JPH0771545B2 - Vacuum cleaner - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION Object of the Invention (Industrial field of application) The present invention relates to an electric device for controlling the output of an electric blower and other load devices provided in an electric vacuum cleaner body with a hand control unit. Regarding the vacuum cleaner.

(Prior Art) As a conventional electric motor that is built in a suction port body by a hand control unit, for example, a configuration described in Japanese Utility Model Laid-Open No. 61-164648 is known.

The configuration described in Japanese Utility Model Laid-Open No. 61-164648 is such that an electric blower is connected to a power source via a relay switch, an electric blower switch for controlling this relay switch is connected to a hand permission control unit, and this hand permission control unit is connected. A floor brush switch connected between the floor brush motors is provided in conjunction with the electric blower switch, and the changeover switch is configured by the electric blower switch and the floor brush switch.

Then, by switching the changeover switch, the electric blower switch and the floor brush switch are interlocked with each other, and both the electric blower and the floor brush motor are turned off, and the electric blower is turned on and the floor brush is turned on. The motor is switched off, or both the electric blower and the floor brush motor are switched on.

(Problems to be Solved by the Invention) However, in the case of the configuration described in Japanese Utility Model Laid-Open No. 61-164648, the electric blower can be set only on and off, and the output of the electric blower can be set arbitrarily. Therefore, the floor brush motor is driven only when the output of the electric blower is predetermined, and the floor brush motor cannot be driven while the output of the electric blower is reduced.

Also, since the floor brush switch is connected between the power supply and the floor brush motor, the power supply voltage is applied to the hand control unit where the floor brush switch is installed. Have the problem that will be needed.

The present invention has been made in view of the above problems, and uses a two-wire transmission line. The output of the electric blower can be arbitrarily set, and the electric blower can be set independently of the control of the electric blower. An object is to provide an electric vacuum cleaner that can control another load.

[Structure of Invention]

(Means for Solving Problems) The present invention relates to an electric vacuum cleaner main body having an electric blower and a control circuit for controlling the electric blower, and a control circuit of the electric vacuum cleaner main body via a two-wire transmission path. A load device that is connected and has a hose having a hand control unit including an operation unit that arbitrarily sets the input of the electric blower by changing the load current to the control circuit, and a load device that is a load separate from the electric blower. In the electric vacuum cleaner having a suction port body having, the control circuit supplies a constant DC voltage lower than the voltage of the load device to the manual control unit via the two-wire transmission line. A circuit, an output detection circuit that detects the output from the hand control unit, an output control circuit that controls the input of the electric blower by the output of the output detection circuit,
And a load control circuit that controls the load device by the output of the output detection circuit, and the hand permission control unit includes a switch that controls the load device by changing a load current for a certain period of time. By doing so, when the load current is changed for a certain time, the load control circuit is operated by the output from the output detection circuit to control the load device.

(Operation) The present invention supplies a low-voltage DC constant voltage from the DC constant-voltage circuit of the control circuit to the hand control unit via the two-wire transmission line, and the control unit of the electric vacuum cleaner body is operated by the operation unit of the hand control unit. The load current is changed to, this load current is detected by the output detection circuit, and the output control circuit outputs according to the output of this output detection circuit,
Set the input of the electric blower. In addition, when the switch of the hand control unit is operated to change the load current within a certain time,
The output detection circuit detects changes in the load current within a fixed time,
By controlling the load device with the load control circuit, it is possible to control the load device separate from the electric blower regardless of the output of the electric blower even if the two-wire transmission line is used, and a low voltage is applied to the hand control unit. There is no danger of electric shock because it is supplied only.

(Embodiment) An embodiment of the electric vacuum cleaner of the present invention will be described below with reference to the drawings.

In FIG. 2 and FIG. 3, 1 is the main body of the vacuum cleaner,
The electric vacuum cleaner body 1 is composed of a main body case 3 having an opening 2 formed in an upper front portion thereof, and a lid 4 having a rear end portion axially attached to the main body case 3 to open and close the opening 2.

The main body case 3 is composed of a lower main body case member 5 and an upper main body case member 6 coupled and fixed to an upper side of the lower main body case member 5, and a front handle 7 is provided at a front portion of the main body case 3. On the upper rear side of the upper body case member 6, a cover body 8 is pivotally mounted so as to be openable and closable. Inside the cover body 8, a component storage section 9 is provided, and a hook 11
The round brush 12 is housed, and the cover body 8 is locked by a locking piece 13. Further, a display window 15 of an indicator 14 showing the suction capacity is arranged on the front side of the component storage section 9. Further, the bumper 16 is located on the peripheral surface of the main body case 3 and is sandwiched between the main body case members 5 and 6.

Then, the inside of the main body case 3 is divided into front and rear by a partition wall 22 formed in a substantially central portion thereof and having a communication port 21, and an electric blower 23 is disposed in a space portion behind the partition wall 22, It is supported and fixed via an elastic member 24. Further, a circuit board 24 is provided above the electric blower 23. Then, the space portion in front of the partition wall 22 is the opening 2
Is provided on the upper surface and is located on the suction side of the electric blower 23.

Further, an exhaust port 26 communicating with the exhaust side of the electric blower 23 is formed on the rear surface of the main body case 3. Further, a cord reel 28, which is located behind the electric blower 23 and accommodates the power cord 27, is rotatably provided inside the main body case 3. The cord reel 28 is a lead for a cord reel protruding from an opening 29 for a button of the cover body 8.
The power cord 27 is wound by pressing 30. Further, a pair of wheels 31 and a slewing wheel 32 are rotatably provided on the lower side of the body case 3 on the rear side of both side surfaces and the front side of the lower surface.

Further, the lid body 4 is formed in a thin box shape having an opened lower surface, and a body clamp 34 biased by a spring 33 is pivotally attached to a front end portion of the lid body 4. The main body clamp 34 is disengageably engaged with a locking portion 35 formed on the upper end portion of the front surface of the main body case 3 to hold the lid body 4 in a closed state. A handle 35 is rotatably housed in the vicinity of the joint between the lid 4 and the body case 3.

The front side of the upper surface of the lid 4 is formed with an inclined surface 36 that descends toward the front, and a circular hose insertion port 37 is formed on the inclined surface 36. An inner wall 38 is joined and fixed to the lower surface side of the lid body 4 substantially in parallel with the upper surface of the lid body 4, and a substantially cylindrical support body 39 is fixed between the inclined surface 36 and the inner wall 38. Has been done.

A rotating body 41 is rotatably supported by a support body 39, which is located between the inclined surface 36 and the inner wall 38. In addition, the rotating body 41
A pair of terminal rings are lined up in the axial direction on the outer peripheral surface of the
42 are fixed, and these terminal rings 42 are slidably in contact with a pair of contacts fixed to a support 39 or the like.

Further, the rotary body 41 is provided with a valve body 45 which is opened by inserting the main body connecting portion 44 of the hose 43, and the inclined surface 36 of the lid body 4 is provided.
A flexible sliding cover body 46 for opening and closing the hose insertion port 37 is slidably housed between the rotary body 41 and the rotary body 41.

In the hose 43, the base end of the flexible hose body 47 having the power supply line and the two-wire transmission path 83 is attached to the main body connecting portion 44 that can be inserted into and removed from the electric vacuum cleaner body 1. When the hose 43 is connected to 1, the 2-wire transmission line 83
Are electrically connected to the pair of terminal rings 42. A connection cord 50, which is detachably connected by a connector 48 and supplies electric power to a brush electric motor 49, is provided near the main body connecting portion 44.

Further, at the tip of the hose body 47, there is provided a grip pipe 52 into which an extendable extension pipe 51 is insertably and removably inserted and connected, and the grip pipe 52 is provided with a hand operation unit 53. And
As shown in FIG. 4, the hand operation part 53 is a hose body 47.
A connection pipe 55 between the cover pipe 54 connected to the
A display plate 56 is attached to the connection pipe 55.

In the vicinity of, for example, the "carpet" display on the display board 56, a carpet manipulating button 61 for varying the output of the electric blower 23 and a light emitting diode forming a display for displaying the operating position of the operating button 61, for example. 62 are provided. Similarly, in the vicinity of the "Folding / Floor" display, the folding / floating operation button 63 and the light emitting diode 64,
Operation buttons for the sofa near the "Sofa" display
65 and the light emitting diode 66, the operation button 67 and the light emitting diode 6 for the curtain near the display of "curtain"
8. Operation buttons 69 for cutting are provided near the display of “OFF”. A light emitting diode corresponding to the cutting operation button 69 is not provided. In addition, the operation button for brushes is located near the operation button 61 for carpet.
70 is provided and the power brush is displayed.

Further, the extension pipe 51 is removably attached with the connection pipe 72 of the suction port body 71 having the brush electric motor 49 built therein, and the connection cord 50 is connected to the brush electric motor 49. Further, the suction port body 71 can be used by replacing the suction port 11 or the round brush 12.

Next, the circuit shown in FIG. 1 will be described.

Reference numeral 81 denotes a commercial AC power source, to which the electric blower 23 and a control circuit 82 which controls the input of the electric blower 23 are connected. The control circuit 82 changes the load current via the two-wire transmission path 83 to thereby set a switch 85 for controlling an operation unit 84 for setting an input of the electric blower 23 and a load device 86 having, for example, the brush electric motor 49. It is connected to the hand control unit 87 that it has. The control circuit 82 has a DC constant voltage circuit 88 that supplies a DC constant voltage to the hand control unit 87. Further, it is connected to an output detection circuit 89 that detects the output from the hand control unit 87, an output control circuit 90 that controls the input of the electric blower 23, and a load device 86.
Has a load control circuit 91 for controlling.

Then, specifically, the triac 101 of the power control element and the electric blower 23 are connected in series to the commercial AC power supply 81, and the electric blower 23 is a capacitor Δ connected between the electric blower 23 and the commercial AC power supply 81. It has a noise prevention circuit 105 composed of 102, 103 and 104.

Further, a primary winding 107 of a step-down transformer 106 is connected to both ends of the commercial AC power supply 81, and a secondary winding 108 is connected to an AC input end of a rectifying circuit 109 composed of, for example, a diode bridge. A constant voltage circuit 112 including a resistor 110 and a Zener diode 111 is connected to the DC output terminal of 109.

Then, a series circuit of a resistor 115 and a resistor 116 is connected in parallel with the Zener diode 111, and a gate of a programmable unijunction transistor (PUT) 117 is connected to a connection point of the resistor 115 and the resistor 116. The cathode of the primary winding 119 of the transformer 118 for insulation
Is connected to one end of. The other end of the primary winding 119 is connected to the connection point between the resistor 116 and the negative DC output end of the rectifier circuit 109. In addition, the secondary winding 120 of the transformer 118
Has one end connected to the gate of the traac 101 via the resistor 121 and the diode 122, and the other end of the secondary winding 120 connected to one end of the tric 101.

A charging capacitor 123 is connected between the anode of the PUT 117 and the negative DC output terminal of the rectifier circuit 109, and a resistor 124 is connected between the Zener diode 111 and the resistor 115. In addition, the PUT 117 anode and capacitor 12
Between the connection point of 3 and the other end of the resistor 124, a series circuit of the connected curtain setting resistor 131 and switch 132,
Sofa setting resistor 133 and switch 134 series circuit, folding / floor setting resistor 135 and switch 136 series circuit, carpet setting resistor 137 and switch 138
Series circuits are connected in parallel. The resistance has a resistance value in the order of resistance 131, resistance 133, resistance 135, and resistance 137. The switches 132, 134, 136, 138 are normally open contacts controlled by the output of the output detection circuit 89.

Further, the primary winding 142 of the step-down transformer 141 of the DC constant voltage circuit 88 is connected to both ends of the commercial AC power source 81, and the secondary winding 143 of this transformer 141 is a full-wave composed of a diode bridge, for example. It is connected to the AC input terminal of the rectification circuit 144 for rectification. A smoothing electrolytic capacitor 145 is connected to both ends of the DC output terminal, and a DC constant voltage power supply including, for example, a three-terminal regulator is connected to both ends of the capacitor 145.
The input end of 146 is connected, and the electrolytic capacitor 147 is connected to the output end.
There are resistors 151, 152, 153, and 1 for voltage division on both ends of
54, a resistor 155, a resistor 156, a resistor 157 and a resistor 158 are sequentially connected in series. Then, the inverting input terminal of the operational amplifier 161 which constitutes a comparator is provided at the connection point between the resistors 151 and 152, and the operational amplifier 16 is provided at the connection point between the resistors 152 and 153.
The inverting input terminal of 2, the inverting input terminal of the operational amplifier 163 at the connection point between the resistor 153 and the resistor 154, the inverting input terminal of the operational amplifier 164 at the connection point of the resistor 154 and the resistor 155, and the connection between the resistor 155 and the resistor 156. The inverting input end of the operational amplifier 165 is connected to the point, and the inverting input end of the operational amplifier 166 is connected to the connection point between the resistor 156 and the resistor 157.
The inverting input terminal of the operational amplifier 167 is connected to the connection point between the resistor 158 and the resistor 158.

In addition, operational amplifier 161, operational amplifier 162, operational amplifier 16
3, the non-inverting input terminals of the operational amplifier 164, operational amplifier 165, operational amplifier 166, and operational amplifier 167 are connected to the DC constant voltage power supply 146 via the resistor 168. And knot circuit 1
The output terminal of the operational amplifier 161 and the output terminal of the operational amplifier 162 via 71 are the input terminals of the AND circuit 172, and the output terminal of the operational amplifier 162 via the knot circuit 173 and the output terminal of the operational amplifier 163 are the input terminals of the AND circuit 174. Further, the output terminal of the operational amplifier 163 and the output terminal of the operational amplifier 164 via the knot circuit 175 are the input terminals of the AND circuit 176, and the output terminals of the operational amplifier 164 and the operational amplifier 165 via the knot circuit 177 are the input terminals of the AND circuit 178. Further, the output terminals of the operational amplifier 166 and the operational amplifier 167 are connected to the AND circuit 197, respectively.

Furthermore, the output end of the AND circuit 172 is connected to the curtain setting switch 132 so as to control the curtain setting switch 132, and the output end of the AND circuit 174 is connected to the input end of the OR circuit 181. Sofa setting switch 134 to control sofa setting switch 134
The output end of the AND circuit 176 is connected to the folding / floor setting switch 136 so as to control the folding / floor setting switch 136, and the input end of the OR circuit 181 is connected to the input end of the OR circuit 181. Further, the output terminal of the AND circuit 178 is connected to the carpet setting switch 138 so as to control the carpet setting switch 138, and is connected to the input terminal of the OR circuit 181, and the output terminal of the OR circuit 181 is connected to the flip block. AND circuit 179 via AND circuit 183
Is connected to the input end of. The output of the AND circuit 183 is connected to the base of the NPN transistor 185 via the resistor 184, and the emitter of the transistor 185 has the rectifier circuit 1
The negative DC output terminal and collector of 44 are connected to a DC constant voltage power supply 146 via a resistor 186 and a coil 189 of a relay 188 having a freewheeling diode 187 in parallel. The contacts of the relay 188 are connected in series with the commercial AC power supply 81 and the brush motor 49.

Each of the connection points of the resistors 168 and 158 of the control circuit 82 and the electrolytic capacitor 145 is connected to the permission control unit 87 via the transmission lines 191 and 192 of the two-wire transmission line 83.

In addition, between these two transmission lines 191, 192, the permission control unit 8
A series circuit of a pull-up resistor 201 for the carpet of 7 and a setting switch 202 for the carpet constituted by, for example, a tactile switch for setting the carpet, a series circuit of a pull-up resistor 203 for the folding and flooring and a setting switch 204,
Pull-up resistor 205 and setting switch 206 for the sofa
, A series circuit of a pull-up resistor 207 for curtain and a setting switch 208, and a series circuit of a pull-up resistor 209 for cutting and a setting switch 210 are connected in parallel, and the transmission line 191, 192 is connected to the setting switch 210 for cutting. A capacitor 211 for initialization, which is set to OFF at the time of disconnection, is connected in parallel. The setting switches 202, 204, 206, 20
The operation unit 84 is composed of 8,210 and these setting switches 202,20
4,206,208,210 are the corresponding operation buttons 61,63,65,
It is operated by 67 and 69.

Also, a connection point between the pull-up resistor 201 for the carpet and the setting switch 202, a connection point between the pull-up resistor 203 for the folding / floor and the setting switch 204, a connection between the pull-up resistor 205 for the sofa and the setting switch 206. Point, the connection point between the pull-up resistor 207 for curtain and the setting switch 208, and the connection point between the pull-up resistor 209 for cutting and the setting switch 210 store the contents of the switch operated between the transmission lines 191 and 192. It is also connected to a mutual reset and self-holding circuit 212 which resets the previous contents.

Further, the mutual reset and self-holding circuit 212 is connected to the transmission line 191, a driving resistor 215 for the carpet connected in series and a light emitting diode 62, and a driving resistor 216 for folding and floor connected in series. Light emitting diode 64,
Drive resistor 217 and light emitting diode 66 for sofa connected in series, drive resistor 218 for curtain connected in series
And a light emitting diode 68 are connected in parallel, and when the respective load currents are set and displayed and the corresponding switch is operated, they operate. No light emitting diode for cutting is provided.

In addition, the resistance value of the drive resistor is 21 for the carpet.
5 is the smallest, sequentially increases with the folding / floor drive resistance 216 and the sofa drive resistance 217, and the curtain drive resistance 218 is the largest.

Further, a current limiting resistor 221 and a switch 85 including, for example, a duct switch are connected in series between the transmission lines 191, 192, and an electrolytic capacitor 222 is connected in parallel with the switch 85.
The connection point of the current limiting resistor 221 and the switch 85 is connected to the input end of the monostable multivibrator 223. This monostable multivibrator 223 is connected with a pulse width setting resistor and capacitor (not shown), and the output end of the monostable multivibrator 223 is connected via a resistor 224 to the base of an NPN transistor 225 and a collector. Is connected to the transmission line 191 via a resistor 226,
The emitter is directly connected to the transmission line 192.

Next, the operation of the above embodiment will be described.

First, the voltage from the commercial AC power supply 81 is stepped down by the transformer 141, rectified by the rectifier circuit 144, converted to a constant voltage by the DC constant voltage power supply 146, and output to the hand control unit 87. When the setting switch of the operation unit 84 of the hand permission control unit 87 is operated, a load current corresponding to the operated setting switch flows in the hand permission control unit 87, and a predetermined light emitting diode is turned on. For example, when the setting switch 202 for the carpet is closed, a current flows through the pull-up resistor 201 for the carpet, and the mutual reset and self-holding circuit 212 stores the carpet and resets the previous memory to reset the drive resistance for the carpet.
A current is passed through the light emitting diode 215 and the light emitting diode 62 to set the load current as the current value when the carpet is set, and the light emitting diode 62 for the carpet is turned on.

At this time, the voltage of V ₃ to V ₄ shown in FIG. 5 is applied to the resistor 168. As a result, the operational amplifier 165 has a high-level output and the operational amplifier 164 has a low-level output, so that the AND circuit 178 outputs a high level and the carpet setting switch 138 is closed.

When the foldable / floor setting switch 204 is closed, the foldable / floor light emitting diode 64 lights up and a load current corresponding to the foldable / floor flows. At this time, the resistance 168
A partial pressure of V ₄ to V ₅ is applied to. As a result, the operational amplifier 164 has a high level output, and the operational amplifier 163 has a low level output, and the AND circuit 176 outputs a high level, and the folding / floor setting switch 136 is closed.

When the setting switch 206 for the sofa is closed, the light emitting diode 66 for the sofa lights up and a load current corresponding to the sofa flows. At this time, a voltage of V ₅ to V ₆ is applied to the resistor 168. This enables the operational amplifier 16
Since 3 becomes a high level output and the operational amplifier 162 becomes a low level output, the AND circuit 174 outputs a high level and the sofa setting switch 134 is closed.

When the setting switch 208 for the curtain is closed, the issuing diode 68 for the curtain is turned on and a load current corresponding to the curtain flows. At this time, a voltage of V ₆ to V ₇ is applied to the resistor 168. This enables the operational amplifier 16
Since 2 becomes the high level output and the operational amplifier 161 becomes the low level output, the AND circuit 172 outputs the high level, and the curtain setting switch 132 is closed.

When closing the setting switch 210 for switching, substantially the voltage V _M of the DC constant voltage power supply 146 is applied to the resistor 168. At this time, the AND circuits 172, 174, 176, 178 do not output high level, the switches 132, 134, 136, 138 are opened, and none of the resistors 131, 133, 135, 137 are closed.

In this way, one of the resistors 131, 133, 13 with different resistance values
When 5,137 are connected, the charging time of the capacitor 123 changes, the control angle of the triac 101 changes, the inputs corresponding to the set conditions are supplied to the electric blower 23, and the output of the electric blower 23 changes.

If the setting switch 202 for the carpet, the setting switch 204 for the folding / floor setting, the setting switch 206 for the sofa, and the setting switch 208 for the curtain are set, closing switch 85 causes monostable multivibrator 223. It outputs for a predetermined time, a current flows through the base of the transistor 225, and the transistor 225 turns on.

As a result, the voltage of the resistor 168 is applied with the voltage of V ₁ or V ₂ as shown in FIG. 5, so that both the operational amplifier 166 and the operational amplifier 167 become high level output, and the AND circuit 1
79 outputs a high level and turns on the flip-flop 182. At this time, the output of any one of the AND circuit 172, the AND circuit 174, the AND circuit 176, and the AND circuit 178 is input to the OR circuit 181, so that the OR circuit 181 outputs the high level, and the AND circuit 183 outputs the high level. The base current is supplied to the transistor 185 to turn on the transistor 185. This causes a current to flow in the coil 189 of the relay 188,
Since the contact 190 is closed, the brush motor 49 is driven.

When the setting switch 210 for cutting is set, even if the switch 85 is closed, the voltage of the resistor 168 becomes V ₂ to V ₃ , so the flip-flop 182 does not output and the brush motor 49 drives. do not do.

Further, when the electric blower 23 and the brush electric motor 49 are both driven, if the setting switch 210 for closing is closed, the voltage of the resistor 168 is almost equal to the voltage V _M of the DC constant voltage power supply 146.
Since the operational amplifiers 161, 162, 163, 164, 165 all have high level outputs, and the AND circuits 172, 174, 176, 178 all have low level outputs, each switch 132, 134, 136, 13
8 is opened and the electric blower 23 is stopped. Further, since the AND circuits 172, 174, 176, 178 all become low level outputs, the output of the OR circuit 181 becomes low level output, and the output of the AND circuit 183 also becomes low level output, so that the transistor 185 is turned off and the coil 189 of the relay 188 is turned on.
Since no current flows through the contact 190, the contact 190 is opened and the brush motor 49 is stopped.

According to the above-described embodiment, since the electric motor for brush 49 is not driven when the electric blower 23 is in the off state, it is possible to prevent the temperature of the electric motor for brush 49 from rising due to the electric motor for brush 49 being driven when not in use.

Further, even if the switch 85 is continuously pressed, the load current maintains the state before the switch 85 is pressed after a certain time has elapsed, so that the malfunction of the electric blower 23 can be prevented.

Further, it is convenient because both the electric blower 23 and the brush electric motor 49 can be turned off by the setting switch 210 for cutting.

〔The invention's effect〕

According to the electric vacuum cleaner of the present invention, the DC constant voltage circuit of the control circuit supplies a low DC constant voltage to the hand control unit via the two-wire transmission line, and the load current is changed in the operation unit of the hand control unit. Then, the load current is detected by the output detection circuit, and the output control circuit outputs it according to the output of the output detection circuit, so that the input of the electric blower can be set. Also, when the load current is changed for a certain time by operating the switch of the hand control unit, the output detection circuit detects the change in the current for a certain time, and the load control circuit controls the load device, so that the two-wire transmission line is controlled. Even with the electric fan, regardless of the output to the electric blower, it is possible to control a load device that is separate from the electric blower, and the hand control unit only supplies a low DC constant voltage, so there is no risk of electric shock. it can.

[Brief description of drawings]

FIG. 1 is a circuit diagram showing an embodiment of the electric vacuum cleaner of the present invention,
2 is a perspective view of the same electric vacuum cleaner main body, FIG. 3 is a sectional view of the same as above, FIG. 4 is a front view of the above hand control unit, and FIG. 5 is a voltage waveform diagram of the same. 1 ... Vacuum cleaner main body, 23 ... Electric blower, 43 ... Hose, 71 ... Suction port body, 82 ... Control circuit, 83 ... 2-wire transmission line, 84 ... Operating part, 85 ... Switch , 86 …… Load device,
87: Hand control unit, 88: DC constant voltage circuit, 89: Output detection circuit, 90: Output control circuit, 91: Load control circuit.

Claims (4)

[Claims] 1. A vacuum cleaner main body having an electric blower and a control circuit for controlling the electric blower, and a load connected to the control circuit of the vacuum cleaner main body via a two-wire transmission line. The electric blower is provided with a hose having a hand control unit having an operation unit for arbitrarily setting the input of the electric blower, and a suction port body having a load device which is a load separate from the electric blower. In the electric vacuum cleaner, the control circuit supplies a DC constant voltage lower than the voltage of the load device to the hand permission control unit via the two-wire transmission line, and an output from the hand permission control unit. And an output control circuit for controlling the input of the electric blower by the output of the output detection circuit, and
A load control circuit for controlling the load device by the output of the output detection circuit; and the hand permission control unit includes a switch for controlling the load device by changing a load current for a certain period of time, and operating the switch. The vacuum cleaner is characterized in that the load control circuit is operated by the output from the output detection circuit when the load current is changed for a certain period of time, thereby controlling the load device. 2. The electric vacuum cleaner according to claim 1, wherein the load control circuit does not turn on the load device when the electric blower is in an off state. 3. The hand control unit changes the current value of the load current for a certain period of time when the switch is continuously pressed when the electric blower is in the ON state, and the current value of the load current before pressing the switch after a certain period of time elapses. The vacuum cleaner according to claim 1 or 2, wherein the electric vacuum cleaner is in a state. 4. The electric vacuum cleaner according to any one of claims 1 to 3, wherein the load control circuit turns off the load device by operating an operation unit for setting the electric blower off. .