JP6515727B2 - Electric vacuum cleaner - Google Patents

Description

  The present invention relates to a vacuum cleaner.

  The vacuum cleaner sucks air containing dust from the surface to be cleaned by the suction air generated by the electric blower housed in the main body, and is separated into dust and air in the dust collection unit, and dust is accumulated in the dust collection unit The air from which dust is removed is discharged outside the main body, but conventionally, the air that has been discharged is used to stay in a corner of a room that is difficult to clean with a suction tool, a corner of a rail of a window frame, etc. There is known a vacuum cleaner having a blowing function to blow away dust and the like (see, for example, Patent Document 1).

JP, 2011-250972, A (page 5, FIG. 7)

  The electric vacuum cleaner of patent document 1 removes the hose connection pipe inserted in the air suction side of a main body from the air suction side of a main body, inserts a hose connection pipe in the air discharge side of a main body, and Exhaust air is discharged from the hose connection pipe to provide a blowing function.

However, in the vacuum cleaner described in Patent Document 1, there is no disclosure at all about how to drive the electric blower that generates the wind for blowing when using the blower function, and the exhaust of the vacuum cleaner is not There is a problem that the practicality is poor to use as a blowing function.

  In order to solve the problems, the present invention allows the user to easily connect and disconnect the drive of the electric blower by the operation part of the hose body even if the user connects the hose body to either the suction or discharge side connection port of air. Aims to provide a vacuum cleaner that can

A vacuum cleaner according to the present invention for solving the problem has a main body provided with an electric blower for generating suction air for sucking dust, and an operation unit provided with an on / off switch for performing operation input / output of drive of the electric blower. A hose is provided with a suction tool for sucking dust at one end, and a hose body provided with a connecting part detachably connected to the main body at the other end, and is provided on the main body, supplies power to the electric blower and controls driving. A first hose body connection port for connecting the connection portion of the hose body on the suction side of the suction air generated by the electric blower, the control substrate including the control means for controlling the electric motor; The second hose body connection port for connecting the connection portion of the hose body is provided on the discharge side of the suction air generated by the blower, and the control means is such that the connection portion of the hose body is the first hose body connection port or the second To any of the hose body connection port Be continued, it is possible to control the switching on and off of the driving of the electric blower by the operation input of the switch turning on and off. In addition, the suction tool for the hose body has a motor for rotating brush for driving the rotary brush to remove dust on the surface to be cleaned, and when the connection portion of the hose body is connected to the first hose body connection port, When the electric power can be supplied to the rotating brush motor and the connection portion of the hose body is connected to the second hose body connection port, the electric power can not be supplied to the rotating brush electric motor.

  According to the present invention, the first hose body connection port for connecting the hose body is provided on the suction side of the suction air of the main body, and the second hose body connection port for connecting the hose body is provided on the discharge side of the suction air. Since the control means can control the turning on and off of the drive of the electric blower by the operation input of the turning on and off switch even if the hose body is connected to either the first hose body connection port or the second hose body connection port, When the exhaust air for cleaning is used as the air blowing function, the electric blower can be driven and operated by the operation input of the on / off switch in the same sense of use as when using a vacuum cleaner normally. Therefore, it is possible to obtain an air-blowing function that is easy to use without the user being confused.

It is a perspective view which shows schematic structure of the vacuum cleaner which concerns on Embodiment 1 of this invention. It is a side view of the main part of the vacuum cleaner concerning Embodiment 1 of the present invention. It is sectional drawing which cut | disconnected the center of the main body of the vacuum cleaner which concerns on Embodiment 1 of this invention in the front-back direction, and was seen from the side. It is sectional drawing which cut | disconnected the main body of the vacuum cleaner which concerns on Embodiment 1 of this invention by cross-sectional AA shown in FIG. It is the elements on larger scale of the operation part of the vacuum cleaner which concerns on Embodiment 1 of this invention. (A) The figure which looked at the suction tool from the surface side which opposes the to-be-cleaned surface which is a floor surface, (b) It is the perspective view of the state which removed the upper cover of the suction tool. It is a perspective view which shows the state which pulled the dust collection unit a little from the main body of the vacuum cleaner which concerns on Embodiment 1 of this invention. (A) A perspective view showing the dust collection unit of the electric vacuum cleaner according to the first embodiment of the present invention, (b) The dust collection chamber is removed from the dust collection unit of the electric vacuum cleaner according to the first embodiment of the present invention It is a perspective view which shows a state. (A) A partial detailed view of the hose body connection portion of the vacuum cleaner according to the first embodiment of the present invention as viewed from the side of the locking hook; (b) the vacuum cleaner according to the first embodiment of the present invention Partial detail view seen from the side when the hook for locking is at the upper side of the hose body connecting portion, (c) The side connecting the hose body connecting portion of the electric vacuum cleaner according to the first embodiment of the present invention with the main body It is the figure seen from. It is the figure which looked at the hose body connection port (1st hose body connection port) of the front side from the B direction shown in FIG. 2 of the main body of the vacuum cleaner which concerns on Embodiment 1 of this invention. Connect the hose body connection part to the hose body connection port (first hose body connection port) on the front side of the vacuum cleaner main body according to Embodiment 1 of the present invention, and cut and lock at the hook for locking It is the enlarged view seen from the side which shows the hook vicinity. It is a schematic cross section which shows an example of the connection (connection) state of a 3rd connection terminal and a 3rd connection terminal receptacle. (A) A view of the main body of the vacuum cleaner according to the first embodiment of the present invention as viewed from the rear side. (B) A hose member on the rear side with the cover member (vent cover) opened in FIG. It is the figure which looked at the connection port (2nd hose body connection port). (A) A perspective view showing a state slightly before connecting the hose body connection portion to the rear hose body connection port (second hose body connection port) of the vacuum cleaner main body according to Embodiment 1 of the present invention; (B) It is a perspective view which shows the state which connected the hose body connection part to the rear hose body connection port (2nd hose body connection port) of the vacuum cleaner main body which concerns on Embodiment 1 of this invention. The external appearance isometric view which shows the state in which the hose body connection part was connected to the rear hose body connection port (2nd hose body connection port) of the vacuum cleaner main body which concerns on Embodiment 1 of this invention, and a hose body was attached. FIG. A hose body connection portion is connected to the rear hose body connection port (second hose body connection port) of the vacuum cleaner main body according to the first embodiment of the present invention, and cut from the side where the detection means can be seen FIG. Is an enlarged view showing the detecting means surrounding FIG. The hose body connection portion is connected to the rear hose body connection port (second hose body connection port) of the vacuum cleaner main body according to the first embodiment of the present invention, and cut at the location of the locking hook It is an enlarged view which shows the stop hook periphery. It is a flowchart of operation | movement of the vacuum cleaner which concerns on Embodiment 1 of this invention. It is a flowchart of operation | movement of the vacuum cleaner which concerns on Embodiment 2 of this invention.

Embodiment 1
(Configuration of vacuum cleaner)
FIG. 1 is a perspective view showing a schematic configuration of a vacuum cleaner according to a first embodiment of the present invention, FIG. 2 is a side view of a main body of the vacuum cleaner according to the first embodiment of the present invention, and FIG. 4 is a cross-sectional view of the center of the main body of the vacuum cleaner according to Embodiment 1 cut in the front-rear direction and viewed from the side; FIG. 4 is a cross section showing the main body of the vacuum cleaner according to Embodiment 1 of the present invention; Sectional drawing cut | disconnected by AA, FIG. 5 is the elements on larger scale of the operation part of the vacuum cleaner which concerns on Embodiment 1 of this invention, FIG. 6 (a) opposes the to-be-cleaned surface which is a floor. 6 (b) is a perspective view of a state in which the upper cover of the suction tool is removed, and FIG. 7 is a view from the main body of the vacuum cleaner according to the first embodiment of the present invention. FIG. 8A is a perspective view showing a dust collection unit of the electric vacuum cleaner according to the first embodiment of the present invention, FIG. b) is a perspective view showing a state where the dust collection unit of the electric vacuum cleaner removing the dust collecting chamber according to the first embodiment of the present invention.
Hereinafter, the structure of the vacuum cleaner which concerns on Embodiment 1 of this invention with reference to FIGS. 1-8 is demonstrated.
In each of the drawings, the same or corresponding parts are denoted by the same reference numerals, and a part of the description may be omitted.

  As shown in FIG. 1, 100 is a vacuum cleaner concerning Embodiment 1 of the present invention, and suction tool 1, extension tube 2, grasping part 3 provided with operation part 4, connecting part 5a, and flexibility It comprises a hose body 5 consisting of a flexible flexible tube 5b and a dust collection unit 8 housed in the electric vacuum cleaner main body 6.

As shown in FIG. 6 (b), the suction tool 1 is composed of an upper case 1b and a lower case 1c of hard resin parts whose outer shell is formed by injection molding, and suction air generated by driving the electric blower 23 described later. Thus, for example, the dust on the surface to be cleaned, which is a floor surface, is sucked together with the air.

As shown in FIG. 6 (a), an opening 1a is provided in the lower case 1c on the surface side of the suction device 1 opposite to the surface to be cleaned which is the floor surface, and from the opening 1a in the suction device 1 The rotating brush 41 partially protruded is rotatably accommodated.

Rotary brush 41 is rotated so as to write up the dust from the surface to be cleaned, the driving force of the rotation is shown in FIG. 6 (b), the rotational force of the rotary brush electric motor 42 housed in the suction device 1, It is transmitted via the drive belt 43.

  Similar to the suction device 1, the extension tube 2 is also formed of a hard resin component formed by injection molding on the outer shell, has an expansion / contraction structure not shown, one end is connected to the suction device 1, and the other end is a grip portion It is connected with 3 and constitutes a part of a suction air flow path.

  Although the grip 3 is also composed of a hard resin component formed by injection molding of the outer shell, a soft resin component is used at a part of the portion gripped by the user so that the user can easily grip it. It is also good. As shown in FIGS. 1 and 5, the grip 3 has an on / off switch 4a for activating or stopping the electric blower 23 and an output variable switch for strengthening or weakening the driving force of the electric blower 23. An operation unit 4 having a rotary brush drive switch 4c is provided.

  A part of the grip 3 also constitutes a part of the air path of the suction air, and the other end on the side to which the extension pipe 2 is connected is connected to the flexible flexible pipe 5 b of the hose body 5. The flexible flexible tube 5b is formed of a hollow, bellows-like flexible resin component having flexibility.

  The outer shell of the electric vacuum cleaner main body 6 is made of a resin component formed by injection molding. The electric vacuum cleaner main body 6 is provided with a handle 9 used when carrying the electric vacuum cleaner main body 6. The handle 9 is also formed of a resin component formed by injection molding.

Further, on the front side of the electric vacuum cleaner main body 6, as shown in FIG. 2, a dust collection unit housing portion 6a for housing the dust collection unit 8 is provided. A first hose body connection port 7 is provided in the dust collection unit housing portion 6a, and a connection portion 5a provided at the other end of the hose body 5 whose one end is connected to the grip portion 3 is connected to the first hose body The hose body 5 is connected to the electric vacuum cleaner main body 6 by being inserted into the mouth 7.

  When the user cleans, the front surface 10 of the caster type that can change the traveling direction on the lower surface of the electric vacuum cleaner main body 6 to facilitate handling of the electric vacuum cleaner main body 6 on the surface to be cleaned Rear wheels 11 with a large diameter are provided on both side surfaces of the main body 6.

  As shown in FIG. 2, the dust collection unit 8 is inclined relative to the surface to be cleaned, and is housed and attached to the dust collection unit housing portion 6 a. In the dust collection unit 8, a locking portion (not shown) provided on the dust collection unit 8 side is locked and fixed to an engagement portion (not shown) provided on the electric vacuum cleaner main body 6 side. The locking portion is biased to lock by a biasing means (not shown).

The dust collection unit 8 operates a locking release button 38 provided on the top of the dust collection unit 8 so that a not-shown locking part provided on the dust collection unit 8 side is on the electric cleaner body 6 side. It comes off from the provided engaging part (not shown) and becomes removable.

When the hand (finger) is put on the handle (finger hook) portion 8a provided in the dust collection unit 8 from that state and pulled out in the direction of the arrow C shown in FIG. 2, as shown in FIG. It removes from the dust collection unit accommodating part 6a. The configuration of the dust collection unit 8 will be described later.

  As shown in FIG. 3 and FIG. 4, the electric blower 23 is provided in the rear of the electric vacuum cleaner main body 6. As described above, the electric blower 23 generates a suction air for suctioning air containing dust from the suction tool 1.

  A control board 24 is provided on the side of the electric blower 23 near the rear in the electric vacuum cleaner main body 6. The control means included in the microcomputer (not shown) mounted on the control board 24 activates the electric blower 23 or stops the driving of the electric blower 23 by operating the on / off switch 4a provided on the operation unit 4. Thus, the operation of the electric blower 23 can be controlled.

  A cord reel 22 is provided on the opposite side of the control board 24 to hold the electric blower 23 and to wind and hold the power cord 21. The power cord 21 is pulled out of the main body by holding and pulling out the power plug 12 shown in FIG.

The cord reel 22 is biased in the winding direction by biasing means (not shown), but has a clutch mechanism (not shown) so that the power cord 21 stops at the pulled out position. The drawn power supply cord 21 is released from the clutch mechanism of the cord reel 22 by operating the power supply cord take-up button 13 shown in FIG. 2, and is wound and held by the biasing force of the cord reel 22 in the winding direction. .

(Configuration of dust collection unit)
As shown in FIG. 8 , the dust collection unit 8 is a cyclone type dust collection unit including a separable swinging portion 33 provided with a lid 8 c, a dust collection unit upper portion 8 b, and a dust collection chamber 32. A seal packing 39 is attached to the lid 8 c of the dust collection unit 8, and the dust collection chamber 32 is closed by inserting the seal packing 39 into the upper opening of the dust collection chamber 32.

  In this state, the lid 8 c is locked and fixed by the locking portion 32 a provided in the dust collection chamber 32. The locking portion 32a is in the form of a lever and is pivotally supported by a pivot shaft (not shown), and is pivoted in the locking direction by biasing means urging it in the locking direction (not shown) and hooked on the lid 8c. The dust collecting chamber 32 is fixed to 8b. When the locking portion 32 a is pivoted against the biasing means, the locked state is released, and the dust collection unit upper portion 8 b can be removed from the dust collection chamber 32.

  The dust collection unit upper portion 8b is provided with a dust collection unit suction port 31 which communicates with the communication port 7a of the first hose body connection port 7 shown in FIG. 3 and allows air to be ventilated. A dust collection unit discharge port 37 communicating with the main body suction port 25 shown in FIG. 3 and capable of ventilating air is provided.

  A dust discharge port a34 for discharging the dust that has been suctioned together with the air and separated by the turning portion 33 into the dust collection chamber 32 is provided on the outer wall of the turning portion. The dust discharge port b34 provided at the lower end of the turning portion 33 which is in the shape of an inverted cone has a relatively large dust discharged from the dust discharge port a34 and not discharged from the dust discharge port a34. The dust is discharged into the dust collection chamber 32 from FIG.

  As shown in FIG. 3, an exhaust cylinder 36 provided with a plurality of small holes is provided at the center of the upper portion of the turning portion 33. The air from which the dust has been separated passes through the plurality of small holes and is drawn to the side of the electric vacuum cleaner body 6 from the dust collection unit discharge port 37.

  The dust collection unit suction port 31 is provided substantially at the center of the dust collection unit 8 in the left-right direction. Since the dust collection unit 8 is a cyclone type dust collection unit that swirls air containing dust to centrifugally separate dust and air, an inner wall of the dust collection unit suction port 31 is provided in order to maximize the swirling performance. It is arrange | positioned so that one part and one part of the inner walls of the turning part 33 may become tangent.

Therefore, the center of the turning portion 33 is shifted leftward when viewed from the front side (the dust collection unit suction port 31 side). When the turning direction of the turning portion 33 is counterclockwise, it is shifted to the left, but when the turning direction of the turning portion 33 is clockwise, it is shifted to the right. Since any of the turning directions can be set, the center of the turning portion 33 is set to be shifted to the left or right.

A part of the swirling portion 33 is accommodated in the dust collection chamber 32, but since the center of the swirling portion 33 is shifted to the left, a space 32b is formed on the right side in the dust collection chamber 32. Dust is mainly collected in the space 32b.

  The dust collecting chamber 32 is a resin part formed by injection molding and has a cup shape at the bottom, and is made of a transparent or semi-transparent resin that can transmit visible light in order to make the collected dust visible. There is.

(Flow of suction air, body operation)
Here, the flow and operation of air will be described using FIGS. 1, 3 and 5. Although the description here is the state in which the hose body 5 is connected to the front side of the main body 6 and the first hose body connection port 7, the hose body 5 is omitted from FIG. 3 for convenience. I will mention.

  When the on / off switch 4a of the operation unit 4 provided in the grip unit 3 is operated, the electric blower 23 is driven to generate suction air. When the suction wind sucks the dust on the surface to be cleaned together with the air from the opening 1a on the side opposite to the surface to be cleaned of the suction tool 1, the air containing the dust is the extension pipe 2 and the grip 3 A part of the dust collection unit 8 is sucked into the dust collection unit 8 from the dust collection unit suction port 31 communicated with the communication port 7 a via the hose body 5.

  The air containing the dust sucked into the dust collection unit 8 is swirled downward from above while centrifugally separating the dust at the swirling portion 33. In the process, relatively large dust is discharged into the dust collection chamber 32 from the dust discharge port a34, and it is further turned toward the lower end of the turning portion 33 which is in the shape of an inverted cone to discharge small fine dust. The gas is discharged into the dust collection chamber 32 from b35.

The air from which dust has been separated ascends in the swirling portion 33, passes through a plurality of small holes provided in the exhaust cylinder 36, is sucked from the dust collection unit discharge port 37 into the main body suction port 25, and the electric cleaner body 6 side Sucked into

  Since the air drawn into the electric vacuum cleaner main body 6 may contain fine dust that could not be separated by the dust collection unit 8, the fine dust does not cause the electric blower 23 to fail. Before being sucked by the electric blower 23, the intake side filter 26 is passed to collect fine dust. The intake side filter 26 is constituted by a HEPA filter, which is a filter with high dust collection efficiency.

  After passing through the intake side filter 26 and being sucked by the electric blower 23, the air discharged from the electric blower 23 further passes through the exhaust side filter 27 before being discharged out of the electric vacuum cleaner main body 6.

The exhaust side filter 27 is constituted by a ULPA filter, which is a filter having a higher dust collection efficiency than the HEPA filter. This is to further clean the air discharged to the outside of the electric vacuum cleaner main body 6.

  The air that has passed through the exhaust side filter 27 passes near the bottom surface of the electric vacuum cleaner main body 6 and the like, passes through the main body exhaust port 28, and further covers the main body exhaust port 28. The air passes through the vent holes 71a (see FIG. 11a) and is discharged out of the electric vacuum cleaner main body 6.

(Connection of hose body and electric vacuum cleaner main body)
From here, the connection between the connection portion 5a of the hose body 5 and the vacuum cleaner main body 6 will be described with reference to FIGS.

  Fig.9 (a) is the detail drawing which looked at the hose body connection part of the vacuum cleaner concerning Embodiment 1 of this invention from the side of the hook for latching, FIG.9 (b) is Embodiment 1 of this invention FIG. 9 (c) is a hose of the vacuum cleaner according to the first embodiment of the present invention, viewed from the side when the hook for locking is on the upper side, and FIG. FIG. 10 is a front view of the hose body connection port from the direction B shown in FIG. 2 of the main body of the vacuum cleaner according to Embodiment 1 of the present invention, viewed from the side where the body connection portion communicates with the main body. 11 is a view of the hose body connection port), and FIG. 11 is a diagram showing the hose body connection portion connected to the front hose body connection port (first hose body connection port) of the vacuum cleaner main body according to the first embodiment of the present invention. Cut at the location of the locking hook and viewed from the side showing the periphery of the locking hook, and FIG. 12 shows the third connection terminal in contact with the third connection terminal. FIG. 13A is a schematic cross-sectional view showing an example of the connection (connection) state of the terminal holder, FIG. 13A is a view of the main body of the vacuum cleaner according to Embodiment 1 of the present invention from the rear side The figure which looked at the hose body connection port (2nd hose body connection port) by opening a cover member (exhaust port cover) in FIG. 13 (a), and FIG. 14 (a) is embodiment of this invention. 14 is a perspective view showing a state slightly before connecting a hose body connection portion to a rear hose body connection port (second hose body connection port) of the vacuum cleaner main body according to 1; FIG. FIG. 15 is a perspective view showing a state where a hose body connection portion is connected to the rear hose body connection port (second hose body connection port) of the vacuum cleaner main body according to the first embodiment, FIG. 15 is an embodiment of the present invention. Connect the hose body connection part to the rear hose body connection port (second hose body connection port) of the vacuum cleaner main body pertaining to 1. FIG. 16 is a hose body at the rear hose body connection port (second hose body connection port) of the vacuum cleaner main body according to the first embodiment of the present invention. 17 is a cross-sectional view seen from the side, in which the connection portion is connected and cut at a portion where the detection means can be seen, FIG. 17 is an enlarged view showing the periphery of the detection means of FIG. FIG. 10 is an enlarged view showing the periphery of a locking hook, which is obtained by connecting a hose body connection portion to a rear hose body connection port (second hose body connection port) of the machine body and cutting it at a locking hook.

  As shown in FIG. 10, a first hose body connection port 7 is provided in the dust collection unit housing portion 6a on the front side of the vacuum cleaner main body 6. A communication port 7 a communicating with the dust collection unit suction port 31 of the dust collection unit 8 is provided on the back side of the first hose body connection port 7.

  As shown in FIG. 9, the connection hook 5 of the hose body 5 is provided with a locking hook 61 for securely connecting when the connection port 5a is connected to the first hose body connection port 7. As shown in FIG. As shown in FIG. 11, when the connection portion 5 a is connected to the first hose body connection port 7, the locking hook 61 engages with the engagement portion 7 e provided in the first hose body connection port 7. doing.

  The locking hook 61 is biased by a biasing means 63 such as a spring in a direction to engage with the engaging portion 7e. When removing the connection portion 5a from the first hose body connection port 7, when the locking release button 62 is pushed against the biasing force of the biasing means 63, engagement between the locking hook 61 and the engaging portion 7e Since the connection is broken, the connecting portion 5a is pulled out in the direction of the arrow D.

Further, as shown in FIG. 10, the first connection terminal insertion hole 7b, the second connection terminal insertion hole 7c, and the third connection terminal insertion hole 7c are provided at positions below the communication port 7a of the first hose body connection port 7. A connection terminal insertion hole 7d is provided.

Then, as shown in FIG. 9, the first connection terminal 51, the second connection terminal 52, and the third connection are electrically connected to the connection portion 5a of the hose body 5 with the vacuum cleaner main body 6. A terminal 53 is provided.

  When the connection portion 5a is connected to the first hose body connection port 7, the first connection terminal 51 is in the first connection terminal insertion hole 7b, and the second connection terminal 52 is in the second connection terminal insertion hole 7c. The third connection terminals 53 are respectively inserted into the third connection terminal insertion holes 7d.

  The state in which the third connection terminal 53 is inserted into the third connection terminal insertion hole 7d will be described in detail with reference to FIG. When the third connection terminal 53 is inserted into the third connection terminal insertion hole 7d, it is connected to the third connection terminal receiver 7f provided at the back of the third connection terminal insertion hole 7d.

  The third connection terminal receptacle 7f has a structure in which the third connection terminal 53 is press-fit and held, and the third connection terminal 53 can be inserted and removed. Although not shown, when the first connection terminal 51 is similarly inserted into the first connection terminal insertion hole 7b, it is connected to the first connection terminal receiver provided at the back of the first connection terminal insertion hole 7b. When the second connection terminal 52 is inserted into the second connection terminal insertion hole 7c, it is connected to the second connection terminal receiver provided at the back of the second connection terminal insertion hole 7c.

  Similarly to the third connection terminal receptacle 7f, the first connection terminal receptacle and the second connection terminal receptacle are also structured to press-fit and hold the first connection terminal 51 and the second connection terminal 52, respectively. It is possible to insert and remove.

  The first connection terminal receiver is connected to the signal wiring of the control board 24 by a connection line (not shown). The signal wiring is normally at the same level as the voltage for operating the microcomputer, and is, for example, a 5 V conductive wiring.

  The first connection terminal 51 is connected to the on / off switch 4a of the operation unit 4, the output variable switch 4b, and the rotary brush drive switch 4c, and when the first connection terminal 51 is connected to the first connection terminal receiver, The on / off switch 4a, the output variable switch 4b, and the rotary brush drive switch 4c are connected to the signal wiring (first signal wiring) of the control board 24.

The second connection terminal receiver is connected to the reference potential wiring of the control board 24 by a connection line (not shown). The reference potential is usually 0 V, and the reference potential wiring is a common wiring with the signal wiring and the power wiring.

  The second connection terminal 52 is connected to the on / off switch 4a of the operation unit 4, the output variable switch 4b, and the rotary brush drive switch 4c, and when the second connection terminal 52 is connected to the second connection terminal receiver, The on / off switch 4a, the output variable switch 4b, and the rotary brush drive switch 4c are connected to the reference potential wiring (first reference potential wiring) of the control board 24.

  When the first connection terminal 51 is connected to the first connection terminal receiver and the second connection terminal 52 is connected to the second connection terminal receiver, the electric blower 23 can be turned on and off by the on / off switch 4a, and the output variable The output of the electric blower 23 can be varied by the switch 4b.

  The third connection terminal receiver is connected to the power wiring of the control board 24 by a connection line (not shown). In the vacuum cleaner 100 according to the embodiment of the present invention, since the commercial power source 100V is used, the power wiring is a 100V line.

  The third connection terminal 53 is connected to the rotary brush motor 42 for driving the rotary brush 41 housed in the suction tool 1 via the rotary brush drive switch 4c of the operation unit 4, and the third connection terminal When 53 is connected to the third connection terminal receiver 7f, the power supply wiring of the control substrate 24 to which the rotary brush motor 42 can receive power supply is connected.

  When the second connection terminal 52 is connected to the second connection terminal receiver and the third connection terminal 53 is connected to the third connection terminal receiver 7f, the rotary brush drive switch 4c operates the rotary brush motor 42. And the rotating brush 41 can be driven.

  Next, as shown in FIG. 13 (b), a second hose body connection port 81 is provided on the rear side of the vacuum cleaner main body 6. Similar to the first hose body connection port 7, the second hose body connection port 81 can be connected to the connection portion 5 a of the hose body 5.

  At the back side of the second hose body connection port 81, a main body exhaust port 28 is provided, through which the air (suction air) sucked by the suction tool 1 is exhausted. The main body exhaust port 28 is covered with a cover member (exhaust port cover) 71 when normal cleaning is performed.

  The cover member (exhaust port cover) 71 is engaged with the electric vacuum cleaner main body 6 at an engagement portion (not shown), and when the cover engagement release lever 72 is pulled upward, the engagement can be released and opened. The cover lock release lever 72 is biased downward (in a direction in which the engagement is not released) by biasing means (not shown) such as a spring. The cover member (exhaust port cover) 71 is a flow that pulls the cover locking release lever 72 upward, and opens upward as shown in FIG.

Further, as shown in FIG. 13 (b), a fourth connection terminal insertion hole 81 a and a fifth connection terminal insertion hole 81 b are provided at positions above the main body exhaust port 28 of the second hose body connection port 81. , And a sixth connection terminal insertion hole 81c.

  When connecting the connection portion 5a of the hose body 5 to the second hose body connection port 81, the connection is made to the first hose body connection port 7 and the state where the direction is rotated 180 degrees, as shown in FIG. As shown, the locking hook 61 and the locking release button 62 face upward, and when inserted as they are, they are connected as shown in FIG. 14 (b).

And the flexible soft tube 5b connected with the holding part 3 provided with the operation part 4 shown in FIG. 15, and the flexible soft tube 5b and the rear side of the vacuum cleaner main body 6 via the connection part 5a It will be in the state connected to 2 hose body connection port 81, and it will be in the state which can use a ventilation function. When the air blowing function is used, the extension pipe 2 and the suction tool 1 are not necessary, so they are removed, and instead, a blow nozzle 82 is attached so as to concentrate air flow (exhaust).

As shown in FIG. 18, the locking hook 61 when the connection unit 5a is connected to a second hose member connecting port 81, the engaging portion 81d and the engagement provided in the second hose member connecting port 81 It is correct.

  Since the locking hook 61 is biased by the biasing means 63 in the direction to engage with the engaging portion 81 d, when the connecting portion 5 a is pulled out of the second hose body connection port 81, the biasing means 63 is used. When the locking release button 62 is pushed against the biasing force of the lock, the engagement between the locking hook 61 and the engaging portion 81 d is released, and the connecting portion 5 a is pulled out in the direction of the arrow E.

  When the connection portion 5a is connected to the second hose body connection port 81, the first connection terminal 51 is in the fourth connection terminal insertion hole 81a, and the second connection terminal 52 is in the fifth connection terminal insertion hole 81b. The third connection terminals 53 are respectively inserted into the sixth connection terminal insertion holes 81c.

  Although not shown, the first connection terminal insertion hole 7b and the second connection terminal insertion hole 7c and the third connection terminal insertion are inserted at the back of the fourth connection terminal insertion hole 81a and the fifth connection terminal insertion hole 81b. Similar to the hole 7d, a connection terminal receiver having a structure for press-fitting and holding the connection terminal is provided.

  A fourth connection terminal receiver is received at the back of the fourth connection terminal insertion hole 81a, and a fifth connection terminal receiver is received at the back of the fifth connection terminal insertion hole 81b, and the first connection terminal 51 is When inserted into the fourth connection terminal insertion hole 81a, it is connected to the fourth connection terminal receiver provided at the back of the fourth connection terminal insertion hole 81a, and the second connection terminal 52 is the fifth connection terminal. When it is inserted into the insertion hole 81b, it is connected to the fifth connection terminal receiver provided at the back of the fifth connection terminal insertion hole 81b.

  Similarly to the first connection terminal receiver of the first hose body connection port 7 and the second connection terminal receiver and the third connection terminal receiver 7f of the fourth connection terminal receiver and the fifth connection terminal receiver, respectively, The first connection terminal 51 and the second connection terminal 52 can be inserted and removed by press-fitting and holding.

  The fourth connection terminal receiver is connected to the signal (5 V) wiring of the control board 24 by a connection line (not shown). As described above, the first connection terminal 51 is connected to the on / off switch 4a, the output variable switch 4b, and the rotary brush drive switch 4c of the operation unit 4, and the first connection terminal 51 is connected to the fourth connection terminal receiver Then, the on / off switch 4a, the output variable switch 4b, and the rotary brush drive switch 4c are connected to the signal wiring (second signal wiring) of the control board 24.

The fifth connection terminal receiver is connected to the reference potential (0 V) wiring of the control substrate 24 by a connection line (not shown). The second connection terminal 52 is connected to the on / off switch 4a of the operation unit 4, the output variable switch 4b, and the rotary brush drive switch 4c, and when the second connection terminal 52 is connected to the fifth connection terminal receiver, The on / off switch 4a, the output variable switch 4b, and the rotary brush drive switch 4c are connected to the reference potential wiring (second reference potential wiring) of the control board 24.

  When the first connection terminal 51 is connected to the fourth connection terminal receiver and the second connection terminal 52 is connected to the fifth connection terminal receiver, the electric blower 23 can be turned on and off by the on / off switch 4a, and the output variable The output of the electric blower 23 can be varied by the switch 4b.

  Although not shown, the fourth connection terminal receptacle and the fifth connection terminal receptacle are disposed in the exhaust air flow path. As described above, after the exhaust air passes through the intake filter 26 and is sucked by the electric blower 23, the exhaust air is discharged from the electric blower 23 and passes through the exhaust filter 27 (see FIG. 16). The fourth connection terminal receptacle and the fifth connection terminal receptacle are disposed downstream thereof.

By arranging in this way, since the fourth connection terminal holder and the fifth connection terminal holder are in the exhaust path from which dust has been removed, dust accumulates on the fourth connection terminal holder and the fifth connection terminal holder. Connection failure is less likely to occur.

  Unlike the other connection terminal insertion holes, no connection terminal receptacle is provided at the back of the sixth connection terminal insertion hole 81c. That is, when the connection portion 5 a of the hose body 5 is connected to the second hose body connection port 81, the third connection terminal 53 is not electrically connected to the control substrate 24.

  The third connection terminal 53 is accommodated in the suction tool 1 via the rotary brush drive switch 4 c of the operation unit 4 when the connection portion 5 a of the hose body 5 is connected to the first hose body connection port 7. A control board which is connected to the rotary brush motor 42 for driving the rotary brush 41 and the rotary brush motor 42 can receive power when the third connection terminal 53 is connected to the third connection terminal receptacle 7f. The 24 power wires and the power supply wires were connected.

However, as shown in FIG. 15, when using the air blowing function by connecting the connection portion 5a of the hose body 5 to the second hose body connection port 81, the suction tool 1 becomes unnecessary, so There is no need to drive the contained rotating brush. Therefore, when the connection portion 5 a of the hose body 5 is connected to the second hose body connection port 81, there is no need to electrically connect the third connection terminal 53 to the control substrate 24, so the sixth connection terminal The connection terminal receptacle electrically connected to the control board 24 is not provided at the back of the insertion hole 81c.

Although the third connection terminal 53 is not electrically connected to the control substrate 24, it is described that the connection terminal receptacle electrically connected to the control substrate 24 is not provided here. A connection terminal receptacle (sixth connection terminal receptacle) which is not connected to may be provided.

  The third connection terminal 53 and the control board 24 are illustrated in place of not being electrically connected to the control board 24 when the connection portion 5 a of the hose body 5 is connected to the second hose body connection port 81. It is detected by the detection means 73 shown in FIG.

  The detection means 73 detects whether or not the connection portion 5a of the hose body 5 is connected to the second hose body connection port 81, and is attached to the back of the sixth connection terminal insertion hole 81c. In the first embodiment of the present invention, the detection means 73 is described as a hinged micro switch, and the third connection terminal 53 is inserted into the sixth connection terminal insertion hole 81 c, and the connection portion of the hose body 5 With the 5a connected to the second hose body connection port 81, the hinge of the micro switch is pushed.

  The micro switch is turned on by pressing the hinge of the micro switch, and the control means contained in the control board 24 detects that the connection portion 5a of the hose body 5 is connected to the second hose body connection port 81. doing.

The third connection terminal 53 is an important terminal for detecting whether or not the detection means 73 is connected when the connection portion 5a of the hose body 5 is connected to the second hose body connection port 81. Therefore, as shown in FIG. 9 (a), it is disposed at the closest position to the hook 61 for locking. As a result, the third connection terminal 53 is reliably held, and stable detection is possible.

The same applies to the case where the connection portion 5a is connected to the first hose body connection port 7, and the third connection terminal 53 connects the connection portion 5a of the hose body 5 to the first hose body connection port 7. When it is in the state, it is connected to the power (100 V) wiring of the control board 24, so that the connection of the third connection terminal 53 to the 100 V power wiring is surely held, and the stable to the rotating brush motor 42 A voltage supply of 100 V is possible.

In the first embodiment of the present invention, whether or not the connection portion 5a of the hose body 5 is connected to the second hose body connection port 81 is detected by the third connection terminal 53 which is not electrically connected. However, it is detected whether or not the connection portion 5a of the hose body 5 is connected to the second hose body connection port 81 according to the state of electrical connection, for example, detection of current, detection of voltage, electric signal It is also possible to detect. In that case, not only the third connection terminal 53 but also any of the first connection terminal 51 and the second connection terminal 52 can be detected.

(Operation when air blowing function)
Next, the operation of the vacuum cleaner according to the first embodiment of the present invention will be described in detail with reference to FIG. FIG. 19 is a flowchart of the operation of the vacuum cleaner according to Embodiment 1 of the present invention.

  First, the connection portion 5a of the hose body 5 is connected to the hose body connection port (ST1). When it is not detected that the detection means 73 is connected in ST2, the control means determines that the connection portion 5a of the hose body 5 is connected to the first hose body connection port 7 (ST3), and the control means is a normal electric cleaning Control is performed to perform an operation as a machine (ST4).

  When the on / off switch 4a is operated and input in ST5, the electric blower 23 starts driving with the output W1 (ST6). The output W1 is the maximum output of the electric blower 23 of the vacuum cleaner of the first embodiment of the present invention.

Next, when the output variable switch 4b is operated (ST7), the control means drives the electric blower 23 with the output W2 lower than the output W1 (ST8). In the embodiment of the present invention, two-stage switching variation of output W1 and output W2 is possible, but multi-stage switching variation of three or more stages may be possible.

  When the connection portion 5a of the hose body 5 is connected to the first hose body connection port 7, the electric power is supplied to the rotary brush motor 42 as described above, so the rotary brush drive switch 4c is operated and input. (ST9) and the rotating brush 41 start driving (ST10).

  When cleaning is completed, when the on / off switch 4a is operated and input (ST11), the control means stops the drive of the electric blower 23 (ST12). When the drive of the electric blower 23 is stopped, no suction air is generated, and therefore, when the rotating brush 41 is driven, the drive is also stopped.

  When detecting that the detection means 73 is connected in ST2, the control means determines that the connection portion 5a of the hose body 5 is connected to the second hose body connection port 81 (ST13), and the control means has an air flow function. Control is performed to perform an operation (ST14).

  When the on / off switch 4a is operated and input in ST15, the electric blower 23 starts driving with the output W3 (ST16). The output W3 is the maximum output of the air blowing function according to the first embodiment of the present invention, but the output setting of W3 is smaller than W1 and W2.

In other words, the maximum output W3 of the air blowing function is set to be lower than the output W2 lower than the maximum outputs W1 and W1 of the electric blower 23 when used as a normal vacuum cleaner 100. This is because when the dust or the like accumulated in the corner or the like is blown away by the air blowing function, the output is too scattered if the output is strong, so the output is reduced so that the dust is not scattered too much.

Next, when the output variable switch 4b is operated (ST17), the control means drives the electric blower 23 with the output W4 lower than the output W3 (ST18). In the embodiment of the present invention, two-stage switching variation of the output W3 and the output W4 is possible, but multi-stage switching variation of three or more stages may be possible.

  When the connection portion 5a of the hose body 5 is connected to the second hose body connection port 81, as described above, the suction tool 1 for housing the rotating brush 41 is not connected, and the electric power to the rotating brush motor 42 Is not supplied, the operation input is not accepted even if the operation input of the rotating brush drive switch 4c is performed (ST19).

  When the use of the air blowing function is finished, when the on / off switch 4a is operated and input (ST20), the control means stops the driving of the electric blower 23 (ST21).

In the first embodiment of the present invention, the maximum output W3 of the electric blower 23 of the air blowing function is smaller than the output W2 lower than the maximum outputs W1 and W1 of the electric blower 23 when used as a normal vacuum cleaner 100. Although the setting is made, dust can be prevented from being scattered too much even if the output is smaller than W1 and larger than W2.

Then, in the first embodiment of the present invention, the connection portion 5a of the hose body 5 is judged by the detection of the third connection terminal 53 by the detection means 73 as to the connection to the second hose body connection port 81. However, it is not limited thereto. For example, the second hose body connection port 81 is covered with the cover member (exhaust port cover) 71, and the connection portion 5a of the hose body 5 can not be connected unless the cover member (vent port cover) 71 is opened.

A cover locking release lever 72 is provided on the cover member (exhaust port cover) 71, and the cover member (vent cover) 71 is not opened unless the cover locking release lever 72 is intentionally operated. .

Therefore, when opening the cover member (exhaust port cover) 71 with intention, it is time to connect the connection portion 5a of the hose body 5 to the second hose body connection port 81, the cover member (exhaust port cover) 71 is A detection means for detecting the opening may be provided, and when the cover member (exhaust port cover) 71 is opened, it may be determined that the connection portion 5a of the hose body 5 is connected to the second hose body connection port 81. .

Since it comprised as mentioned above, even if it connects the connection part 5a of the hose body 5 to any of the 1st hose body connection port 7 and the 2nd hose body connection port 81, an electric blower by the entry switch 4a of the operation part 4 23 can be driven, and when used as a blower function, the same ease of use as when using as the vacuum cleaner 100 can be realized, and a user can provide a convenient blower function with little trouble.

Second Embodiment
(Operation when air blowing function)
The vacuum cleaner according to the second embodiment of the present invention differs from the vacuum cleaner according to the first embodiment of the present invention in the operation at the time of the air blowing function, except for the vacuum cleaner according to the first embodiment of the present invention. Is the same as

Therefore, here, an operation at the time of a blowing function different from that of the vacuum cleaner according to the first embodiment of the present invention will be described with reference to FIG. FIG. 20 is a flowchart of the operation of the vacuum cleaner according to Embodiment 2 of the present invention .

  First, the connection portion 5a of the hose body 5 is connected to the hose body connection port (ST31). When it is not detected that the detection means 73 is connected in ST32, the control means determines that the connection portion 5a of the hose body 5 is connected to the first hose body connection port 7 (ST33), and the control means is a normal electric cleaning Control is performed to perform an operation as a machine (ST34).

  When the on / off switch 4a is operated and input in ST35, the electric blower 23 starts driving with the output W1 (ST36). The output W1 is the maximum output of the electric blower 23 of the vacuum cleaner of the first embodiment of the present invention.

Next, when the output variable switch 4b is operated (ST37), the control means drives the electric blower 23 with the output W2 lower than the output W1 (ST38). In the embodiment of the present invention, two-stage switching variation of output W1 and output W2 is possible, but multi-stage switching variation of three or more stages may be possible.

When the connection portion 5a of the hose body 5 is connected to the first hose body connection port 7, the electric power is supplied to the rotary brush motor 42 as described above, so the rotary brush drive switch 4c is operated and input. (ST 39 ) and the rotating brush 41 start driving (ST 40).

  When cleaning is completed, when the on / off switch 4a is operated and input (ST41), the control means stops the driving of the electric blower 23 (ST42). When the drive of the electric blower 23 is stopped, no suction air is generated, and therefore, when the rotating brush 41 is driven, the drive is also stopped.

  When detecting that the detection means 73 is connected in ST32, the control means determines that the connection portion 5a of the hose body 5 is connected to the second hose body connection port 81 (ST43), and the control means has an air flow function. Control is performed to perform an operation (ST44).

  When the on / off switch 4a is operated and input in ST45, the electric blower 23 starts driving with the output W5 (ST46). The output W5 is the maximum output of the air blowing function according to the first embodiment of the present invention, but the output setting of W5 is larger than W1 and W2.

In other words, the maximum output W5 of the air blowing function is set to be higher than the output W2 lower than the maximum outputs W1 and W1 of the electric blower 23 when used as a normal vacuum cleaner 100. This is to blow away dust and the like with a higher output, when dust and the like accumulated in corner portions and the like are blown away by the air blowing function.

Next, when the output variable switch 4b is operated (ST47), the control means drives the electric blower 23 with the output W6 lower than the output W5 (ST48). In the embodiment of the present invention, two-stage switching variation of the output W5 and the output W6 is possible, but multi-stage switching variation of three or more stages may be possible.

  When the connection portion 5a of the hose body 5 is connected to the second hose body connection port 81, as described above, the suction tool 1 for housing the rotating brush 41 is not connected, and the electric power to the rotating brush motor 42 Is not supplied, the operation input is not accepted even if the operation input of the rotating brush drive switch 4c is performed (ST49).

  When the use of the air blowing function is finished, when the on / off switch 4a is operated and input (ST50), the control means stops the driving of the electric blower 23 (ST51).

Since it was constituted as mentioned above, operation is carried out even if connecting part 5a of hose object 5 is connected to any of the 1st hose body connection mouth 7 and the 2nd hose body connection mouth 81 like Embodiment 1 of the present invention. The electric blower 23 can be driven by the on / off switch 4a of the part 4, and the same ease of use as when using it as the electric vacuum cleaner 100 can be realized even when used as a blower function, and the user has a convenient blower function without confusion. Can be provided.

  DESCRIPTION OF SYMBOLS 1 suction tool, 1a opening, 1b upper case, 1c lower case, 2 extension pipe, 3 holding part, 4 operation part, 4a entry switch, 4b output variable switch, 4c rotating brush drive switch, 5 hose body, 5a connection part, 5b Flexible soft tube, 6 Electric vacuum cleaner main body, 6a Dust collection unit housing, 7 first hose body connection port, 7a communication port, 7b first connection terminal insertion hole, 7c second connection terminal insertion hole , 7d third connection terminal insertion hole, 7e engagement portion, 7f third connection terminal holder, 8 dust collection unit, 8a fingering portion, 8b dust collection unit upper portion, 8c lid portion, 9 handle, 10 front wheel , 11 rear wheel, 12 power plug, 13 power cord take-up button, 21 power cord, 22 cord reel, 23 electric blower, 24 control board, 25 body suction port, DESCRIPTION OF SYMBOLS 6 Air intake side filter, 27 Exhaust side filter, 28 Body exhaust port, 31 Dust collection unit suction port, 32 Dust collection room, 32a Locking part, 32b Space, 33 Swirl part, 34 Dust discharge port a, 35 Dust discharge port b , 36 exhaust cylinder, 37 dust collection unit discharge port, 38 locking release button, 39 seal packing, 41 rotating brush, 42 motor for rotating brush, 43 drive belt, 51 first connection terminal, 52 second connection terminal, 53 third connection terminal, 61 locking hook, 62 locking release button, 63 biasing means, 71 cover member (exhaust port cover), 71a vent, 72 cover locking release lever, 73 detection means, 81 2 hose body connection port, 81a fourth connection terminal insertion hole, 81b fifth connection terminal insertion hole, 81c sixth connection terminal insertion hole, 81d engagement portion 82 blow nozzle, 100 vacuum cleaner.

Claims (18)

A main body provided with an electric blower for generating a suction air for suctioning dust;
It has an operation part provided with an on / off switch for operating and inputting the drive of the electric blower, one end is provided with a suction tool for suctioning dust, and the other end is a connection part detachably connected to the main body With the provided hose body,
A control board provided in the main body and including control means for supplying electric power to the electric blower and controlling driving;
A first hose body connection port for connecting the connection portion of the hose body is provided on the suction side of suction air generated by the electric blower of the main body,
A second hose body connection port for connecting the connection portion of the hose body is provided on the discharge side of the suction air generated by the electric blower of the main body,
The control means drives the electric blower according to the operation input of the on / off switch even if the connection portion of the hose body is connected to either the first hose body connection port or the second hose body connection port. Control the on / off of the
The suction tool of the hose body has a motor for a rotating brush for driving a rotating brush that picks up dust on the surface to be cleaned;
When the connection portion of the hose body is connected to the first hose body connection port, power can be supplied to the rotating brush motor,
When the said connection part of the said hose body is connected to the said 2nd hose body connection port, it will not be in the state which can supply electric power to the said motor for rotating brushes, The electric vacuum cleaner characterized by the above-mentioned. The electric vacuum cleaner according to claim 1, wherein the second hose body connection port is provided with detection means for detecting that the hose body is connected. A main body provided with an electric blower for generating a suction air for suctioning dust;
It has an operation part provided with an on / off switch for operating and inputting the drive of the electric blower, one end is provided with a suction tool for suctioning dust, and the other end is a connection part detachably connected to the main body With the provided hose body,
A control board provided in the main body and including control means for supplying electric power to the electric blower and controlling driving;
A first hose body connection port for connecting the connection portion of the hose body is provided on the suction side of suction air generated by the electric blower of the main body,
A second hose body connection port for connecting the connection portion of the hose body is provided on the discharge side of the suction air generated by the electric blower of the main body,
When the connection of the hose body is connected to the first hose body connection port:
A first connection terminal provided on the connection portion side of the hose body, which is electrically connected to the on / off switch, and a control board provided on the first hose body connection port side. A first connection wire connected to the first connection terminal connected to the first connection terminal for transmitting an operation signal of the on / off switch to the control board;
A second connection terminal electrically connected to the on / off switch provided on the connection portion side of the hose body, and electrically connected to the control substrate provided on the first hose body connection port side The first reference potential wiring connected to the reference potential of the control substrate is connected by the second connection terminal receiver connected to
When the connection of the hose body is connected to the second hose body connection port:
The first connection terminal provided on the connection portion side of the hose body and electrically connected to the on / off switch is provided on the second hose body connection port side, and electrically connected to the control substrate And the second signal wiring for transmitting an operation signal of the on / off switch to the control board is connected.
A second connection terminal provided on the connection portion side of the hose body and electrically connected to the on / off switch, and provided on the second hose body connection port side, electrically connected to the control substrate A second reference potential wire connected by connecting the received fifth connection terminal and connected to the reference potential of the control substrate;
The control means drives the electric blower according to the operation input of the on / off switch even if the connection portion of the hose body is connected to either the first hose body connection port or the second hose body connection port. Control the on / off of the
The suction tool of the hose body has a motor for a rotating brush for driving a rotating brush that picks up dust on the surface to be cleaned;
When the connection of the hose body is connected to the first hose body connection port:
A third connection terminal provided on the connection side of the hose body and electrically connected to the rotating brush motor, and provided on the first hose body connection port side, electrically connected to the control board A third connection terminal receiver connected to the power supply wiring for supplying power from the power wiring of the control board to the motor for the rotating brush is connected, and power can be supplied to the motor for the rotating brush And
When the connection of the hose body is connected to the second hose body connection port:
The second hose body connection port side has no sixth connection terminal receptacle electrically connected to the control board connected to the third connection terminal, or the second hose body connection The sixth connection terminal receptacle provided on the mouth side is not electrically connected to the control board, and the power supply wiring for supplying power from the power line of the control board to the rotating brush motor is not connected. The electric vacuum cleaner can not supply power to the rotating brush motor . The second hose body connection port is provided with detection means for detecting that the hose body is connected,
The detection means detects the third connection terminal when the hose body is connected to the second hose body connection port,
The electric cleaning according to claim 3 , wherein the control means determines that the hose body is connected to the second hose body connection port when the detection means detects the third connection terminal. Machine. The second hose body connection port is provided with detection means for detecting that the hose body is connected,
The detection means detects either the first connection terminal or the second connection terminal or the third connection terminal when the hose body is connected to the second hose body connection port. And
The control means is configured to connect the hose body to the second hose body connection port when the detection means detects any one of the first connection terminal, the second connection terminal, and the third connection terminal. It judges that it was done, The vacuum cleaner of Claim 3 characterized by the above-mentioned. The control means includes a maximum output of the electric blower when the connection portion of the hose body is connected to the second hose body connection port, and the connection portion of the hose body is connected to the first hose body connection. The vacuum cleaner according to any one of claims 1 to 5 , wherein the maximum output of the electric blower when connected to the mouth is different. Claim 6, wherein the maximum output of the electric blower, and the smaller output than the maximum output of the electric blower when said connecting portion of said hose body is connected to said first hose body connection opening The vacuum cleaner described in. Claim 6, wherein the maximum output of the electric blower, and the larger output than the maximum output of the electric blower when said connecting portion of said hose body is connected to said first hose body connection opening The vacuum cleaner described in. The operation unit has an output variable switch capable of changing the output of the electric blower in two or more stages,
The control means, when the connection of the hose body is connected to the second hose body connection port, the maximum output of the electric blower changed by the output variable switch, and the connection of the hose body when but connected to the first hose body connection opening, the maximum output of the electric blower has been changed by said output variable switch, in any one of claims 1 to claim 5, characterized in that the different output 1 The vacuum cleaner as described in a term. The operation unit has an output variable switch capable of changing the output of the electric blower in two or more stages,
The control means causes the maximum output of the electric blower changed by the output variable switch to be the connection portion of the hose body when the connection portion of the hose body is connected to the second hose body connection port. The power output switch according to any one of claims 1 to 5 , characterized in that, when connected to the first hose body connection port, the output is smaller than the maximum output of the electric blower changed by the output variable switch. The vacuum cleaner as described in a term. The operation unit has an output variable switch capable of changing the output of the electric blower in two or more stages,
The control means causes the maximum output of the electric blower changed by the output variable switch to be the connection portion of the hose body when the connection portion of the hose body is connected to the second hose body connection port. when but connected to the first hose body connection opening, claims 1 to 5 or 1, characterized in that a smaller output than the minimum output of the electric blower has been changed by the variable output switch The vacuum cleaner as described in a term. An engaging portion is provided with a locking hook at the connection portion of the hose body, and the locking hook is engaged with the first hose body connection port and the second hose body connection port. The electric vacuum cleaner according to any one of claims 3 to 5 , wherein the third connection terminal is provided at a position closest to the locking hook. . The main body has a ventilation path through which the exhaust air of the electric blower can pass, the filter is provided in the ventilation path, and the respective connection terminals are provided on the second hose body connection port side. The vacuum cleaner according to any one of claims 3 to 5 , wherein is provided in a path through which the exhaust air having passed through the filter passes. A cover member which can be opened and closed and which can be ventilated is provided at the second hose body connection port on the discharge side of the suction air generated by the electric blower.
The second hose body connection port is provided with detection means for detecting the open / close state of the cover member,
When the detection means detects that the cover member is closed, the control means determines that the connection portion of the hose body is not connected to the second hose body connection port. The vacuum cleaner according to any one of claims 1 to 3 . The main body is provided with a dust collection unit accommodating portion that detachably accommodates a dust collection unit for collecting dust sucked by suction air generated by driving of the electric blower, and the first hose body connection port is The vacuum cleaner according to any one of claims 1 to 14, wherein the vacuum cleaner is provided in the dust collection unit storage unit. A main body provided with an electric blower for generating a suction air for suctioning dust;
It has an operation part provided with an on / off switch for operating and inputting the drive of the electric blower, one end is provided with a suction tool for suctioning dust, and the other end is a connection part detachably connected to the main body With the provided hose body,
A control board provided in the main body and including control means for supplying electric power to the electric blower and controlling driving;
A first hose body connection port for connecting the connection portion of the hose body is provided on the suction side of suction air generated by the electric blower of the main body,
A second hose body connection port for connecting the connection portion of the hose body is provided on the discharge side of the suction air generated by the electric blower of the main body,
The control means drives the electric blower according to the operation input of the on / off switch even if the connection portion of the hose body is connected to either the first hose body connection port or the second hose body connection port. Control the on / off of the
The operation unit has an output variable switch capable of changing the output of the electric blower in two or more stages,
The control means, when the connection of the hose body is connected to the second hose body connection port, the maximum output of the electric blower changed by the output variable switch, and the connection of the hose body When it connects to said 1st hose body connection port, the maximum output of the said electric blower changed with the said output variable switch is made into a different output, The electric vacuum cleaner characterized by the above-mentioned. A main body provided with an electric blower for generating a suction air for suctioning dust;
It has an operation part provided with an on / off switch for operating and inputting the drive of the electric blower, one end is provided with a suction tool for suctioning dust, and the other end is a connection part detachably connected to the main body With the provided hose body,
A control board provided in the main body and including control means for supplying electric power to the electric blower and controlling driving;
A first hose body connection port for connecting the connection portion of the hose body is provided on the suction side of suction air generated by the electric blower of the main body,
A second hose body connection port for connecting the connection portion of the hose body is provided on the discharge side of the suction air generated by the electric blower of the main body,
The control means drives the electric blower according to the operation input of the on / off switch even if the connection portion of the hose body is connected to either the first hose body connection port or the second hose body connection port. Control the on / off of the
The operation unit has an output variable switch capable of changing the output of the electric blower in two or more stages,
The control means causes the maximum output of the electric blower changed by the output variable switch to be the connection portion of the hose body when the connection portion of the hose body is connected to the second hose body connection port. When connected to the first hose body connection port, an output smaller than the maximum output of the electric blower changed by the output variable switch. A main body provided with an electric blower for generating a suction air for suctioning dust;
It has an operation part provided with an on / off switch for operating and inputting the drive of the electric blower, one end is provided with a suction tool for suctioning dust, and the other end is a connection part detachably connected to the main body With the provided hose body,
A control board provided in the main body and including control means for supplying electric power to the electric blower and controlling driving;
A first hose body connection port for connecting the connection portion of the hose body is provided on the suction side of suction air generated by the electric blower of the main body,
A second hose body connection port for connecting the connection portion of the hose body is provided on the discharge side of the suction air generated by the electric blower of the main body,
The control means drives the electric blower according to the operation input of the on / off switch even if the connection portion of the hose body is connected to either the first hose body connection port or the second hose body connection port. Control the on / off of the
The operation unit has an output variable switch capable of changing the output of the electric blower in two or more stages,
The control means causes the maximum output of the electric blower changed by the output variable switch to be the connection portion of the hose body when the connection portion of the hose body is connected to the second hose body connection port. When connected to the first hose body connection port, an output smaller than a minimum output of the electric blower changed by the output variable switch.

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