CN104274125A - Intake port of electric cleaner and electric cleaner provided with same - Google Patents

Abstract

The utility model provides the intake port of an electric cleaner and an electric cleaner provided with the same. When the intake port is backed off, solid dusts at the back of the intake port can be inhaled into the intake port. When the intake port is advanced, dusts inhaled into the intake port from before are not discharged to the back of the intake port. The intake port of the electric cleaner comprises a first rotating sweeper with the rotational axis thereof substantially parallel to a sweeping surface; an inhale chamber used for supporting the above first rotating sweeper; and a second rotating sweeper arranged at the back of the first rotating sweeper, provided with an axis parallel to the above rotational axis and in contact with the above sweeping surface. A bristle body or an elastomer is arranged on the surface of the second rotating sweeper. The bristle body or the elastomer is in contact with one part of the intake port and is obliquely arranged in the circumferential direction. In this way, when the intake port is backed off, the second rotating sweeper is driven to rotate. When the intake port is advanced, the rotation of the second rotating sweeper is limited.

Description

The sucking mouth of electric dust collector and its electric dust collector of use

Technical field

The present invention relates to the sucking mouth of electric dust collector and use its electric dust collector.

Background technology

As prior art, motion has following technology: a kind of inhalation part (sucking mouth) of electric dust collector, it is provided with by the nylon loop roll body that dust suction face is freely rotated having the inhalation part main body of suction inlet (suction inlet main body), in the inhalation part of this electric dust collector, be provided with the action in a direction of the direction of rotation limiting above-mentioned nylon loop roll body, freely can carry out the arrestment mechanism (for example, referring to patent document 1) of the reciprocal action of direction of rotation.

Prior art document

Patent document

Patent document 1: Japan Patent No. 3268514 publication

Summary of the invention

Invent technical problem to be solved

But, the arrestment mechanism that patent document 1 is recorded is made up of wedge-like space and braked wheel, this wedge-like space is formed between the nylon loop roll body side face and relative wall of inhalation part main body (suction inlet main body), this braked wheel is configured in this wedge-like space, is present between above-mentioned nylon loop roll body side face and above-mentioned wall, the depths in this wedge-like space is embedded when the action in a direction of the direction of rotation of this nylon loop roll body, limit the action of this nylon loop roll body, therefore this arrestment mechanism is complicated.In addition, there is entering or silk thread winding etc. and hinder the action of braked wheel due to sand and dust etc., cause the problem that the braking function of nylon loop roll body suffers damage.Therefore there is following problem: when inhalation part (sucking mouth) retreats, the rotation of nylon loop roll body is limited, the dust at inhalation part (sucking mouth) rear is not collected, or nylon loop roll body rotates when inhalation part (sucking mouth) advances, the dust attracteding to suction inlet goes to the rear of nylon loop roll body.

The object of the invention is to, a kind of sucking mouth of electric dust collector is provided and uses its electric dust collector, with the action in a direction of the direction of rotation of simple structure restriction nylon loop roll body, allow the reciprocal action of direction of rotation, improve dust collecting performance when sucking mouth retreats thus.

For the technical scheme of technical solution problem

The present invention includes: first rotary cleaning body with the rotating shaft almost parallel with cleaning face; Support the suction chamber of above-mentioned first rotary cleaning body; With the second rotary cleaning body, it is arranged on the rear of above-mentioned first rotary cleaning body, there is the axle parallel with above-mentioned rotating shaft, contact with above-mentioned cleaning face, on the surface of this second rotary cleaning body, be provided with body brush or elastomer, this body brush or elastomer are arranged in the mode contacted with a part for this sucking mouth, and arrange obliquely at circumferencial direction, make to allow the spinning movement of above-mentioned second rotary cleaning body when the retrogressing of this sucking mouth and in the spinning movement of above-mentioned second rotary cleaning body of advance limit.

Invention effect

According to the present invention, structure can be provided simply, by the action in a direction of the direction of rotation of restriction nylon loop roll body, the reciprocal action of permission direction of rotation to improve the sucking mouth of the electric dust collector of dust collecting performance when sucking mouth retreats and use its electric dust collector.

Accompanying drawing explanation

Fig. 1 is the stereoscopic figure of the entirety of the electric dust collector representing embodiments of the present invention.

Fig. 2 is the figure above of the sucking mouth of embodiments of the present invention.

Fig. 3 be embodiments of the present invention sucking mouth below figure.

Fig. 4 is the figure above of the state after upper shell of taking off of the sucking mouth representing embodiments of the present invention.

Fig. 5 is the A-A sectional view of Fig. 2.

Fig. 6 is the B-B sectional view of Fig. 2.

Fig. 7 is the side view of the sucking mouth of the embodiments of the present invention of the state left from ground.

Fig. 8 is the side view with the sucking mouth of the embodiments of the present invention of the state of ground.

The side view of the sucking mouth of embodiments of the present invention when Fig. 9 is advance.

The side view of the sucking mouth of embodiments of the present invention when Figure 10 is retrogressing.

Figure 11 is the A-A sectional view of Fig. 2, is the enlarged drawing near the second rotary cleaning body.

Detailed description of the invention

Below, be suitably described embodiments of the present invention with reference to accompanying drawing, present embodiment is not limited to following content, can suitably carry out changing and implementing in the scope of purport of the present invention.

Fig. 1 is the stereoscopic figure of the entirety of the electric dust collector 1 representing embodiments of the present invention.As shown in Figure 1, electric dust collector 1 comprises main body of dust collector 2, hose sections 3, is provided with operation pipe 4, the extension tube 5 arranged elastically and the sucking mouth 6 of console switch SW etc. on hand.

Main body of dust collector 2 comprises the electric blower 2a producing attraction and the dust collecting part 2b etc. receiving the dust collected by the attraction of this electric blower 2a.In addition, in the present embodiment, be described for so-called cyclone type electric vacuum cleaner, but also can be applied to the electric dust collector of so-called paper bag type.

One end of hose sections 3, to be connected with the connector 2c of main body of dust collector 2 with the mode that the dust collecting part 2b of main body of dust collector 2 is communicated with.In addition, the other end of hose sections 3 is connected with one end of operation pipe 4.

Operation pipe 4 comprises: lever (grip) 4a being provided with console switch SW on hand etc.; With the not shown power supply terminal etc. being connected extension tube 5, be powered from main body of dust collector 2.The not shown energising terminal of the one end being arranged on extension tube 5 is connected with at this power supply terminal.

By operating etc. the SW of console switch on hand of operation pipe 4, can carry out the operation of electric blower 2a strong in weak switching and be arranged on the conducting disconnection etc. of the first rotary cleaning body 20 of sucking mouth 6.

Extension tube 5 is configured to: comprise outer tube 5a and interior pipe 5b, and an end of interior pipe 5b is inserted the other end of outer tube 5a and links, and makes to be arranged on outer tube 5a and is communicated with the not shown ventilation path of the inner side of interior pipe 5b, capable of expansion and contraction.In addition, Fig. 1 represents the state that extension tube 5 is the shortest.

Fig. 2 is the figure above of the sucking mouth 6 of embodiments of the present invention.

As shown in Figure 2, sucking mouth 6 to comprise when watching from upside in roughly T-shaped suction inlet housing 10 and the suction inlet connector 13 that links with suction inlet housing 10.

Suction inlet housing 10 comprises: time seen from above, the suction inlet main body 11 that left and right directions (width, the rotating shaft direction of the first rotary cleaning body 20 described later) is slenderly formed; Be arranged on the central portion of the length direction of suction inlet main body 11, the linking part 12 linked with suction inlet connector 13.At linking part 12, be formed with the stream R (with reference to Fig. 3) that suction inlet main body 11 is communicated with suction inlet connector 13.

In suction inlet main body 11, be provided with buffer unit (bumper) 11a from front end face to left and right side.Buffer unit 11a is formed by rubber or elastomer elastomeric material, keep the air-tightness in suction inlet main body 11 in use, and when playing that suction inlet main body 11 is collided with furniture etc. when using electric dust collector 1 (with reference to Fig. 1), prevent the damage of this furniture etc., and absorb the effect to the padded coaming of the impact of suction inlet main body 11.

Sucking mouth 6 is provided with lighting means 70 at the central portion of the length direction (left and right directions) of suction inlet main body 11.This lighting means 70 show selected by the SW of console switch on hand etc. of operation operation pipe 4, electric blower 2a operating strong in weak state (such as when strong operation for red, being orange when middle operations, is green during weak operation).

Suction inlet connector 13 comprises the first tube connector 14 rotatably linked with linking part 12 and the second tube connector 15 rotatably linked with this first tube connector 14.

First tube connector 14 above shown in Fig. 2 in figure in roughly half runway (half is oval) shape, have columnar axle 14a, this axle 14a has the stream of a part of opening linked with linking part 12.The axis of axle 14a is the length direction of suction inlet main body 11, and two ends of axle 14a are formed on the pair of bearings portion 12g of linking part 12 (with reference to Fig. 4) supporting.In addition, the first tube connector 14 is configured to turn to substantially vertical state from the state (in the vertical direction) almost parallel with ground (cleaning face).That is, by making the first tube connector 14 with axle 14a for fulcrum rotates relative to suction inlet housing 10, can make extension tube 5 the state almost parallel with ground and and the substantially vertical state in ground between rotate.

Second tube connector 15 is configured to can relative to (on the paper clockwise direction and counter clockwise direction of Fig. 2) rotation in the longitudinal direction of the first tube connector 14.Thus, such as can extension tube 5 be made to swing to the state almost parallel with ground from the state that extension tube 5 is substantially vertical with ground.

In addition, power supply terminal 15a, 15a of carrying out powering is provided with at the second tube connector 15.In addition, in the electric dust collector 1 (with reference to Fig. 1) of present embodiment, undertaken supplying the electric power of sucking mouth 6 from main body of dust collector 2 by hose sections 3, operation pipe 4, extension tube 5.

Such suction inlet connector 13, such as can in extension tube 5 (with reference to Fig. 1) state substantially vertical with ground, make this extension tube 5 in the lateral direction (length direction) topple over, operation pipe 4 (lever 4a) is made to reverse clockwise or counterclockwise thus, thus suction inlet main body 11 can be made to clockwise or counterclockwise either party roughly 90-degree rotation, make the length direction of suction inlet main body 11 become moving direction and clean.Clean therefore, it is possible to make sucking mouth 6 move along wall limit, or sucking mouth 6 is inserted narrow gap clean.

Fig. 3 is the figure above of the sucking mouth 6 of embodiments of the present invention.

As shown in Figure 3, sucking mouth 6 comprises the first rotary cleaning body 20 of general cylindrical shape and the second rotary cleaning body 30 of two general cylindrical shape.At suction inlet housing 10 (suction inlet main body 11), be formed with suction chamber Q2 at lower surface (face relative with cleaning face), this suction chamber Q2 has the opening portion becoming suction inlet.In addition, the quantity of the first rotary cleaning body 20 and the second rotary cleaning body is not limited thereto.

First rotary cleaning body 20 configures along the length direction (left and right directions) of suction inlet main body 11 in the front side of the connecting portion 12 of fore-and-aft direction, is supported by suction inlet main body 11 in the mode that can rotate.

In addition, the first rotary cleaning body 20 comprises wire diameter, density and hardness different multiple brush body 20a, 20b, the 20c such as body brush, elastomer, and each brush body 20a, 20b, 20c are relative to rotating shaft 21 (with reference to Fig. 6) helical form configuration.In addition, in the present embodiment, be illustrated for the situation being configured with three kinds of brush bodies 20a, 20b, 20c, but be not limited thereto, also can be less than two kinds, can also be more than four kinds, can also add the structure of the chip part helical form configuration be made up of rubber elastomeric material between the brush body of helical form configuration, can suitably change.

Second rotary cleaning body 30 is parts that diameter is less than the diameter of the first rotary cleaning body 20.Second rotary cleaning body 30 has body brush (nylon loop) 30b on surface.In the present embodiment, the second rotary cleaning body 30 has two, is configured in the rear of the first rotary cleaning body 20 in suction inlet main body 11 respectively, and the left and right directions of length direction (direction of principal axis of the first rotary cleaning body 20) in suction inlet main body 11.In other words, the second rotary cleaning body 30 is arranged in the both sides clipping stream R (with reference to Fig. 3) in suction inlet main body 11.Such as, can be arranged to: second rotary cleaning body 30 with the diameter of about 1/2nd of the diameter of the first rotary cleaning body 20, the axial length of the first rotary cleaning body 20 1/3 length formed, in suction inlet main body 11, two the second rotary cleaning bodies 30 are set in the both sides clipping stream R.

In addition, each second rotary cleaning body 30 has the axle 30a parallel with the rotating shaft 21 of the first rotary cleaning body 20.In the outside of the cylindrical shell 30e (with reference to Fig. 6) of the periphery of this axle 30a, be wound with relative to the rotating shaft direction helically of cylindrical shell 30e with body brush (nylon loop) 30b of cut pile (cut pile) shape of microfibre formation, the microfibre of this body brush (nylon loop) 30b tilts at circumferencial direction relative to cylindrical shell 30e.This body brush (nylon loop) 30b is arranged in the mode contacted with a part for sucking mouth 6, and arrange obliquely at circumferencial direction, make to allow the spinning movement of the second rotary cleaning body 30 when sucking mouth 6 retreats and in the spinning movement of above-mentioned second rotary cleaning body 30 of advance limit.At two end faces of cylindrical shell 30e, be fixed with holding member 30c, 30d.And this holding member 30c, 30d press the end of body brush (nylon loop) 30b reeled, and prevent from coming off, and double as the bearing into axle 30a.Axle 30a and cylindrical shell 30e is for roughly concentric circles and have gap, and cylindrical shell 30e and body brush (nylon loop) 30b be supported in the mode can rotated around axle 30a thus.Like this, not utilize motor to drive the second rotary cleaning body 30, but make the second rotary cleaning body 30 be supported in suction inlet main body 11 by axle 30a, by making the second rotary cleaning body 30 rotary actuation with the contact on ground, simplify the structure of the second rotary cleaning body 30 thus.Further, the microfibre of body brush (nylon loop) 30b limits the spinning movement in another direction mode to allow the spinning movement in a direction tilts at circumferencial direction relative to cylindrical shell 30e, therefore holding member 30c and 30d uses different colors, change shape etc., make to be mounted to rightabout mistakenly when the installation of sucking mouth 6, by the part corresponding with holding member 30c and 30d in suction inlet main body 11 is also correspondingly changed CF, make the installation direction of left and right clearly demarcated, can not install mistakenly.

In addition, the left and right width comprising second rotary cleaning body 30 of holding member 30c and 30d is shorter than the width L1 of the receiving room installing this second rotary cleaning body 30.Therefore, the second rotary cleaning body 30 has gap in left and right, can move left and right the amount corresponding to this gap along axle 30a.Thereby, it is possible to prevent the elongated dust such as the end of a thread, hair on the ground when cleaning to be wrapped on axle 30a, also can easily remove even if be wrapped on axle 30a.

In addition, at suction inlet housing 10, the lower surface of the linking part 12 of suction inlet housing 10 is provided with brush body driving switch 16, the rear (rear end of linking part 12) of brush body driving switch 16 is provided with wheel 17.

Brush body driving switch 16 is the switches whether lower surface detecting sucking mouth 6 contacts with cleaning face.Brush body driving switch 16 has wheel 16a, and this wheel 16a is always arranged from the mode that the lower surface of suction inlet housing 10 (linking part 12) is outstanding to utilize the force application mechanisms such as spring.During detecting that wheel 16a stretches out, not with earth surface, stopped the driving of motor 40 by circuit substrate 50 (control substrate) described later.In addition, during detecting that wheel 16a is pressed into, with earth surface, by circuit substrate 50 drive motor 40.

Wheel 17 is subject to the stress of the movable and rotation process operated by operation pipe 4, the bottom surface of sucking mouth 6 and cleaning face is close to, has the effect of the operating characteristics improving sucking mouth 6 thus.

Fig. 4 is the figure above of the state of taking off the upper shell 11B representing sucking mouth 6.

As shown in Figure 4, sucking mouth 6, above the first rotary cleaning body 20 and a pair second rotary cleaning bodies 30, is provided with the motor 40 of driving first rotary cleaning body 20 and controls the circuit substrate 50 of motor 40.

Motor 40 is arranged on the end side of the length direction of suction inlet main body 11.In addition, motor 40 configures in its output shaft 40a (with reference to Fig. 5) mode parallel with the length direction of suction inlet main body 11.In addition, the output shaft 40a of motor 40 extends to the end side of length direction, an end (end on illustrated right side) in suction inlet main body 11, the rotating shaft 21 (with reference to Fig. 5) via cog belt (toothed belt) 40b and the first rotary cleaning body 20 links.

Cover 43 has flexible insulating element with synthetic rubber etc. and is formed, and utilize the elasticity of this cover 43 that the end side of motor 40 is supported on receiving room Q1, therefore the vibration of motor 40 is not easily passed to suction inlet housing 10.

Circuit substrate 50 is arranged on another side of the length direction of suction inlet main body 11.In addition, circuit substrate 50 is made up of the rectangular substrate configured towards the mode of length direction with long limit, is configured in suction inlet main body 11 in the mode of installed surface 50a above vertical.In addition, installed surface 50a is not limited to, above vertical, also to tilt relative to horizontal direction, can also be towards the mode of fore-and-aft direction (longitudinal direction).

Fig. 5 is the A-A sectional view of Fig. 2.

As shown in Figure 5, the mode that the suction inlet main body 11 of suction inlet housing 10 comprises covering the first rotary cleaning body 20 forms the lower house 11A of lower part and covers the upper shell 11B on top of lower house 11A.The critical piece comprising this lower house 11A, the suction inlet housing 10 of upper shell 11B and above-mentioned suction inlet connector 13 with light weight and the synthetic resin materials such as the material of hard such as ABS resin formed, rigidity is improved.

Lower house 11A has the partition wall 11c of the receiving room Q1 of suction chamber Q2 and the storage motor 40 marking off configuration first rotary cleaning body 20.Partition wall 11c has the bend 11d that the surface along the first rotary cleaning body 20 is formed and the bend 11e formed along the surface of the second rotary cleaning body 30, and bend 11d and bend 11e is formed continuously.In addition, bend 11d extends to the roughly leading section of the first rotary cleaning body 20 in the sectional views.Bend 11e to extend to compared with the rearward end of the second rotary cleaning body 30 side more rearward in the sectional views and compared with axle 30a the position of side more rearward.

Upper shell 11B has: form with linking part 12, covers the main part 11f on the top of motor 40 and circuit substrate 50 (with reference to Fig. 4); And cap 11g stacked with the outside of this main part 11f.Cap 11g configures throughout two ends in the front portion of upper shell 11B and left and right (with reference to Fig. 2).In the present embodiment, buffer unit 11a is by being sandwiched by lower house 11A and upper shell 11B (cap 11g) and be kept.

First rotary cleaning body 20 is embedded with core components 22 outside rotating shaft 21, and this core components 22 helically keeps brush body 20a, 20b, 20c.By like this brush body 20a, 20b, 20c being configured to helical form, when the first rotary cleaning body 20 rotates, brush body 20a, 20b, 20c can be made to meet ground M (with reference to Fig. 8) continuously, the vibration during action of the first rotary cleaning body 20 can be suppressed.

Second rotary cleaning body 30 is provided with across cylindrical shell 30e body brush (nylon loop) 30b that cross section is circular at axle 30a, is configured in the position do not contacted with the first rotary cleaning body 20 in suction inlet main body 11.By like this in the scope making the second rotary cleaning body 30 not contact with the first rotary cleaning body 20, make the first rotary cleaning body 20 and the second rotary cleaning body 30 close to greatest extent, the front and back width D of suction inlet main body 11 (with reference to Fig. 2) can be made to shorten, the miniaturized lightweight of sucking mouth 6 can be realized.

The cross section of the stator 41 of motor 40 (profile in the cross section orthogonal with output shaft 40a, circle serial section) is in substantially elliptical (little sentence (a kind of Japanese gold coin) shape).Stator 41 comprises a pair arc sections 41a and links a pair line part 41b of this arc sections 41a.In addition, motor 40 is not limited to substantially elliptical, can also be circular.

In addition, the posture that motor 40 tilts relative to the axle Z1 of vertical with line part 41b at receiving room Q1, namely with an arc sections 41a towards front upper place and another arc sections 41a be contained towards the mode of the back lower place.

In addition, motor 40 is configured at receiving room Q1, and the leading section 41s of motor 40 (stator 41) is positioned at position closer to the front compared with the rearward end 20s of the first rotary cleaning body 20.Thereby, it is possible to make the distance from the rearward end 20s of the first rotary cleaning body 20 to the motor 40 projecting to rear shorten, the front and back width D of suction inlet main body 11 (with reference to Fig. 2) can be made to shorten.

In addition, motor 40 is configured at receiving room Q1, and the bottom 41t of motor 40 (stator 41) is positioned at compared with the upper end 20t of the first rotary cleaning body 20 more by the position of the below of vertical.Thereby, it is possible to make the distance from the upper end 20t of the first rotary cleaning body 20 to the motor 40 projecting to top shorten, height (maximum height) step-down from cleaning face of suction inlet main body 11 can be made.Consequently, easily suction inlet main body 11 can be inserted sofa or the low gap of bed equal altitudes.

In the inside of stator 41, armature 44 is rotatably supported.In the inner circumferential of stator 41, be installed with exciting shape at two magnets 45 for tiles across interval in the circumferential.That is, the motor 40 of present embodiment is the number of groove is 7, be provided with the motor of 2 pole 7 grooves of two magnets 45.In addition, the quantity of above-mentioned groove is not limited to 7, also can be set as other number (such as 8).

In addition, the upper shell 11B of suction inlet main body 11 have near arc sections 41a and near line part 41b roughly along the shape of arc sections 41a and line part 41b.In addition, the lower house 11A of suction inlet main body 11 has at the rear of the first rotary cleaning body 20 from the receiving room Q1 be made up of lower house 11A and the upper shell 11B bending gabarit wall 11h extended downwards.This gabarit wall 11h extends along the curved surface (surface) of the second rotary cleaning body 30, and the mode dropping to the general height position of the axle 30a of the second rotary cleaning body 30 with the bottom 11h1 of gabarit wall 11h extends.

Fig. 6 is the B-B sectional view of Fig. 2.

As shown in Figure 6, circuit substrate 50, at receiving room Q1, configures in the mode that installed surface to become in vertical (above-below direction) upwards.That is, circuit substrate 50 is not configured in the rear of the first rotary cleaning body 20, and is configured in the position of more top side compared with the upper end 20t of the first rotary cleaning body 20.In addition, circuit substrate 50 is fixed by not shown detent mechanism or screw thread, and the mode do not offset to make position is fixed in suction inlet main body 11.In addition, in the present embodiment, be illustrated for the situation that circuit substrate 50 is flatly configured, but also can adopt circuit substrate 50 to be equivalent to the structure of the state configuration of horizontal direction inclination, to make the mode of installed surface towards fore-and-aft direction of circuit substrate 50, circuit substrate 50 can also be configured with the state erected.

Second rotary cleaning body 30 cylindrical shell 30e outer helical shape be wound with body brush (nylon loop) 30b of cut pile shape formed with microfibre, the microfibre of this body brush (nylon loop) 30b tilts at circumferencial direction relative to cylindrical shell 30e.At two end faces of cylindrical shell 30e, be fixed with holding member 30c, 30d.This holding member 30c, 30d are used for and prevent the end of reeled nylon loop 30b from coming off and carrying out axle supporting to axle 30a.The front end of this nylon loop 30b has the bristle height with the surface contact of partition wall bend 11e.Therefore, although when the second rotary cleaning body 30 rotates, frictional resistance is produced between body brush (nylon loop) 30b and the surface of partition wall bend 11e, but because microfibre tilts at circumferencial direction relative to cylindrical shell 30e, so frictional resistance is little on direction of rotation W2, can freely rotate, but on direction of rotation W3, frictional resistance is large, almost becomes lock-out state.Namely, body brush (nylon loop) 30b is arranged in the mode contacted with partition wall bend 11e, and arrange obliquely at circumferencial direction, make to allow the second rotary cleaning body 30 to the spinning movement of direction of rotation W2 when sucking mouth 6 retreats and in the spinning movement of above-mentioned second rotary cleaning body 30 of advance limit to direction of rotation W3.

In addition, owing to being wound with body brush (nylon loop) 30b equably on the complete cycle direction of axle 30a, so the air-tightness of suction chamber Q2 easily can be kept, and the noise that spills from suction chamber Q2 can be reduced and produce noise by the air-flow flow through in gap.

In addition, as shown in Figure 3, the second rotary cleaning body 30 has gap in left and right, when sucking mouth 6 contacts to clean with ground M, adsorbed by central portion due to attraction, move in the mode in the gap blocking the fast center side of flow velocity, therefore, it is possible to suppress the noise spilt.

Fig. 7 is the side view of the state that the sucking mouth of embodiments of the present invention is left from ground.

As shown in Figure 7, when sucking mouth 6 does not contact with ground M, the bottom 20u of the first rotary cleaning body 20 is positioned at compared with the bottom 30u of the second rotary cleaning body 30 more by the position of the below of vertical.In addition, the wheel 16a being arranged at the lower surface of connecting portion 12 gives prominence to, and brush body driving switch 16 disconnects, and the action of the first rotary cleaning body 20 stops.

Fig. 8 is the side view of the sucking mouth of embodiments of the present invention and the state of earth surface.

As shown in Figure 8, when sucking mouth 6 contacts with ground M, wheel 16a is pressed into, brush body driving switch 16 conducting, and the first rotary cleaning body 20 rotates to W1 direction (illustrated counter clockwise direction).Now, brush body 20a, 20b, the 20c in the region contacted with ground M bend, therefore, it is possible to guarantee the Exposure of brush body 20a, 20b, 20c and ground M fully, the dust of ground M can be swept effectively.

Equally, because the second rotary cleaning body 30 contacts with ground M, body brush (nylon loop) 30b in the region contacted with ground M bends, therefore, it is possible to guarantee the contact resistance of body brush (nylon loop) 30b and ground M fully.

Fig. 9 is the side view of the state that the sucking mouth 6 of embodiments of the present invention retreats.

As shown in Figure 9, body brush (nylon loop) 30b of the second rotary cleaning body 30 is less than the contact resistance of body brush (nylon loop) 30b and ground M with the contact resistance of partition wall bend 11e, therefore the second rotary cleaning body 30 rotates to the direction of rotation shown in W3, is imported in suction chamber Q2 by dust DS on the ground.The dust DS be imported into is transported to the path of suction inlet connector 13 by stream R (with reference to Fig. 3) from suction chamber Q2 (with reference to Fig. 6), afterwards, the dust collecting part 2b (with reference to Fig. 1) of main body of dust collector 2 is attracted to by extension tube 5, operation pipe 4 and hose sections 3.Pass through in the never illustrated filter of air after being removed dust by dust collecting part 2b and electric blower 2a, be discharged to the outside (with reference to Fig. 1) of main body of dust collector 2.

Figure 10 is the side view of the state that the sucking mouth 6 of embodiments of the present invention advances.

As shown in Figure 10, body brush (nylon loop) 30b of the second rotary cleaning body 30 is larger than the contact resistance of body brush (nylon loop) 30b and ground M with the contact resistance of partition wall bend 11e, therefore non rotating, can prevent the dust be attracted in suction chamber Q2 to be swept out rear to suction inlet main body 11.The rotation due to the first rotary cleaning body 20 particularly can be suppressed to be attracted to dust bullet in suction chamber Q2 rearward, to fly out to the rear of suction inlet main body 11.

The dust DS be attracted is transported to the path of suction inlet connector 13 by stream R (with reference to Fig. 3) from suction chamber Q2 (with reference to Fig. 6), afterwards, the dust collecting part 2b (with reference to Fig. 1) of main body of dust collector 2 is attracted to by extension tube 5, operation pipe 4 and hose sections 3.Pass through in the never illustrated filter of air after being removed dust by dust collecting part 2b and electric blower 2a, be discharged to the outside (with reference to Fig. 1) of main body of dust collector 2.

Like this, according to the present embodiment, the second rotary cleaning body 30 connected with ground M is provided with at the rear of the first rotary cleaning body, thus, when making sucking mouth 6 retreat (when sucking mouth 6 is pulled back), second rotary cleaning body 30 rotates due to the contact resistance with ground M, the dust at the rear of suction inlet main body 11 can be sucked in suction chamber Q2 thus.

In addition, when making sucking mouth 6 advance (when sucking mouth 6 is pushed away forward), because the rotation of the second rotary cleaning body 30 is limited, so can prevent from being swept out rear to suction inlet main body 11 by the first rotary cleaning body 20 dust swept in suction chamber Q2.

In addition, according to the present embodiment, do not need to arrange the mechanism of movable part as the direction of rotation of restriction second rotary cleaning body 30, therefore structure is simple.In addition, the possibility causing limitation function to suffer damage due to entering of sand and dust etc. is also little.

In addition, in the present embodiment, the front end of body brush (nylon loop) 30b of the second rotary cleaning body 30 has the bristle height with the whole surface contact of partition wall bend 11e, but whole surface contact that is non-essential and partition wall bend 11e, such as shown in figure 11, in the inner side of partition wall bend 11e, the projection 35a that cross sectional shape is general triangular is set, 35b, 35c, bristle height is set in the mode of the front end in contact making these projections and body brush (nylon loop) 30b, thus, at direction of rotation W2, frictional resistance is little, almost freely rotate, but at direction of rotation W3, frictional resistance is large, almost become lock-out state.

Further describe, the rotary driving force of the second rotary cleaning body 30 is the frictional force of body brush (nylon loop) 30b and ground M, and the rotation brake power of the second rotary cleaning body 30 is the frictional force of body brush (nylon loop) 30b and projection 35a, 35b, 35c.The microfibre of nylon loop 30b tilts in a circumferential direction relative to cylindrical shell 30e, and its incline direction is rearward go from the front of sucking mouth 6 in the position of body brush (nylon loop) 30b and ground.Therefore, when making sucking mouth 6 advance, the frictional force i.e. rotary driving force of the second rotary cleaning body 30 of nylon loop 30b and ground M diminishes, the frictional force i.e. rotation brake power of the second rotary cleaning body 30 of body brush (nylon loop) 30b and projection 35a, 35b, 35c becomes greatly, and the rotation of the second rotary cleaning body 30 is limited.Otherwise, when making sucking mouth 6 retreat, the frictional force i.e. rotary driving force of the second rotary cleaning body 30 of nylon loop 30b and ground M becomes large, the frictional force i.e. rotation brake power of the second rotary cleaning body 30 of body brush (nylon loop) 30b and projection 35a, 35b, 35c diminishes, and the second rotary cleaning body 30 rotates.

In addition, in the present embodiment, describe when the direction of rotation of the second rotary cleaning body 30 is W3, almost become the situation of lock-out state, but non-essential locking, as long as under the state of advancing at sucking mouth 6, the rotation of the second rotary cleaning body 30 is slack-off compared with time free, just can prevent from being swept out rear to suction inlet main body 11 by the first rotary cleaning body 20 dust swept in suction chamber Q2.

In addition, in the present embodiment, the surface of the second rotary cleaning body 30 is provided with body brush (nylon loop) 30b, body brush (nylon loop) 30b is arranged in the mode contacted with a part for sucking mouth 6, and be set to tilt in a circumferential direction, make to allow spinning movement and in the spinning movement of advance limit when sucking mouth 6 retreats, but be not limited thereto.As long as play the rotation limiting a direction when rotated, the parts allowing the effect of the rotation in another direction, installation method with simple structure.The body brush of present embodiment (nylon loop) 30b is such as made to be that elastomer also can obtain above-mentioned effect.

According to present embodiment described above, can with simple structure, advance time make the second rotary cleaning body 30 almost regularly with earth surface, therefore, it is possible to make the dust sucked from front not easily be expelled to the rear of the second rotary cleaning body 30, and, when retreating, the second rotary cleaning body 30 rotates, and by the conveyance of the dust at the rear of sucking mouth 6 to suction chamber Q2, can suppress the not thorough of dust suction.In addition, in the present embodiment, be illustrated to use first rotary cleaning body with to the situation that this first rotary cleaning body carries out the motor of rotary actuation, but the attraction utilizing the electric blower 2a of main body of dust collector 2 to produce drives the first rotary cleaning body or does not arrange the first rotary cleaning body and also can obtain identical effect.

The explanation of Reference numeral

1 electric dust collector

2 main body of dust collector

2a electric blower

2b dust collecting part

6 sucking mouths

10 suction inlet housings

11c, 11e, 11h partition wall

20 first rotary cleaning bodies

30 second rotary cleaning bodies

30a rotating shaft

30b nylon loop

30c, 30d holding member

40 motor

50 circuit substrates (circuit substrate)

35a, 35b, 35c projection

M ground (cleaning face)

Q2 suction chamber

Q1 receiving room

Claims (5)

1. a sucking mouth for electric dust collector, is characterized in that, comprising:

There is the first rotary cleaning body of the rotating shaft almost parallel with cleaning face;

Support the suction chamber of described first rotary cleaning body; With

Second rotary cleaning body, it is arranged on the rear of described first rotary cleaning body, has the axle parallel with described rotating shaft, contacts with described cleaning face,

The surface of this second rotary cleaning body is provided with body brush or elastomer,

This body brush or elastomer are arranged in the mode contacted with a part for this sucking mouth, and arrange obliquely at circumferencial direction, make the spinning movement allowing described second rotary cleaning body when this sucking mouth retreats, and the spinning movement of the second rotary cleaning body described in advance limit.

2. the sucking mouth of electric dust collector as claimed in claim 1, is characterized in that:

Described body brush or elastomer are arranged to, and compared with rotational resistance when retreating with making described sucking mouth, rotational resistance when described sucking mouth is advanced is large.

3. the sucking mouth of electric dust collector as claimed in claim 1, is characterized in that:

Described body brush or elastomer are arranged to, and allow rotation when described sucking mouth is retreated, and stop rotation when described sucking mouth is advanced.

4. the sucking mouth of the electric dust collector according to any one of claims 1 to 3, is characterized in that:

Two ends color and/or shape difference between the two parts of left and right of described second rotary cleaning body.

5. an electric dust collector, is characterized in that, comprising:

There is the main body of dust collector of the electric blower producing attraction and the dust collecting part of collecting dust; And the sucking mouth of the electric dust collector according to any one of Claims 1 to 4 to be connected with this main body of dust collector.