JP2001157655A5 - - Google Patents

Description

[Document name] Specification [Title of invention] Vacuum cleaner [Claims]
1. An electric blower for sucking dust, a dust collecting chamber for collecting dust, a hose and an extension pipe having an operating means for operating the electric blower, and sucking dust on a floor surface to be cleaned. A vacuum cleaner including a suction tool for the purpose, a detection means for detecting the connection state of the suction tool, and a control means for controlling the power of the electric blower according to the output of the detection means.
2. The vacuum cleaner according to claim 1, wherein the detecting means is provided at a connection portion between a hose and an extension pipe.
3. The vacuum cleaner according to claim 1 or 2, wherein the switch outputs an ON / OFF signal as a detection means.
4. The vacuum cleaner according to claim 1, wherein an electric resistor having a variable electric resistance value is used as the detecting means.
5. The vacuum cleaner according to claim 1, wherein a dedicated operation mode is provided when the attachment is used.
6. Electrical vacuum cleaner according to any one of claims 1-4, characterized in that so as to increase the power of the electric blower when connecting attachment.
7. The vacuum cleaner according to claim 1, wherein the electric power of the electric blower is increased when the suction tool is connected.
8. A vacuum cleaner main body incorporating an electric blower, a hose having one end connected to the main body, an extension pipe or a suction tool connected to the other end of the hose, and the vacuum cleaner main body and a hose. , The extension pipe and the suction tool each have an intake passage for intake air sucked into the electric blower and an exhaust passage for exhaust gas discharged from the electric blower so that at least a part of the exhaust gas from the electric blower is returned to the suction tool. The vacuum cleaner according to any one of claims 1 to 7.
9. suction tool or electric vacuum cleaner according to claim 8, wherein which is adapted to vary the amount of circulating air of the exhaust when connecting an attachment.
Description: TECHNICAL FIELD [Detailed description of the invention]
[0001]
[Technical field to which the invention belongs]
The present invention relates to a suction tool or a vacuum cleaner that controls the electric power of an electric blower according to the connection state of an attachment.
0002.
[Conventional technology]
Conventional vacuum cleaners generally have the configurations shown in FIGS. 17 and 18. The configuration will be described below.
0003
As shown in FIG. 17, the vacuum cleaner main body (hereinafter referred to as the main body) 1 has a built-in electric blower 2 for sucking dust 10, and collects dust 10 on the suction side, that is, in front of the electric blower 2. A dust collecting chamber 3 is provided for this purpose. An intake port 4 communicating with the dust collecting chamber 3 is provided in the front portion of the main body 1, and the other end side of a hose 6 having a hand operation unit 5 on one end side is connected to the intake port 4, and the hand operation unit 5 is connected. A suction tool 8 equipped with an extension pipe 7 and a rotating brush (not shown) is connected to the side, and a dust intake path 9 is provided in the suction tool 8, the extension pipe 7, the hose 6, the intake port 4, and the dust collection chamber 3. Is forming. Further, the dedicated attachment 11 (not shown) is usually used by connecting to one end of the extension pipe 7 to which the suction tool 8 is connected, or by removing the extension pipe 7 and connecting to the tip of the hand operation unit 5. It is common to use it.
0004
When the electric blower 2 is operated by operating the hand operation unit 5, the dust 10 passes through the dust intake path 9 from the suction tool 8 and is accumulated in the dust collection chamber 3, but as shown in FIG. 18, the dust intake path A dust sensor 14 composed of a light emitting element 12 such as an LED and a light receiving element 13 such as a phototransistor is arranged in 9, and when the dust 10 passes through, the light of the light emitting element 12 is blocked from being received by the light receiving element 13. There is also one that detects the amount of dust 10 passing through the dust intake path 9 by using the principle and changes the amount of power supplied by the electric blower 2 to perform automatic operation.
0005
Generally, the person performing the cleaning selects an operation switch provided on the hand operation unit 5 according to the condition of the floor surface to be cleaned, and controls the electric power of the electric blower 2.
0006
[Problems to be Solved by the Invention]
However, in the conventional configuration, for example, when cleaning a carpet or the like, it is common to select an operation mode such as a "strong" position or a "carpet" position to increase the suction force for cleaning. When the suction tool 8 is not connected or the suction tool 8 is forgotten to be attached, the noise caused by the operating noise of the electric blower 2 is high and unpleasant. In addition, when connecting a dedicated attachment 11 (for example, a gap nozzle) used for cleaning narrow places and gaps and cleaning in a relatively strong suction power operation mode such as "strong" or "carpet", the air volume However, it takes a long time to clean because the required suction power cannot be obtained, and there is a problem that wasteful power is consumed and it is uneconomical.
0007
The present invention solves the above-mentioned conventional problems, and an object of the present invention is to provide an electric vacuum cleaner capable of reducing noise, improving cleaning performance, and improving cleaning efficiency.
0008
[Means for solving problems]
An electric blower for sucking dust, a dust collecting chamber for collecting dust, a hose and an extension pipe having an operating means for operating the electric blower, and a suction tool for sucking dust on the floor surface to be cleaned. A detection means for detecting the connection state of the suction tool and a control means for controlling the power of the electric blower according to the output of the detection means are provided. Efficiency can be improved.
0009
BEST MODE FOR CARRYING OUT THE INVENTION
The invention according to claim 1 of the present invention includes an electric blower for sucking dust, a dust collecting chamber for collecting dust, a hose and an extension pipe having an operating means for operating the electric blower, and a floor surface to be cleaned. It is equipped with a suction tool for sucking the dust, a detection means for detecting the connection state of the suction tool, and a control means for controlling the power of the electric blower according to the output of the detection means. Along with making the machine body quieter, cleaning performance and cleaning efficiency can be improved.
0010
According to the second aspect of the present invention, the detection means is provided at the connection portion between the hose and the extension pipe, and the hose is cleaned by connecting a suction tool or an attachment to the hand operation portion of the hose as well as the normal usage pattern. Even in that case, connection detection is possible.
0011
The invention according to claim 3 of the present invention is a switch that outputs an ON / OFF signal as a detection means, and can detect the connected state of the suction tool inexpensively and accurately.
0012
The invention according to claim 4 of the present invention uses an electric resistor whose electric resistance value can be changed as a detection means, and can discriminate not only a suction tool but also a dedicated attachment.
0013
The invention according to claim 5 of the present invention is provided with a dedicated operation mode when the attachment is used, and can be arbitrarily set by the user to improve usability.
0014.
The invention according to claim 6 of the present invention increases the electric power of the electric blower when the attachment is connected, compensates for the decrease in the air volume due to the attachment connection, and secures the air volume required for cleaning to improve the cleaning performance. Can be maintained and cleaned efficiently.
0015.
The invention according to claim 7 of the present invention is to increase the electric power of the electric blower when the suction tool is connected, secure the air volume required for cleaning, maintain the cleaning performance, and perform efficient cleaning. be able to.
0016.
The invention according to claim 8 of the present invention includes a vacuum cleaner main body including an electric blower, a hose connected to one end of the main body, and an extension pipe or a suction tool connected to the other end of the hose. The vacuum cleaner body, hose, extension pipe, and suction tool each have an intake passage for intake air sucked into the electric blower and an exhaust passage for exhaust discharged from the electric blower, and at least a part of the exhaust from the electric blower is provided. An electric vacuum cleaner that recirculates to a suction tool, which is provided with any of the above claims 1 to 7. The exhaust discharged from the suction tool blows up dust on the surface to be cleaned and collects the dust in combination with the suction action. Since the dust performance can be improved and the exhaust is less discharged indoors, the noise due to the exhaust can be suppressed to a low level, and the noise can be further reduced.
[0017]
The invention according to claim 9 of the present invention is to change the circulating air volume of the exhaust gas when the suction tool or the attachment is connected, and secures the air volume required for cleaning to maintain the cleaning performance. , Efficient cleaning can be performed.
0018
【Example】
(Example 1)
Hereinafter, examples of the present invention will be described with reference to FIGS. 1 to 4. The same components as those in the conventional example are designated by the same reference numerals, and the description thereof will be omitted.
0019
In FIG. 1, the electric blower 2 and the electric blower driving means 20 are connected in series between the AC power supplies 21. The detecting means 22 is arranged inside the hand operation unit 5 and the extension pipe 7, and detects the presence or absence of the suction tool 8 or the dedicated attachment 11.
0020
23 is arranged in the hand operation unit 5, and allows the user to arbitrarily set the suction force of the electric blower 2 to be “strong”, “medium”, “weak”, or “off” depending on the condition of the floor surface to be cleaned. It is a power setting means, and the phase control amount of the electric blower driving means 20 is set by this setting. 24 determines the power supply (phase control amount) of the electric blower 2 according to the operation position selected by the power setting means 23 by the user, and the power supply of the electric blower 2 based on the output of the detection means 22. It is a control means for switching and controlling (phase control amount). The electric blower driving means 20 drives the electric blower 2 by the control means 24.
0021.
FIG. 2 is a diagram showing a connection between the suction tool 8 and the extension pipe 7. The connection portion of the suction tool 8 is provided with a connection pin 26 and a detection rib 27 that are electrically connected to the connection terminal 25 provided on the extension pipe 7. Similarly, detection ribs 27 are also provided at the other ends of the dedicated attachment 11 and the extension tube 7. Further, by disposing a micro switch 28 provided with a movable plate 29 at a position facing the detection rib 27 as a detection means 22 in the extension pipe 7 and in the hand operation unit 5, the suction tool 8 can be extended. When inserted to connect to 7, the detection rib 27 pushes the movable plate 29 of the micro switch 28 to turn on the micro switch 28, and whether or not the suction tool 8 or the dedicated attachment 11 is connected to the extension tube 7. Can be detected.
0022.
Alternatively, as shown in FIG. 3, one side is fixed at a position facing the detection rib 27 similarly provided in the suction tool 8 in the extension pipe 7 and in the hand operation unit 5, and the electric resistance value of the other end is variable. By disposing the electric resistor 32 provided with the spring 31 interlocked with the slide rib 30, the detection rib 27 pushes the slide rib 30 to change the electric resistance value of the electric resistor 32, as described above. Similarly, the presence / absence of connection of the suction tool 8 and the dedicated attachment 11 can be detected. Further, when the suction tool 8 is not connected, the suction tool 8 returns to the initial position by the force of the spring 31 interlocked with the slide rib 30.
[0023]
Needless to say, by changing the length of the detection rib 27 for each suction tool 8 or attachment 11, it is possible to detect the presence or absence of connection and the type of connected connection.
0024
The operation according to the above configuration is as follows.
0025
When the user selects the "strong" position of the power setting means 23 in the state where the suction tool 8 which is a normal cleaning mode is connected, the open power consumption (phase control amount) is increased as shown in FIG. The operation of the electric blower 2 is started so as to be W1. Similarly, the control means 24 is via the electric blower drive means 20 according to the selected position of the power setting means 23 so that the open power consumption is W2 in the “medium” position and the open power consumption is W3 in the “weak” position. The electric blower 2 is operated with a preset phase control amount.
0026
When the suction tool 8 is removed from the extension pipe 7, the detection means 22 detects that the suction tool 8 has been removed. The control means 24 switches the phase control amount based on the output of the detection means 22 so as to have a low power consumption with the power consumption W3 in the "weak" position as the lower limit power, thereby eliminating unnecessary power consumption. It also prevents the noise from becoming louder than necessary. Further, when the detection means 22 detects that the dedicated attachment 11 is connected to the extension pipe 7 or the hand operation unit 5, the power consumption becomes higher with the power consumption W1 in the "strong" position as the upper limit power. As described above, the phase control amount is switched by the control means 24, and the air volume required for cleaning can be secured, the cleaning performance can be maintained, and efficient cleaning can be performed.
[0027]
Needless to say, the power consumption can be set for each of the dedicated attachments 11 according to the operation pattern of the vacuum cleaner main body 1 corresponding to the various dedicated attachments 11.
[0028]
(Example 2)
Next, a second embodiment of the present invention will be described with reference to FIG. The same components as those in the conventional example are designated by the same reference numerals, and the description thereof will be omitted.
[0029]
In FIG. 5, the power setting means 33 has a mode setting switch such as “strong”, “medium”, “weak”, or “off” of the suction force of the electric blower 2 arbitrarily by the user depending on the condition of the floor surface to be cleaned. In addition, an "attachment mode" switch that sets the power of the electric blower 2 so that the cleaning performance can be maintained when using the attachment 11 is provided, and the user can set it arbitrarily, which is convenient. Can be improved.
[0030]
Needless to say, the "attachment mode" switch can be arranged on the vacuum cleaner main body 1.
0031
(Example 3)
Next, a third embodiment of the present invention will be described with reference to FIG. The same components as those in the conventional example are designated by the same reference numerals, and the description thereof will be omitted.
[0032]
When the connection of the attachment 11 is detected by the detection means 22 arranged inside the hand operation unit 5 and the extension pipe 7, the set power of the electric blower 2 is consumed in the “strong” position as shown in FIG. The power consumption W1 is set as the upper limit power, and in the "medium" position or the "weak" position, the power consumption is higher than the power consumption W2 or W3 set in advance as the operation mode, and the power consumption is W4 or W5. The phase control amount is switched by the control means 24, and the power consumption of the electric blower 2 is increased when the attachment 11 is connected. The air volume required for cleaning is compensated for the decrease in the air volume due to the connection of the attachment 11. It is possible to maintain the cleaning performance and perform efficient cleaning.
0033
(Example 4)
Next, a fourth embodiment of the present invention will be described with reference to FIG. The same components as those in the conventional example are designated by the same reference numerals, and the description thereof will be omitted.
0034
When the connection of the suction tool 8 is detected by the detection means 22 arranged inside the hand operation unit 5 and the extension pipe 7, the set power of the electric blower 2 is set to the “strong” position as shown in FIG. The power consumption W1 is set as the upper limit power, and in the "medium" position or the "weak" position, the power consumption W6 or W7 is higher than the power consumption of the power consumption W2 or W3 set in advance as the operation mode. The phase control amount is switched to the power consumption by the control means 24, and the power of the electric blower 2 is increased when the suction tool 8 is connected to secure the air volume required for cleaning and maintain the cleaning performance, which is efficient. Can be cleaned.
0035.
(Example 5)
Next, a fifth embodiment of the present invention will be described with reference to FIG. The same components as those in the conventional example are designated by the same reference numerals, and the description thereof will be omitted.
0036
When the connection of the suction tool 8 is detected by the detection means 22 arranged inside the hand operation unit 5 and the extension pipe 7, the set power of the electric blower 2 is set to the "weak" position as shown in FIG. The power consumption W3 is set as the lower limit power, and in the "strong" position or the "medium" position, the power consumption W8 or W9 is lower than the power consumption of the power consumption W1 or W2 set in advance as the operation mode. The phase control amount is switched to the power consumption by the control means 24, and the power of the electric blower 2 is reduced when the suction tool 8 is connected to suppress unnecessary power consumption and generate louder noise than necessary. Can be prevented.
0037
(Example 6)
Next, a sixth embodiment of the present invention will be described with reference to FIG. The same components as those in the conventional example are designated by the same reference numerals, and the description thereof will be omitted.
[0038]
When the detection means 22 arranged inside the hand operation unit 5 and the extension pipe 7 detects the connection of the suction tool 8 provided with the rotating brush, the set power of the electric blower 2 is applied as shown in FIG. The power consumption W3 in the "weak" position is set as the lower limit power, and in the "strong" position or the "medium" position, the power consumption W10 or W10 is lower than the power consumption of the power consumption W1 or W2 preset as the operation mode. The control means 24 switches the phase control amount to the power consumption such that it becomes W11, and reduces the power of the electric blower 2 when the suction tool 8 equipped with the rotating brush is connected, thereby improving the cleaning performance. It can be maintained and noise can be reduced.
[0039]
(Example 7)
Hereinafter, a seventh embodiment of the present invention will be described with reference to FIGS. 10 to 15. The same components as those in the above embodiment are designated by the same reference numerals, and the description thereof will be omitted.
0040
The electric vacuum cleaner is a telescopic pipe (hereinafter referred to as an extension pipe) in which the connection pipe 104 of the hose 103 is connected to the connection port 101 of the vacuum cleaner main body 100, and the suction tool 106 is connected to the grip pipe 105 on the other end side of the hose 103. (Referred to as) 107 is connected.
[0041]
An electric blower 108 is built in the rear side of the vacuum cleaner main body 101, and a dust collecting chamber 109 is provided between the connection port 101 and the electric blower 108. Reference numeral 110 denotes a soundproof cylinder covering the electric blower 108, and one end of the exhaust pipe 111 is connected to the outer peripheral surface of the soundproof cylinder 110. The exhaust pipe 111 has a bellows-shaped portion in a part thereof, and is made flexible as a whole. The other end of the exhaust pipe 111 is connected to the connection port 101 side, and a part of the exhaust gas discharged by the operation of the electric blower 108 is guided to the connection port 101 side on the other end side.
[0042]
The check valve 112 sandwiched between the connection port 101 and the dust collection chamber 109 airtightly communicates the connection port 101 with the inside of the dust collection chamber 109, and has a substantially tubular shape to which the exhaust pipe 111 is connected to the front side. The exhaust introduction port 113 is integrally formed.
[0043]
The connecting pipe 104 is sandwiched between a connecting pipe 114 having a two-layer pipe structure that forms an intake passage on the inner circumference and an exhaust passage on the outer circumference, a lid 115 that covers the outer peripheral side of the connecting pipe 114, and the connecting pipe 114 and the lid 115. It has a tail lock 116 and a rotating pipe 117 whose one end side is rotatably connected to the connecting pipe 114. Like the connecting pipe 114, the rotating pipe 117 also has an intake passage on the inner circumference and an exhaust passage formed on the outer circumference to form a two-layer pipe structure so that the exhaust passages between the rotating pipe and the connecting pipe and the exhaust passages can rotate freely. You are connected. The buckle 116 is urged by a spring 118 to detachably lock the connection tube 104 to the connection port 101. The rotary pipe 117 is rotatable about an axis in the longitudinal direction of the connecting pipe 104 to prevent the hose 103 from being twisted while using the vacuum cleaner.
[0044]
The inner pipe A119 of the connecting pipe 114 and the inner pipe B120 of the rotating pipe 117 are airtightly communicated with each other by the tight packing 121, and the outer peripheral portion of the inner pipe A119 and the outer peripheral portion of the inner pipe B120 are also airtightly communicated with each other. Fixed contacts 122 are fixed side by side in the front-rear direction on the upper surface of the connecting pipe 114 on the outer peripheral side of the rotating pipe 117. The fixed contact 122 is electrically connected to a plurality of connection terminals (not shown) sandwiched between the rotary pipe 117 and the lid 115.
0045
The connection terminal is electrically connected to a main body terminal (not shown) arranged in the vacuum cleaner main body 100 in a state where the connection pipe 114 is connected to the connection port 101. Inside the fixed contact 122, the same number of rail terminals 123 facing the fixed contact 122 are held and arranged on a substantially tubular rail base 124. The rail base 124 is fixed to the outer peripheral side of the rotary pipe 117, and when the rotary pipe 117 rotates about the axis in the longitudinal direction of the connecting pipe 104, it rotates together with the rotary pipe 117 and is always electrically connected to the fixed contact 122 and the rail terminal 123. Maintaining a connection.
[0046]
The hose 103 has a two-layer hose structure accommodating an inner hose 126 having an outer diameter smaller than the inner diameter of the outer hose 125, and one end side of the inner hose 126 is wrapped around the anti-connection pipe 114 side of the inner pipe B120 of the rotating pipe 117. Further, one end side of the outer hose 125 is wrapped around the outer peripheral surface of the rotary pipe 117 on the non-connection pipe 114 side and is airtightly connected to each other.
[0047]
The grip pipe 105 includes a connecting pipe 127 having a two-layer pipe structure including an inner pipe 127A wrapping the other end side of the inner hose 126 and an outer pipe 127B wrapping the other end side of the outer hose 125, and the hose 103. A bent pipe 128 that accommodates the front of the wrapping portion on the other end side and is detachably connected to the extension pipe 107 at the tip portion while bending in an abbreviated shape toward the front side, and above the bent portion of the bent pipe 128. 129, the switch board 130 arranged in the parts storage part 129, the operation part 131 for operating the switch board 130, the grip tube cover 132 covering the upper opening of the bent pipe 128, and the grip tube. It has a tail lock A133 that is swingably sandwiched between the cover 132 and the bent pipe 128 and that detachably locks the extension pipe 107.
0048
The curved pipe 128 is divided into upper and lower two-layer passages by an inner wall 134, the intake passage A135 is intimately communicated with the inner pipe 127A of the connecting pipe 127, and the exhaust passage A136 is the inner pipe 127A and the outer pipe of the connecting pipe 127. It communicates airtightly with the passage between 127B.
[0049]
After being connected to the rail terminal 123, the conductor A137 is introduced between the outer hose 125 and the wrapping portion on the outer peripheral surface of the rotary pipe 117 between the outer hose 125 and the inner hose 126, and the other end side is the outer hose 125. Is derived from the outer pipe 127B of the connecting pipe 127 and the outer hose 125 wrapping portion, and is connected to the switch board 130 through the component accommodating portion 129.
0050
The extension pipe 107 is slidably held in the first ventilation pipe 138 which is detachably locked to the curved pipe 128 of the grip pipe 105, and the tip of the second ventilation pipe 139 is The connection pipe 140 of the suction tool 106 is detachably locked.
0051
The first ventilation pipe 138 is divided into upper and lower two-layer ventilation passages, that is, an intake passage A135 and an exhaust passage A136 by an inner wall 141. The second ventilation pipe 139 is separated into a ventilation pipe A142 and a ventilation pipe B143, the ventilation pipe A142 constitutes an exhaust passage B144, and the ventilation pipe B143 constitutes an intake passage B145. That is, the ventilation pipe A142 and the ventilation pipe B143 are arranged with a gap in the axial direction, and one end side of the ventilation pipe A142 is slidably inserted in the exhaust passage A136 of the first ventilation pipe 138 and exhausted. It is connected to passage A136. Further, one end side of the ventilation pipe B143 is slidably inserted in the intake passage A135 of the first ventilation pipe 138 in the axial direction and is connected to the intake passage A135.
[0052]
Reference numeral 146 is a conductor B, and the conductor B146 is housed in the exhaust passage B144 of the ventilation pipe A142 and the exhaust passage A136 of the first ventilation pipe 138. Connection terminals (not shown) are connected to both ends of the conductor B146, and when the extension tube 107 is connected to the grip tube 105 and the suction tool 106, the connection terminals (not shown) provided on the grip tube 105 and the suction tool 106 ( (Not shown) is electrically connected. The surface of the conductor B146 may be protected by an insulating coating or not.
[0053]
Reference numeral 147 is a push button, which has a locking projection 149 that moves up and down in conjunction with the vertical operation of the push button 147, and the locking projection 149 is located in the gap between the ventilation pipe A142 and the ventilation pipe B143. The lower surface of the A142, that is, the surface facing the ventilation pipe B146, is configured to be elastically engaged with a plurality of locking recesses 148 formed at predetermined intervals in the axial direction. With the locking protrusion 149 and the locking recess 148, the allowance of the second ventilation pipe 139 with respect to the first ventilation pipe 138 can be adjusted to a length convenient for the vacuum cleaner user. The shape of the connecting portion between the extension pipe 107 and the grip pipe 105 and the connecting portion between the suction tool 106 and the extension pipe 107 are formed in the same shape, and the suction tool 106 is directly connected to the grip pipe 105 for use. can do.
0054
The structure of the suction tool 106 is as follows. A rotary brush 151 having a built-in electric motor 150 is rotatably held in front of the suction tool 106. The rotary brush 151 is rotationally driven by a built-in electric motor 150, and the rotation is transmitted via a speed reducer (not shown) to rotate about 1500 revolutions per minute. The rotary brush 151 faces a suction opening 152 provided on the lower surface, and a plurality of blades A153 and brushes B154 attached to the peripheral surface scoop up dust and the like adhering to the cleaning surface.
0055
Reference numeral 155 is a dust suction port formed behind the rotary brush 151, which communicates with a connecting cylinder 156 that can be raised and lowered in the vertical direction. Reference numeral 157 is a suction tool pipe connected to the connecting cylinder 156 so as to be rotatable at a constant angle in the left-right direction, and is divided into two upper and lower passages by a pipe wall 158. The lower intake passage C159 communicates with the connection cylinder 156 in the front and the intake passage B145 of the extension pipe 107 in the rear. The upper exhaust passage C160 communicates with the exhaust passage B144 of the extension pipe 107 at the rear, while the front passes through the flexible pipe 161 and the bypass (exhaust passage) 162 formed from the upper part of the suction tool to the front part of the bypass 162. An exhaust port 163 is formed at the end. Then, the exhaust gas discharged by the operation of the electric blower 108 is discharged from the exhaust port 163 of the bypass 162 in the direction of the suction opening 152.
0056
Next, the operation and operation according to the above configuration will be described. When the electric blower 108 is operated by operating the operation unit 131 of the grip tube 105, electric power is simultaneously supplied to the electric motor 150 via the conductor B146, and the electric motor 150 rotationally drives the rotary brush 151. In the rotary brush 151, the blade A153 and the brush B154 scoop up the dust on the surface to be cleaned.
[0057]
The dust is an intake flow generated by the suction of the electric blower 108, and is a suction opening 152, a dust suction port 155, a connecting cylinder 156, an intake passage C159 of the suction tool pipe 157, an intake passage B145 of the second ventilation pipe 139, and a first. It is transferred into the dust collection chamber 109 via the air intake passage A135 of the ventilation pipe 138 and the curved pipe 147, the inner hose 126, the inner pipe B120 of the rotary pipe 117, and the inner pipe A119 of the connecting pipe 114, and is accumulated here. .. The clean intake air flow separated from the dust is discharged into the soundproof cylinder 110 after passing through the electric blower 108.
0058.
At least a part of the exhaust is introduced between the inner pipe A119 of the connecting pipe 114 and the outer circumference of the connecting pipe 114 via the exhaust pipe 111, the exhaust introduction port 113, and the through hole 164, and then inside the rotating pipe 117. Between the pipe B120 and the outer circumference, between the outer hose 125 and the inner hose 126, between the inner pipe 127A and the outer pipe 127B of the connecting pipe 127, the exhaust passage A136 of the bent pipe 147 and the first ventilation pipe 138, and the suction tool 106. It is discharged from the exhaust port 163 in the direction of the suction opening 152 through the exhaust passage C160, the flexible pipe 161 and the bypass 162. This refluxed exhaust relaxes the degree of adhesion between the suction tool 106 and the surface to be cleaned, and reduces the moving operation force of the suction tool 106. At the same time, the dust on the surface to be cleaned is sprayed and transferred in the direction of the dust suction port 155, and the dust collection performance is improved by the synergistic effect with the rotation of the rotating brush 151.
[0059]
The vacuum cleaner having the exhaust circulation configuration is provided with the configuration described in the first embodiment, and the detection means 22 (not shown) is arranged inside the grip pipe 105 and the extension pipe 107, and is a suction tool. 106 Or, it detects the presence or absence of the connection of the dedicated attachment 11. Reference numeral 23 denotes a power setting means arranged in the switch board 130 for the user to arbitrarily set the suction force of the electric blower 108 to be “strong”, “medium”, or “weak” depending on the condition of the floor surface to be cleaned. With this setting, the phase control amount of the electric blower driving means 20 is set. 24 determines the power supply (phase control amount) of the electric blower 108 according to the operation position selected by the power setting means 23 by the user, and also determines the power supply of the electric blower 108 based on the output of the detection means 22. It is a control means for switching and controlling (phase control amount). The electric blower driving means 20 (not shown) drives the electric blower 108 by the control means 24.
[0060]
With the above configuration, in addition to the effect described in the first embodiment, the exhaust gas discharged from the suction tool 106 blows up the dust on the surface to be cleaned, and the dust collection performance can be improved in combination with the suction action. At the same time, since the exhaust gas containing dust is less likely to be discharged indoors, the noise caused by the exhaust gas can be suppressed to a low level, and the vacuum cleaner can be further reduced in noise and the indoor area can be cleaned.
[0061]
Although the case where the vacuum cleaner having the exhaust circulation configuration is provided with the configuration described in the first embodiment is shown here, the noise due to the exhaust can be suppressed to a low level in each of the second to sixth embodiments as well. Needless to say, it is possible to further reduce noise.
[0062]
(Example 8)
Next, an eighth embodiment of the present invention will be described with reference to FIG. The same components as those in the above embodiment are designated by the same reference numerals, and the description thereof will be omitted.
[0063]
In FIG. 16, 165 is an exhaust circulating air volume variable means, and is composed of an opening / closing plate 167 connected to a solenoid 166. The opening / closing plate 167 connected to the solenoid 166 opens / closes in response to the detection signal from the detection means 22, and a part of the exhaust flow is leaked to the outside of the circulation passage to change the circulating air volume of the exhaust flow.
[0064]
With the above configuration, when the suction tool 106 or the attachment 11 is connected, the detection means 22 detects it, and the opening / closing plate 167 connected to the solenoid 166 opens / closes in response to the detection signal to partially open and close the exhaust flow. Leaks out of the circulation passage to change the circulating air volume of the exhaust flow, secures the air volume required for cleaning each of the attached suction tool 106 or attachment 11, maintains cleaning performance, and efficiently cleans. Can be done.
[0065]
Further, in the above embodiment, the exhaust circulating air volume variable means 165 is composed of an opening / closing plate 167 connected to the solenoid 166 so that the opening / closing amount is simply opened / closed. It goes without saying that the same effect can be obtained with the configuration.
[0066]
【Effect of the invention】
According to the first aspect of the present invention, there is an effect that the cleaning performance and the cleaning efficiency can be improved as well as the noise reduction of the vacuum cleaner main body.
[0067]
According to the second aspect of the present invention, the detection means is provided at the connecting connection portion of the hose and the extension pipe, and a suction tool or a dedicated attachment is connected to the hose hand operation portion as well as the normal usage mode. Connection can be detected even when cleaning.
[0068]
According to the third aspect of the present invention, the switch is used as a detection means to output an ON / OFF signal, and the connected state of the suction tool can be detected inexpensively and accurately.
[0069]
According to the invention according to claim 4 of the present invention, an electric resistor having a variable electric resistance value is used as a detection means, and it is possible to discriminate not only a suction tool but also a type of a dedicated attachment.
[0070]
According to the invention according to claim 5 of the present invention, when the attachment is used, it is provided with a dedicated operation mode, which can be arbitrarily set by the user, and the usability can be improved.
[0071]
According to the invention of claim 6 of the present invention, the electric power of the electric blower is increased when the attachment is connected, and the decrease in the air volume due to the attachment connection is compensated for, and the air volume required for cleaning is secured for cleaning performance. Can be maintained and efficient cleaning can be performed.
[0072]
According to the invention according to claim 7 of the present invention, the electric power of the electric blower is increased when the suction tool is connected, and the air volume required for cleaning is secured to maintain the cleaning performance and efficient cleaning is performed. It can be carried out.
[0073]
According to the invention of claim 8 of the present invention, the vacuum cleaner main body including the electric blower, a hose connected to one end of the main body, and an extension pipe or a suction tool connected to the other end of the hose are provided. However, the vacuum cleaner body, hose, extension pipe, and suction tool each have an intake passage for intake air that is sucked into the electric blower and an exhaust passage for exhaust that is discharged from the electric blower, and at least one of the exhausts from the electric blower. An electric vacuum cleaner that recirculates a part to a suction tool, which is provided with any of the above claims 1 to 7 , and the exhaust discharged from the suction tool blows up dust on the surface to be cleaned, which is combined with the suction action. As a result, the dust collection performance can be improved, and since the exhaust is less discharged indoors, the noise due to the exhaust can be suppressed to a low level, and the noise can be further reduced.
[0074]
According to the invention according to claim 9 of the present invention, the circulating air volume of the exhaust gas is changed when the suction tool or the attachment is connected, and the air volume required for cleaning is secured to improve the cleaning performance. Can be maintained and cleaned efficiently.
[Simple explanation of drawings]
FIG. 1
FIG. 2 is a block diagram of a vacuum cleaner according to a first embodiment of the present invention.
Explanatory drawing using the micro switch of the vacuum cleaner as a detection means [FIG. 3]
Explanatory drawing using the electric resistor of the vacuum cleaner as a detection means [FIG. 4]
Explanatory drawing of power consumption setting of the vacuum cleaner [FIG. 5]
Explanatory drawing of power consumption setting of vacuum cleaner of the second embodiment [FIG. 6]
Explanatory drawing of power consumption setting of vacuum cleaner of the third embodiment [FIG. 7]
Explanatory drawing of power consumption setting of vacuum cleaner of the 4th Example [FIG. 8]
Explanatory drawing of power consumption setting of vacuum cleaner of the 5th Example [FIG. 9]
Explanatory drawing of power consumption setting of vacuum cleaner of the sixth embodiment [FIG. 10]
FIG. 11 is an overall cross-sectional view of the vacuum cleaner showing the seventh embodiment.
FIG. 12 is a cross-sectional view of the vacuum cleaner body of the electric vacuum cleaner.
FIG. 13 is a cross-sectional view of the front part of the vacuum cleaner body of the same vacuum cleaner.
FIG. 14 is a cross-sectional view of a grip tube of the vacuum cleaner.
FIG. 15 is a cross-sectional view of an extension pipe of the vacuum cleaner.
FIG. 16 is a cross-sectional view of a suction tool of the vacuum cleaner.
FIG. 17 is a cross-sectional view of a vacuum cleaner main body of the vacuum cleaner showing the eighth embodiment.
Overall perspective view of a conventional vacuum cleaner [FIG. 18]
Configuration diagram of the dust sensor [Explanation of symbols]
2 Electric blower 20 Electric blower Drive means 22 Detection means 23 Power setting means 24 Control means 27 Detection rib 28 Micro switch 29 Movable plate 30 Slide rib 31 Spring 32 Electric resistor 100 Vacuum cleaner body 106 Suction tool 107 Extension pipe 103 Hose 135 Intake Passage A
136 Exhaust passage A
138 First ventilation pipe 139 Second ventilation pipe 146 Conductor B
148 Locking recess (locked part)
165 Exhaust circulation air volume variable means 166 Solenoid 167 Open / close plate