rotating body)
30 ... Knife sharpener (electric appliance)
40 ... Tillage machine (electric appliance)
41 ... rotor blade (rotating body)
50 ... Hand mixer (electric appliance)
54 ... Stirring section (rotating body)
60 ... Stick blender (electric appliance)
60m ・ Brenda (Electric appliance)
63 ... Grip part 70 ... Rice mill (electric appliance)
80 ... Dishwasher (electric appliance)
90 ... Hair loss suction device 92 ... Grip part 94 ... Rotor (rotating body)
100 ·· Corkscrew 103 · · Screw part (rotating body)
105 .. Grip part 110 .. Electric can opener (electric appliance)
115 .. Feed gear (rotating body)
120 .. Electric peeler (electric appliance)
121h ・ Rotating seat (Rotating body)
125 ・ ・ Positioning shaft (rotating body)
126 .. Peeling blade (rotary body)
300,350 ... Electric appliances 400,450 ... Battery pack 500 ... Charger

Claims (25)

A motor for rotating the rotating body;
A battery mounting portion for mounting a battery as a power source for supplying power to the motor;
An electric appliance that transmits the rotational force of the rotating body directly or indirectly to an object to change the state of the object. It is an electric appliance of Claim 1, Comprising: The electric appliance which changes the state of the surface of the said target object by rotating the said rotary body and making it contact the surface of the said target object. 2. The electric appliance according to claim 1, wherein the shape of the object is changed by rotating the rotating body and bringing it into contact with the object. 2. The electric appliance according to claim 1, wherein the surface state of the object is changed using a water flow generated by the rotation of the rotating body. 2. The electric appliance according to claim 1, wherein the state of the object is changed using an air flow generated by the rotation of the rotating body. 2. The electric appliance according to claim 1, wherein the rotational force of the rotating body is converted into a linear motion by the action of a screw and transmitted to the object to change the state of the object. It is an electric appliance of Claim 1, Comprising: The electric appliance which rotates a target object and a cutting blade relatively with the said rotary body, and changes the state of the said target object. The electric appliance according to any one of claims 1 to 7, wherein a battery pack for a power tool that can be charged as the battery can be attached. 9. The electric appliance according to claim 8, wherein a lithium ion battery in which a plurality of cells are housed in a battery case is attached as the battery. 10. The electric appliance according to claim 8 or 9, wherein a box-type battery can be slid and attached to the battery attachment portion. 11. The electric appliance according to claim 10, further comprising a pair of guide rail portions for sliding and engaging the battery with the battery mounting portion. 10. The electric appliance according to claim 8, wherein a long bar-shaped battery is inserted into and attached to the battery mounting portion. 11. 13. The electric appliance according to claim 12, further comprising a mounting recess for inserting the battery, and a connection terminal for electrically connecting the battery to the bottom of the mounting recess. The electric appliance according to any one of claims 1 to 13, further comprising a grip portion that is gripped by a user during use, and the grip portion including the battery mounting portion. It is an electric appliance in any one of Claims 1-13, Comprising: The electric appliance provided with the base part for installing and using, and having the said battery attachment part in the said base part. The electric appliance according to any one of claims 1 to 15, wherein a lithium-ion battery having a nominal voltage of 10.8V is attachable as the battery. The electric appliance according to any one of claims 1 to 16, comprising a controller for controlling the motor, and communication for transmitting and receiving information between the controller and the battery to the battery mounting portion. An electrical appliance with a terminal. The electric appliance according to claim 17, wherein the electric appliance is configured to control power supply to the motor based on information on the battery. 19. The electric appliance according to claim 18, wherein the electric appliance is configured to control power supply to the motor based on temperature information of the battery. The electric appliance according to claim 18, wherein the electric appliance is configured to stop power supply to the motor based on non-dischargeable information of the battery. The electric appliance according to claim 18, wherein the electric appliance is configured to control power supply based on information related to a state of the electric appliance. The battery which can be attached to the battery attachment part of the electric appliance in any one of Claims 1-21, Comprising: The battery provided with the remaining capacity display part. The electric appliance according to any one of claims 1 to 21, further comprising a notification unit that notifies a state of the battery or the electric appliance. 24. The electric appliance according to claim 23, wherein the notification unit is provided on the electric appliance side. An electrical appliance provided with a mounting portion for detachably mounting a battery as a power source for supplying power in a household electrical appliance.

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