CN108289580A - Stick vacuums - Google Patents

Abstract

Stick vacuums have：Rotary configured (S) can be such that inhalation apparatus (30) is rotated relative to main body, so that length direction (ZA) of the length direction (ZD) of inhalation apparatus (30) along main body；And locking mechanism (50), rotation of the inhalation apparatus (30) relative to main body is locked in the state of length direction (ZA) of the length direction (ZD) of inhalation apparatus (30) along main body.Thereby, it is possible to provide a kind of stick vacuums with the inhalation apparatus (30) that can be swept narrower space and can be accommodated in narrower space.

Description

Stick vacuums

Technical field

The present invention relates to a kind of stick vacuums that can be stored with upright state.

Background technology

In general, stick vacuums have the shape of lengthwise.Therefore, stick vacuums can be accommodated in be formed with upright state In in the narrow space of the living spaces such as living room (referring for example to patent document 1).

That is, in stick vacuums, storage property is important element.Therefore, stick vacuums are preferably provided with energy The construction being enough accommodated in narrower space.

Existing technical literature

Patent document

Patent document 1：Japanese Unexamined Patent Publication 2010-125193 bulletins

Invention content

The stick vacuums of the present invention at least have：Main body；Inhalation apparatus is connect with main body；It is rotary configured, it can Inhalation apparatus is set to be rotated relative to main body, so that length direction of the length direction of inhalation apparatus along main body；And locking machine Structure locks rotation of the inhalation apparatus relative to main body in the state of length direction of the length direction of inhalation apparatus along main body Turn.

The stick vacuums that can be easily accommodated in narrow space are provided as a result,.

Description of the drawings

Fig. 1 is the side view of the stick vacuums of present embodiment.

Fig. 2 is the front view of the stick vacuums of Fig. 1.

Fig. 3 is the stereogram of the inhalation apparatus unit of Fig. 1.

Fig. 4 is the upward view of the inhalation apparatus unit of Fig. 3.

Fig. 5 is the sectional view of the inhalation apparatus unit of Fig. 3.

Fig. 6 is the 6-6 sectional views of Fig. 5.

Fig. 7 is to indicate that inhalation apparatus and connecting piece have carried out the sectional view of the state of relative rotation from state shown in fig. 6.

Fig. 8 is to indicate that inhalation apparatus and connecting piece have carried out the sectional view of the state of relative rotation from state shown in Fig. 7.

Fig. 9 is the 9-9 sectional views of Fig. 4.

Figure 10 be indicate from state shown in Fig. 9 make gate open after state sectional view.

Figure 11 is the front view for indicating the state by the setting of inhalation apparatus unit on the ground.

Figure 12 is the side view for the 1st state for indicating inhalation apparatus.

Figure 13 is the side view for the 2nd state for indicating inhalation apparatus.

Figure 14 is the side view for the 3rd state for indicating inhalation apparatus.

Figure 15 is the sectional view for the test section of the latch-release state for indicating inhalation apparatus.

Figure 16 is the locking mechanism of Figure 15 and its enlarged drawing on periphery.

Figure 17 is the sectional view for the lock-out state for indicating inhalation apparatus.

Figure 18 is the locking mechanism of Figure 17 and its enlarged drawing on periphery.

Figure 19 is the front view for the receiving state for indicating stick vacuums.

Specific implementation mode

Hereinafter, being described with reference to present embodiment.In addition, present embodiment does not limit the present invention.

(embodiment)

Hereinafter, illustrating the stick vacuums (being also referred to as sometimes below " dust catcher ") of present embodiment referring to Figures 1 and 2 Structure.

Fig. 1 is the side view of the dust catcher 1 of present embodiment.Fig. 2 is the front view of the dust catcher 1 of Fig. 1.

As shown in Figure 1, the dust catcher 1 of present embodiment includes main body 10 and inhalation apparatus unit 20.

Main body 10 includes shell 11, lever 12, extension tube 60, pump unit 70, collecting unit of dust 80, disposal box 90 and electricity Pool unit 100 etc..Shell 11 and extension tube 60 have elongated shape.The one end of extension tube 60 connects with the one end of shell 11 It connects.Inhalation apparatus unit 20 is connect with the other end of extension tube 60.In addition, shell 11 and the length direction of extension tube 60 are by scheming It is provided as longitudinal ZA of the length direction of dust catcher 1 shown in 1.In addition, the direction vertical with the paper of Fig. 1 is by width direction ZB is provided.

Lever 12 is mounted on the other end of shell 11.User holds lever 12 and operates dust catcher 1.

Pump unit 70, collecting unit of dust 80, disposal box 90 and battery unit 100 are installed at the back side of shell 11. On longitudinal ZA, disposal box 90, collecting unit of dust 80, pump unit 70 and battery unit 100 each unit from 60 side of extension tube according to It is secondary to be arranged.At this point, length direction and the dust suction of pump unit 70, collecting unit of dust 80, disposal box 90 and battery unit 100 Longitudinal ZA of device 1 is parallelly configured.

The shell 71 of pump unit 70, the shell 81 of collecting unit of dust 80, the shell 91 of disposal box 90 and battery unit 100 Shell 101 outer diameter it is roughly equal (also include equal situation).The outer diameter provides the width direction ZB of main body 10 most Large scale (hereinafter referred to as " maximum width of main body 10 ").

Pump unit 70 has electric blower 72 in inside.Electric blower 72 generates the suction for suctioning dirt Power.Collecting unit of dust 80 is for example made of the dust collect plant of centrifugation formula, makes the dust and air that are aspirated using pump unit 70 Separation.Disposal box 90 is stored by 80 compressed dust of collecting unit of dust.Battery unit 100 is single to inhalation apparatus unit 20 and suction The electric blower 72 of member 70 supplies electric power.

In addition, in terms of the front of dust catcher 1 shown in Fig. 2, the direction orthogonal with longitudinal ZA of dust catcher 1 is dust catcher 1 Width direction ZB.

The size of shell 11 and the width direction ZB of extension tube 60 are roughly equal (also including equal situation).In addition, taking out Inhale unit 70, collecting unit of dust 80, disposal box 90 and battery unit 100 the size of width direction ZB roughly equal (also include Equal situation).The size of the size ratio shell 11 of the width direction ZB of each unit and the width direction ZB of extension tube 60 Greatly.

The dust catcher 1 of present embodiment is constituted in the above described manner.

Hereinafter, illustrating the structure of inhalation apparatus unit 20 with reference to Fig. 2~Fig. 6.

Fig. 3 is the stereogram of the inhalation apparatus unit 20 of Fig. 1.Fig. 4 is the upward view of the inhalation apparatus unit 20 of Fig. 3.Fig. 5 It is the sectional view of the inhalation apparatus unit 20 of Fig. 3.Fig. 6 is the 6-6 sectional views of Fig. 5.

As shown in Figure 3 and Figure 4, inhalation apparatus unit 20 includes inhalation apparatus 30 and connecting piece 40.Inhalation apparatus 30 includes Shell 31, gate 32, rotating brush 33 and roller 34 etc..In addition, as shown in Fig. 2, the size of the length direction ZD of inhalation apparatus 30 The size of the width direction ZB of such as pump unit 70 of 10 maximum width is big based on being compared to.

As shown in figure 4, shell 31 has the suction inlet 31Q for becoming opening in bottom surface 31P.Rotating brush 33 is configured at suction inlet 31Q.Gate 32 is located at the part of the front side of shell 31 in a manner of it can be moved relative to shell 31.Gate 32 opens as a result, Or the part of the front side of closing of housing 31.When the part of the front side of shell 31 is opened, suction inlet 31Q is in shell 31 Front side also becomes opening (referring to Fig.1 0).

Roller 34 is located at the front surface of gate 32, and along the length direction ZD rotations of inhalation apparatus 30.When in roller 34 and wall Or make under the contiguous state such as ground inhalation apparatus 30 in the width direction ZB movement in the case of, can make inhalation apparatus 30 carry out Smoothly move.

Rotating brush 33 includes base material 33a, multiple 1st hairbrush 33b and multiple 2nd hairbrush 33c.Base material 33a is with can be into Row is supported relative to the state of the rotation of shell 31 by shell 31.Multiple 1st hairbrush 33b and multiple 2nd hairbrush 33c are in base material The periphery of 33a circumferentially alternately plants.Length directions of the 1st hairbrush 33b in base material 33a (is equivalent to the length of inhalation apparatus 30 Spend direction ZD) on there is no the state in gap implanting in base material 33a.Multiple 2nd hairbrush 33c contain along base material 33a's respectively Length direction is spaced apart multiple unit brush 33d of certain interval implanting.It is formed with and can supply between adjacent unit brush 33d as a result, The gap 33e that air successfully circulates.Therefore, in the state of opening gate 32, the air in the front of shell 31 via Gap 33e is flowed into shell 31.In this case, the case where not forming gap 33e is less than to the resistance of the air of inflow.As a result, The suction force of inhalation apparatus unit 20 improves.As a result, can with less power efficient dust.

In addition, connecting piece 40 links with extension tube 60 shown in Fig. 2.As shown in figure 5, inhalation apparatus 30 can be around as connection 1st axis JX1 of the center of rotation axis of pipe 40 is rotatably linked to connecting piece 40 relative to connecting piece 40.

Therefore, dust catcher 1 can take multiple forms with the rotation of inhalation apparatus 30.Hereinafter, with reference to Fig. 6~Fig. 8, Figure 13~Figure 19 illustrates multiple forms, such as contains the 1st form, the 2nd form and the 3rd form.

1st form is the 1st morphogenetic form of shape taken by inhalation apparatus 30 for cleaning ground FL.Such as Fig. 2 Shown, the 1st state is the length direction ZD of inhalation apparatus 30 state parallel with the width direction ZB of dust catcher 1.

2nd form be during dust catcher 1 is from the 1st form to 3 metamorphosis after when by 30 institute of inhalation apparatus The 2nd morphogenetic form of shape taken.As shown in figure 13, the 2nd state is the length side of the inhalation apparatus 30 in side view dust catcher 1 The state orthogonal with longitudinal ZA of dust catcher 1 to ZD.Therefore, on the ground for cleaning such close clearance between such as furniture and furniture In the case of the FL of face, the 2nd form is taken.

3rd form be by dust catcher 1 configuration pallet etc. it is scheduled storage place in the case of use by inhalator The 3rd morphogenetic form of shape that tool 30 is taken.As shown in figure 19, inhalation apparatus when the 3rd state is in terms of the front of dust catcher 1 The state that 30 length direction ZD is configured along longitudinal ZA of main body 10.

In addition, as shown in figure 5, inhalation apparatus 30 further includes nozzle-type motor 35 and rotation control unit 36 etc..Nozzle-type Motor 35 and rotation control unit 36 are accommodated in shell 31.Nozzle-type motor 35 from battery unit 100 (referring to Fig.1) by supplying The electric drive given makes rotating brush 33 rotate.

Shell 31 includes communicating pipe 31a and supporting part 31b.Communicating pipe 31a becomes the suction of opening to be communicated in bottom surface 31P The mode of entrance 31Q is located in shell 31.Part bearing in the insertion shell 31 of connecting piece 40 is by supporting part 31b being capable of phase Inhalation apparatus 30 is rotated.

Connecting piece 40 includes the 1st connecting piece 41, the 2nd connecting piece 42 and limiting unit 43 etc..1st connecting piece 41 is configured in shell In body 31, and link with communicating pipe 31a.1st connecting piece 41 has flange 41a in periphery.Flange 41a is accommodated in supporting part 31b. 2nd connecting piece 42 is connected to extension tube 60 with the state that cannot be rotated relative to extension tube 60 (referring to Fig.1).

The interconnecting piece 40X of 1st connecting piece 41 and the 2nd connecting piece 42 is made of ball-and-socket joint.Interconnecting piece 40X at least contains edge The 2nd axis JX2 for the width direction ZB of dust catcher 1 is used as center of rotation axis.

Limiting unit 43 is installed on shell 31 in a manner of covering a part of interconnecting piece 40X.Limiting unit 43 is by the 1st connecting piece 41 and the 2nd connecting piece 42 is limited to be rotated around the axis in addition to the 2nd axis JX2.1st connecting piece, 41 He as a result, 2nd connecting piece 42 is only around the 2nd axis JX2 relative rotation.

Inhalation apparatus unit 20 also has rotary configured S.Rotary configured S makes inhalation apparatus 30 be rotated relative to main body 10, So that longitudinal ZAs of the length direction ZD of inhalation apparatus 30 along main body 10 (with reference to Fig. 2).

Rotary configured S contains the 1st rotary configured S1 and the 2nd rotary configured S2.1st rotary configured S1 make inhalation apparatus 30 around 1st axis JX1 is rotated relative to connecting piece 40.2nd rotary configured S2 makes inhalation apparatus 30 around the 2nd axis JX2 relative to connection Pipe 40 rotates.In addition, interconnecting piece 40X structures of the 2nd rotary configured S2 by limiting unit 43 and the 1st connecting piece 41 and the 2nd connecting piece 42 At.

In the case of vertical view inhalation apparatus 30 shown in Fig. 5, the 1st axis JX1 is along orthogonal with length direction ZD orthogonal Direction ZE is configured.Specifically, the 1st axis JX1 configurations are in the central and height side of the length direction ZD of such as inhalation apparatus 30 To the position in the center of ZF (thickness direction).

On the other hand, in the case of from the front shown in Fig. 2 from main body 10, the 2nd axis JX2 ZB in the width direction Configuration.Position of the 2nd axis JX2 configurations in the center of the short transverse ZF of such as inhalation apparatus 30.

Connecting piece 40 also has locking mechanism 50.It is opposite with the 2nd connecting piece 42 that locking mechanism 50 locks the 1st connecting piece 41 Rotation.That is, locking mechanism 50 can take the locking solution that can make the 1st connecting piece 41 and 42 relative rotation of the 2nd connecting piece Except state and make the not revolvable lock-out state of the two.

Locking mechanism 50 is containing being formed in the protruding portion 51 of the 2nd connecting piece 42 and be formed in the protrusion 52 of limiting unit 43. Also, constitute lock-out state and test section of the latch-release state according to whether protruding portion 51 and protrusion 52 are chimeric.

The inhalation apparatus unit 20 of present embodiment is constituted in the above described manner.

Hereinafter, illustrate with reference to Fig. 6~Fig. 8 the 1st rotary configured S1 of the rotary configured S of inhalation apparatus unit 20 structure and Action.

First, the structure of the 1st rotary configured S1 is illustrated.

1st rotary configured S1 is made of the rotation control unit 36 including piston 36a and elastic component 36b.Rotation control unit 36 control rotation around the 1st axis JX1, that inhalation apparatus 30 is relative to connecting piece 40.Piston 36a is can be along the length of shell 31 It is configured in shell 31 in a manner of being contacted with the flange 41a of the 1st connecting piece 41 in the state of direction ZD movements.Elastic component 36b is configured in a manner of applying the active force for pushing piston 36a to flange 41a in shell 31.In addition, elastic component 36b Such as illustrate helical spring.Flange 41a is for example formed as quadrangle.

Flange 41a has in 2 adjacent corners towards bearing in the opposite side of the piston 36a contacted with flange 41a Portion 31b protrusion 41b outstanding.

Supporting part 31b contains is located at piston 36a's on the length direction ZD of inhalation apparatus 30 relative to the 1st axis JX1 The wall portion 31c of such as arc-shaped of opposite side.

The 1st rotary configured S1 of rotary configured S is constituted in the above described manner.

Next, the action of the 1st rotary configured S1 of explanation.

As shown in fig. 6, first, in the case where inhalation apparatus 30 is 1 state, the piston 36a's of rotation control unit 36 The entirety of top surface 36aa is pushed on the 1st side 41d of flange 41a.It is formed in a protrusion 41b in the corner of flange 41a as a result, It is pushed on the wall portion 31c of supporting part 31b.Therefore, between flange 41a and piston 36a and flange 41a and wall portion 31c it Between generate frictional force.For the power for wanting to make 41 relative rotation of inhalation apparatus 30 and the 1st connecting piece, resistance of the frictional force as the power Power plays a role.As a result, inhalation apparatus 30 is easy to keep the 1st state.

Then, in the case where being applied with the power for making inhalation apparatus 30 and the 1st connecting piece 41 be rotated, inhalation apparatus 30 With 40 relative rotation of connecting piece.Flange 41a and the contact position of piston 36a change as a result,.At this point, in inhalation apparatus 30 Rotation angle be less than scheduled angle in the case of, the active force generated by the elastic component 36b of rotation control unit 36 so that The mode of the rotation position of inhalation apparatus 30 back to the rotation position of the 1st state is acted on.Therefore, in general, even if user Torque is not applied to inhalation apparatus 30 and connecting piece 40, inhalation apparatus 30 can also return to the 1st state.In addition, rotation angle is Using the 1st state of inhalation apparatus 30 as the rotation angle of the inhalation apparatus 30 in the case of benchmark.In addition, scheduled angle is 45°。

Then, as shown in fig. 7, when the rotation angle of inhalation apparatus 30 reaches scheduled angle (45 °), piston 36a's Top surface 36aa is contacted with the top 41e of flange 41a.Piston 36a becomes and is utmostly squeezed to the sides elastic component 36b as a result, State.When making the rotation angle of inhalation apparatus 30 further increase from the state, 40 phase of inhalation apparatus 30 and connecting piece To rotation.The 2nd side 41f of the top surface 36aa and flange 41a of piston 36a are contacted as a result,.

Then, as shown in figure 8, when the rotation angle of inhalation apparatus 30 reaches maximum angle, the top surface of piston 36a The entirety of 36aa is pushed on the 2nd side 41f of flange 41a.In addition, maximum angle is 90 °.As a result, inhalation apparatus 30 at For the 2nd above-mentioned state.At this point, another protrusion 41b for being formed in the corner of flange 41a is abutted with the side 36ab of piston 36a. Therefore, inhalation apparatus 30 and the 1st connecting piece 41 can not be rotated along the direction that the rotation angle of inhalation apparatus 30 further increases.

In addition, the rotation angle in inhalation apparatus 30 is more than scheduled angle (45 °) and is less than maximum angle (90 °) In the case of, the active force of the elastic component 36b of rotation control unit 36 so that inhalation apparatus 30 close to the rotation position of the 2nd state Mode is acted on.Therefore, can be rotated if even if not applying torque inhalation apparatus 30 to inhalation apparatus 30 and connecting piece 40 and to 2nd state change.As a result, obtaining higher operability.

The 1st rotary configured S1 of rotary configured S is acted in the manner described above.

Hereinafter, illustrating the action of dust catcher 1 with reference to Fig. 9~Figure 11 and Figure 19.

First, as shown in figure 9, in the case where the dust catcher 1 of the 1st form will be taken to be used for the cleaning of ground FL, sucking The part in the front of 32 closing of housing 31 of gate of utensil 30.

When dust catcher 1 from the state as illustrated in fig. 10 close to wall surface WS when, gate 32 is pushed on wall surface WS.By This, gate 32 is lifted by front relative to shell 31 and is moved in a manner of rotating backward, the front of open shells 31 Part.Therefore, air is also flowed into from the front side of shell 31 in shell 31.As a result, being easy to being present in by ground FL and wall The dust for the corner C that face WS is constituted is aspirated.

In addition, in the case of the cleaning in the space for the close clearance being used for dust catcher 1 between such as furniture and furniture, As shown in figure 11, dust catcher 1 becomes the 2nd form.

Under the 2nd form, the gate 32 of inhalation apparatus 30 is pushed on ground FL first.In this case, with the 1st form Equally, gate 32 moves and the part in the front of open shells 31 relative to shell 31.Therefore, air is also from the front of shell 31 Side flows into shell 31.As a result, the dust being easy on the ground FL between the gap being present in furniture aspirates.

In addition, in the case of the scheduled storage place such as such as pallet, as shown in figure 19, being inhaled by the configuration of dust catcher 1 Dirt device 1 becomes the 3rd form.

Under the 3rd form, from the front of dust catcher 1, inhalation apparatus 30 is configured to length direction ZD along main body 10 Longitudinal ZA.The width direction ZB of dust catcher 1 under the 1st form of size ratio of the length direction ZD of inhalation apparatus 30 as a result, Size is small.Therefore, dust catcher 1 can be accommodated in narrower space.In addition, the size ratio of the short transverse ZF of inhalation apparatus 30 The maximum width of main body 10 is narrow.Therefore, dust catcher 1 can be accommodated in further narrower space.

Dust catcher 1 is acted in the above described manner.

Hereinafter, the step of 2~Figure 14 illustrates that the form of dust catcher 1 is made to become 3 form from the 1st form referring to Fig.1.

As shown in figure 12, first, make to take the inhalation apparatus 30 of the 1st state being represented by dashed line around the 2nd under the 1st form Axis JX2 is rotated along direction of rotation R shown in figure.At this point, keeping the rotation of inhalation apparatus 30 orthogonal to inhalation apparatus 30 Direction ZE is parallel with longitudinal ZA of main body 10 (with reference to Fig. 5).

Then, inhalation apparatus 30 is made to be rotated around the 1st axis JX1 direction of rotation W1 shown in Figure 12.As a result, as schemed Shown in 13, inhalation apparatus 30 becomes the 2nd state.

Then, inhalation apparatus 30 is made to be rotated around the 2nd axis JX2 direction of rotation R1 shown in Figure 13.At this point, as schemed Shown in 14, inhalation apparatus 30, which rotates to be, makes the length direction ZD of inhalation apparatus 30 along longitudinal ZA of main body 10.Inhalator as a result, Tool 30 becomes the 3rd state shown in Figure 19.

Dust catcher 1 completes the change from the 1st form to the 3rd form using above action.

Hereinafter, illustrating the state of locking mechanism corresponding with above-mentioned each form of inhalation apparatus 30 50.

First, 5 and Figure 16 illustrates locking machine of the inhalation apparatus 30 from the 2nd state to the process of the 3rd state change referring to Fig.1 The state of structure 50.

Figure 15 indicates the state of inhalation apparatus 30 from the 2nd state to 30 He of inhalation apparatus during the 3rd state change The relationship of connecting piece 40.Figure 16 is the enlarged drawing for the state for indicating the locking mechanism 50 under the state.

As shown in Figure 15 and Figure 16, during inhalation apparatus 30 is from the 2nd state to 3 state change, locking is constituted The protrusion 52 of mechanism 50 and protruding portion 51 not hooking.Therefore, in the periphery of the end 41c and the 2nd connecting piece 42 of the 1st connecting piece 41 It is formed with clearance G between the 42a of face.Locking mechanism 50 is maintained as test section of the latch-release state as a result,.

Next, illustrating that inhalation apparatus 30 is the state of the locking mechanism 50 under the 3rd state referring to Figure 17 and Figure 18.

Figure 17 indicate inhalation apparatus 30 take the 3rd state in the case of inhalation apparatus 30 and connecting piece 40 relationship.Figure 18 be the enlarged drawing for the state for indicating the locking mechanism 50 under the state.

In the case where inhalation apparatus 30 is 3 state, as shown in Figure 17 and Figure 18, the protrusion 52 of locking mechanism 50 is constituted With 51 hooking of protruding portion.Inhalation apparatus 30 and connecting piece 40 are restricted around the 2nd axis JX2 to the rotation of a side as a result,.

In this condition, the end 41c of the 1st connecting piece 41 is contacted with the peripheral surface 42a of the 2nd connecting piece 42.It inhales as a result, The rotation to another party around the 2nd axis JX2 for entering utensil 30 and connecting piece 40 is also restrained.

The state that inhalation apparatus 30 is locked by locking mechanism 50 is formed as a result,.

Therefore, it in the case of dust catcher 1 is accommodated in pallet etc. in the locked state, even if dust catcher 1 is made to move, inhales Entering utensil 30 will not rotate relative to main body 10.Workability when storing dust catcher 1 as a result, is improved.

(variation)

In said embodiment, an example of the form that stick vacuums can use is illustrated, but the present invention is not It is defined in the embodiment.

That is, the stick vacuums of present embodiment are in addition to the embodiment, moreover it is possible to use for example following institute The variation for the embodiment shown and the form that will be obtained after mutually reconcilable at least two variation combination.

Specifically, as by the position of the inhalation apparatus 30 of the maximum width constriction of dust catcher 1, with being configured to for Figure 19 Example is illustrated, but the present invention is not limited to the configurations.For example, it is also possible to configure inhalation apparatus 30 at the back side of main body 10 Side and the lower section of disposal box 90.In this case, also can with the configuration of inhalation apparatus shown in Figure 19 the case where in the same manner as constriction The maximum width of dust catcher 1.

In addition, the structure of the locking mechanism of locking inhalation apparatus 30 can arbitrarily change.For example, dust catcher 1 can also It is the structure that locking mechanism 50 is substituted with following locking mechanism, that is, in the case where inhalation apparatus 30 is 3 state, Inhalation apparatus 30 is fixed on to the locking mechanism of extension tube 60.The locking mechanism can also utilize for example set on inhalation apparatus 30 Magnet and set on extension tube 60 magnet magnetic force fix inhalation apparatus 30 structure.In addition it is also possible to be to make inhalation apparatus 30 part is chimeric each other with a part for extension tube 60 and fixes the structure of inhalation apparatus 30.

As described above, the stick vacuums of the present invention have：It is rotary configured, inhalation apparatus can be made to be revolved relative to main body Turn, so that length direction of the length direction of inhalation apparatus along main body；And locking mechanism, in the length side of inhalation apparatus Rotation of the inhalation apparatus relative to main body is locked in the state of to the length direction along main body.

Using the structure, inhalation apparatus length direction along the length direction of main body state when, stick vacuums The size of width direction when viewed from the front shorten.Stick vacuums can be accommodated in narrower space as a result,.Separately Outside, in this condition, the rotation of locking mechanism locking inhalation apparatus can be utilized.Work when stick vacuums is stored as a result, Industry is improved.

In addition, the present invention stick vacuums can also be, inhalation apparatus length direction along main body length side In the state of, the height of inhalation apparatus is identical as the maximum width of main body or narrower than maximum width.Dust catcher can be received as a result, It is contained in further narrower space.

In addition, the present invention stick vacuums can also be, it is rotary configured containing：1st is rotary configured, makes inhalation apparatus It is rotated around 1st axis orthogonal with the length direction of the short transverse of inhalation apparatus and inhalation apparatus；And the 2nd rotation structure It makes, 2nd axis orthogonal with the length direction of main body is rotated when inhalation apparatus being made to be wound on from the front of main body.By This, is easy to aspirate the dust on the ground FL in gap equal being present in furniture.

In addition, the stick vacuums of the present invention can also be, in the length direction that the 1st state is inhalation apparatus along the 2nd In the case of the state of the state of axis, the length direction that the 2nd state is inhalation apparatus and the 2nd axis vertical take-off, with the 1st state On the basis of inhalation apparatus rotation angle be less than scheduled angle when so that the rotation position of inhalation apparatus is close to the 1st state Under rotation position mode to inhalation apparatus applied force.Also, the stick vacuums of the present invention can also be, and also have rotation Control unit, the rotation control unit is when the rotation angle of inhalation apparatus is scheduled angle or more, so that the rotation of inhalation apparatus The mode of the rotation position under the 2nd state is located proximate to inhalation apparatus applied force.Even if as a result, user not to inhalation apparatus and Connecting piece applies torque, also so that inhalation apparatus is back to the 1st state.

Industrial availability

The present invention can apply in the various stick vacuums of home-use and work use etc..

Reference sign

1, dust catcher (stick vacuums)；10, main body；11, shell；12, lever；20, inhalation apparatus unit；30, it sucks Utensil；31,71,81,91,101, shell；31a, communicating pipe；31b, supporting part；31c, wall portion；31P, bottom surface；31Q, suction inlet； 32, gate；33, rotating brush；33a, base material；33b, the 1st hairbrush；33c, the 2nd hairbrush；33d, unit brush；33e, G, gap；34、 Roller；35, nozzle-type motor；36, rotation control unit；36a, piston；36aa, top surface；36ab, side；36b, elastic component； 40, connecting piece；40X, interconnecting piece；41, the 1st connecting piece；41a, flange；41b, protrusion；41c, end；41d, the 1st side；41e、 Top；41f, the 2nd side；42, the 2nd connecting piece；42a, peripheral surface；43, limiting unit；50, locking mechanism；51, protruding portion；52、 Protrusion；60, extension tube；70, pump unit；72, electric blower；80, collecting unit of dust；90, disposal box；100, battery unit； FL, ground；R, R1, W1, direction of rotation；S, rotary configured；It is S1, the 1st rotary configured；It is S2, the 2nd rotary configured；JX1, the 1st axis Line；JX2, the 2nd axis；ZA, longitudinal direction (length direction of main body)；ZB, width direction；ZD, length direction；ZE, orthogonal direction； ZF, short transverse；WS, wall surface；C, corner.

Claims (4)

1. a kind of stick vacuums, wherein

The stick vacuums have：

It is rotary configured, inhalation apparatus can be made to be rotated relative to main body, so that the length direction of the inhalation apparatus is along institute State the length direction of main body；And

Locking mechanism, in the state of length direction of the length direction of the inhalation apparatus along the main body described in locking Rotation of the inhalation apparatus relative to the main body.

2. stick vacuums according to claim 1, wherein

In the state of length direction of the length direction of the inhalation apparatus along the main body, the height of the inhalation apparatus It is identical as the maximum width of the main body or narrower than the maximum width.

3. stick vacuums according to claim 1 or 2, wherein

It is described it is rotary configured containing：

1st is rotary configured, makes the inhalation apparatus around the length of short transverse and the inhalation apparatus with the inhalation apparatus The 1st orthogonal axis of degree direction is rotated；And

2nd is rotary configured, when the inhalation apparatus being made to be wound on from the front of the main body and length side of the main body It is rotated to the 2nd orthogonal axis.

4. stick vacuums according to claim 3, wherein

The stick vacuums also have rotation control unit,

Along state, the 2nd state of the 2nd axis it is the sucking in the length direction that the 1st state is the inhalation apparatus In the case of the state of the length direction of utensil and the 2nd axis vertical take-off,

When the rotation angle of inhalation apparatus on the basis of by 1 state is less than scheduled angle, the rotation control Portion processed by make the rotation position of the inhalation apparatus close to the rotation position under the 1st state in a manner of to the inhalation apparatus Applied force,

When the rotation angle of the inhalation apparatus is the scheduled angle or more, the rotation control unit is so that the sucking The rotation position of utensil close to the rotation position under the 2nd state mode to the inhalation apparatus applied force.