KR20100114067A - Electric vacuum cleaner - Google Patents

Abstract

The electric blower 11 is supported with respect to the body case 5 by the leaf springs 45 and 45 of the leaf spring groups 46a and 46b disposed at different positions in the axial direction. The leaf springs 45 of the leaf spring groups 46a and 46b are arranged so as to shift from each other in the circumferential direction of the electric blower 11. By deformation of each leaf spring 45, the vibration at the different position of the axial direction accompanying the drive of the electric blower 11 can be suppressed, and the axial shake of the electric blower 11 can be suppressed effectively. have.

Description

Electric vacuum cleaner {ELECTRIC VACUUM CLEANER}

The present invention relates to an electric vacuum cleaner for elastically supporting an electric blower by an elastic member.

Conventionally, this kind of electric vacuum cleaner includes a vacuum cleaner body housed in a blower chamber as a storage chamber formed by an electric blower having a centrifugal fan and a motor for rotating the centrifugal fan back and forth. The electric blower is held in such a manner that the outer circumferential surface of the motor side is fitted from the upper side and the lower side by a pair of leaf springs arranged opposite to each other, and is elastically supported with respect to the main body case, so that vibration of the electric blower is almost applied to the main body case. It cannot be delivered (see Patent Document 1).

[Patent Document 1] Japanese Patent Application Laid-Open No. 4-193143

In the above-described electric vacuum cleaner, vibration and the like in the radial direction (up and down and left and right directions) accompanying the drive of the electric blower are elastically supported by the leaf spring.

However, since the centrifugal fan side rotated by this motor is vibrated more than the motor side, run-out of the rotating shaft, that is, shaft shake occurs, and such an axial shake can be sufficiently absorbed in the above configuration. none.

The present invention has been made in view of the above problems, and an object thereof is to provide an electric vacuum cleaner capable of effectively suppressing axial shaking of the electric blower.

In the present invention, the plurality of elastic member groups formed along at least a portion of the outer periphery of the electric blower and each provided with a pair of elastic members supporting the main body case at positions opposing the electric blower are each an electric blower. Are disposed at different positions in the axial direction of the pair of elastic members spaced apart from each other at approximately equal intervals in the circumferential direction of the electric blower.

Moreover, the electric vacuum cleaner of this invention is the 1st coil spring group which is located between an electric blower and a cover body, and is provided with the 1st coil spring group which has a plurality of 1st coil springs which elastically support an electric blower with respect to a cover body, and a cover body and a main body case. A second coil spring group positioned between and having a plurality of second coil springs that elastically support the electric blower with respect to the body case, wherein the first coil spring and the second coil spring are circumferential of the electric blower; It is arrange | positioned mutually in the direction.

According to the present invention, a plurality of elastic member groups for supporting the electric blower with respect to the main body case are arranged at different positions in the axial direction of the electric blower so that the elastic members of each elastic member group are approximately equal in the circumferential direction of the electric blower. Since they are spaced apart from each other at intervals, vibrations at different positions in the axial direction can be suppressed, and axial shaking of the electric blower can be effectively suppressed.

Further, according to the present invention, the electric blower, in which the electric blower is supported by the first coil spring group with respect to the cover body, is supported by the second coil spring group with respect to the body case, and the first coil spring of the first coil spring group. The second coil springs of the second coil spring group and the second coil spring group are arranged to be offset from each other in the circumferential direction of the electric blower, whereby vibrations accompanying driving of the electric blower can be effectively absorbed by each coil spring group, and the shaft of the electric blower Directional shake can be effectively suppressed.

BRIEF DESCRIPTION OF THE DRAWINGS It is a longitudinal cross-sectional view which shows the electric vacuum cleaner of 1st Embodiment of this invention.
2 is a cross-sectional view showing the rear side of one elastic member group of the electric vacuum cleaner.
3 is a cross-sectional view showing the front side of the other elastic member group of the electric vacuum cleaner.
It is explanatory drawing which shows the action | action of the elastic member group of an electric vacuum cleaner.
5 is a perspective view illustrating an electric vacuum cleaner.
It is a longitudinal cross-sectional view which shows the electric vacuum cleaner of 2nd Embodiment of this invention.
7 is a cross sectional view showing a rear side of one elastic member group of an electric vacuum cleaner.
8 is a cross sectional view showing a rear side of another elastic member group of the electric vacuum cleaner.
9 is a cross sectional view showing a front side of another elastic member group of the electric vacuum cleaner.
It is a longitudinal cross-sectional view which shows the principal part of the electric vacuum cleaner of 3rd Embodiment of this invention.
11 is a cross-sectional view showing the main part of the electric vacuum cleaner.
It is a longitudinal cross-sectional view which shows the principal part of the electric vacuum cleaner of 4th Embodiment of this invention.
It is a longitudinal cross-sectional view which shows the principal part of the electric vacuum cleaner of 5th Embodiment of this invention.
It is a longitudinal cross-sectional view which shows the principal part of the electric vacuum cleaner of 6th Embodiment of this invention.

EMBODIMENT OF THE INVENTION Hereinafter, the electric vacuum cleaner of 1st Embodiment of this invention is demonstrated with reference to FIGS.

1 to 5, reference numeral 1 denotes a vacuum cleaner body, and this vacuum cleaner body 1 is a so-called canister type electric vacuum cleaner capable of traveling on the bottom surface as a surface to be cleaned.

The vacuum cleaner main body 1 includes a lower case 2 having an upper side opened, an upper case 3 facing the upper side of the rear part of the lower case 2 and covering the upper side of the rear part, and a lower case 2. It includes a body case (5) having a lid (4, lid body) capable of opening and closing the front side of the front. The main body case 5 is provided with a ventilation chamber 6 as a storage chamber between the lower case 2 and the upper case 3, and a house (not shown) between the lower case 2 and the cover 4. The truth is provided, and the partition 8 is provided between the blowing chamber 6 and the dust collecting chamber so that both of them are partitioned from each other.

A substantially cylindrical electric blower 11 is accommodated in the blower chamber 6 in a substantially horizontal shape so that the axial direction of the electric blower 11 corresponds to the front-rear direction, and the electric blower 11 has a lower case 2. ) And the upper case 3 are space portions provided to be hermetically attached to each other by screws or the like through a seal packing (not shown). In addition, the blower chamber 6 communicates with the outside of the main body case 5 through an exhaust hole 12 bored in the rear portion of the upper case 3. Moreover, the cord reel room which accommodates the cord reel which wound the power cord 13 which can supply electric power to the electric blower 11 from the exterior is provided in the side of this blowing chamber 6.

Here, the power cord 13 may be derived from the cord reel chamber through the cord outlet opening at the rear of the lower case 2.

On the other hand, a dust collecting part such as a paper pack or a cyclone dust collecting device is detachable to the dust collecting chamber. In addition, the main body suction port 21 is bored to the lid 4 at the front of the dust collecting chamber. The hose body 22 is detachably attached to this main body suction port 21, and the handle operation part 23 is provided in the front-end | tip of this hose body 22. As shown in FIG. The grip operation part 23 protrudes in the handle operation part 23, and the setting part 26 which the operator sets the operation mode etc. of the electric blower 11 is provided in this grip part 25 in multiple numbers. Is installed. In addition, an extension pipe 28 and a bottom brush 29 as a suction port are sequentially connected to the distal end of the handle operating portion 23.

The partition 8 has a rear partition 31 located at the rear part on the ventilation chamber 6 side, a front partition wall (not shown) located at the front part on the dust collecting chamber side, and the front partition wall continuously. The side partition 33 interposed as a partition between the air blowing chamber 6 and the cord reel chamber is included. At the rear portion of the front partition wall, a driving portion for operating various mechanisms (not shown) in the vacuum cleaner body 1 is attached.

The rear partition wall 31 is bored with a round hole-shaped rear communication hole 37, the front partition wall is bored with a round front communication hole, and the rear communication hole 37 and the front communication hole are It is hermetically connected to each other by a duct (not shown).

The electric blower 11 is hermetically connected to the rear part of the rear part communication hole 37. Further, a filter (not shown) is disposed on the front side side, which is the dust collecting chamber side of the front communication hole.

The side partition 33 is provided with a communication port (not shown) which communicates the blowing chamber 6 and the cord reel chamber.

The upper part of the rear partition 31, the front partition, and the side partition 33 is maintained between these upper portions and the upper case 3 and functions as an airtight partition between the blower chamber 6, the dust collecting chamber and the cord reel chamber. A packing (not shown) that is a seal ring member is attached.

As shown in Figs. 1 to 3, the electric blower 11 is a heavy object as an electric blower 41 which is a fan motor and a relatively lightweight cover body which covers and holds at least a part of the electric blower 41. A plurality of, for example, three cylindrical cylinder covers, which are holding members, and the electric blower 41 are elastically supported with respect to the motor cover 42 to attenuate the rotational vibration of the electric blower 41. A coil spring group 44 which is an internal support unit with a coil spring 43. The electric blower 11 is a plurality of, for example, two outer support units (first outer support unit and second outer support unit) each having, for example, leaf springs 45 and 45 as a pair of elastic members. It is elastically supported with respect to the main body case 5 by the leaf | plate spring group 46 as an elastic member group comprised from the said.

The electric blower 41 has a motor frame 47 as a case body and the frame 47 is a cylindrical shape having a bottom shape. The electric blower 41 is fitted to the front side which is an opening side of the motor frame 47, and the motor frame ( A fan cover 48 having a substantially cylindrical shape having a diameter larger than 47) is held in the motor cover 42 while aligning the axial directions of the electric blower 41 and the motor cover 42 corresponding to each other. A coil spring group 44 is formed around the motor frame 47 of the electric blower 41, and an inner circumferential spring support 51 and an outer circumferential spring support 52, each of which is a spring receiving ring as a coil spring receiving portion, A coil spring 43 is held between the spring supports 51 and 52, and the electric blower 41 is elastically supported with respect to the motor cover 42.

The motor frame 47 houses a motor 55 as an actuator as a driving source. The rotating shaft 56 of this motor 55 is covered by the fan cover 48 and is connected with the centrifugal fan 57 which is a rotor blade, and is comprised so that this centrifugal fan 57 may rotate.

Further, on the circumferential surface of the rear side of the motor frame 47, a plurality of rectangular exhaust ports 61 are bored by being spaced at substantially equal intervals from each other in the circumferential direction, and bored between the exhaust ports 61 (shown) (Not shown) brush mechanism portions electrically connected to the commutator of the motor 55 are respectively attached to the mounting holes (not shown).

In addition, the inlet port 66 is bored at the center of the fan cover 48.

The electric blower 41 sucks air from the inlet port 66 by the centrifugal fan 57 which is rotated by the motor 55, and the sucked air is introduced into the motor frame 47 through the exhaust port 61. By exhausting from the outside, negative pressure can be applied to the duct, the dust collecting chamber, the hose body 22 (FIG. 5), the extension pipe 28 (FIG. 5), the bottom brush 29 (FIG. 5), and the like.

The inner circumferential side spring support 51 is made of, for example, a synthetic resin or metal, and is formed in a shape according to the outer circumference of the motor frame 47, for example, in an annular shape. Keep 41. The inner circumferential side spring support 51 is provided on the motor frame 47 in the axial direction of the support 51 corresponding to the axial direction of the electric blower 41, and the support 51 in the front-rear direction (axial direction). ) Is located near the front end of the motor frame 47 and located behind the fan cover 48, which is a position corresponding to the center of gravity G of the electric blower 41. In addition, since the center of gravity of the electric blower 41 substantially coincides with the center of gravity of the electric blower 11 in consideration of the weight difference between the electric blower 41 and the motor cover 42, the center of gravity ( G) shows both the electric blower 41 and the electric blower 11. In addition, the position corresponding to the center of gravity G is the position which intersects the plane orthogonal to the axial direction of the electric blower 11 (electric blower 41) including the center of gravity G below, or its intersection The position of the vicinity of the axial direction back and forth of the electric blower 11 (electric blower 41) with respect to a position is shown. Further, on the outer circumferential side of the inner circumferential side spring support 51, a plurality of, for example, three inner circumferential spring holding portions 71 as inner circumferential coil spring holding portions holding one end of each coil spring 43 are formed.

The inner circumferential spring holding portion 71 has a cylindrical inner circumferential holding cylindrical portion 71a for fitting one end portion of the coil spring 43 to the inner circumferential side, and protrudes radially from the inner circumferential holding cylindrical portion 71a and coils. An inner circumferential protruding holding portion 7lb inserted into the spring 43 to hold the coil spring 43, and substantially equal to each other in the circumferential direction of the inner circumferential spring support 51, that is, 120 in the present embodiment. Spaced apart by °. One of the inner circumferential spring holders 71 is located at the bottom of the electric blower 41, and the remaining holders 71 are located at both sides of the blower top.

Further, the state where the inner circumferential spring holder 71 is shifted by 120 ° from each other in the circumferential direction includes a state that is shifted by approximately 120 ° from each other.

Similarly, the numerical value which prescribes the angle of each part hereafter contains not only the numerical value but a numerical value before and behind the numerical value.

On the other hand, the outer circumferential side spring support 52 is made of, for example, a synthetic resin or metal, and is formed in a shape that matches the inner circumference of the motor cover 42, for example, in an annular shape having a diameter larger than that of the inner circumferential side spring support 51. It is arrange | positioned concentrically with the inner peripheral side spring support body 51, and is located in the motor cover 42 side. Therefore, this outer peripheral side spring support body 52 is also located in the position corresponding to the center of gravity G of the center area | region of the support body 52 in the front-back direction (axial direction). That is, the outer circumferential side spring support 52 includes a center of gravity G at a position where a plane orthogonal to the axial direction of the electric blower 11 (electric blower 41) and a portion of the support 52 cross each other. Is placed. Further, the outer circumferential spring retainer as the outer circumferential coil spring retainer which holds the other end of each coil spring 43 along the inner circumferential spring retainer 71 of the inner circumferential spring support 51 on the inner circumferential side of the outer circumferential side spring support 52. The portion 73 is formed.

The outer circumferential spring holding portion 73 protrudes in a radial direction from the outer circumferential holding cylindrical portion 73a having a cylindrical shape for attaching one end of the coil spring 43 to the inner circumferential side, and the coil spring It includes an outer circumferential protruding holding portion 73b inserted into the 43 to hold the coil spring 43. One of the outer spring holders 73 is located at the bottom of the electric blower 41, and the remaining holders 73 are located at both sides of the upper blower.

Thus, the coil springs 43 are provided radially with respect to the electric blower 41 between the spring supports 51, 52, and are spaced at substantially equal intervals (almost the same angle) from each other. That is, one end of each coil spring 43 on the side of the electric blower 41 is held by each inner circumferential spring holding part 71 of the inner circumferential side spring support 51 toward the center of gravity G or the central axis, and the other end thereof. Is held by each outer circumferential spring holding portion 73 of the outer circumferential side spring support 52. For this reason, the coil spring group 44 is provided in the position corresponding to the center of gravity G of the electric blower 11 (electric blower 41), ie, it weighs inside the outer side of the coil spring group 44. The center G is provided to be located. The coil spring 43 is arranged in a Y-shape with respect to the electric blower 41, which is shifted by 120 ° from each other in the circumferential direction when the electric blower 11 is viewed from the axial direction. That is, the coil spring group 44 is arrange | positioned in the position which at least one part intersects the plane orthogonal to the axial direction of the electric blower 11 (electric blower 41) including the center of gravity G. As shown in FIG.

On the other hand, the motor cover 42 has a front portion motor cover 75 as a first cylindrical cover having a substantially cylindrical shape, and a rear portion as a second cylindrical cover having a substantially cylindrical shape connected to a rear portion of the front portion motor cover 75. The sub motor cover 76 is provided. That is, the motor cover 42 can be assembled and disassembled in the axial direction (thrust direction) of the electric blower 11. The motor cover 42 houses the electric blower 41 coaxially therein.

The front motor cover 75 is formed of, for example, a synthetic resin, and has a substantially disk-shaped front plate 81 serving as a cover part on the front side, and a front extending rearward from the outer peripheral edge of the front plate 81. A secondary peripheral wall 82 is provided. A rounded front communication opening 83 that is a communication opening that communicates the rear communication hole 37 of the main body case 5 and the intake port 66 of the electric blower 41 to the substantially center portion of the front plate 81. Is formed. Therefore, the rear end of the front motor cover 75 is opened.

Packing as a seal ring member for hermetically connecting the rear communication hole 37 communicating with the dust collecting chamber of the main body case 5 and the intake port 66 of the electric blower 41 which is the negative pressure side of the electric blower 11 to be airtight. A substantially cylindrical seal ring 88 is provided at the lateral position of the front communication opening 83 and between the rear partition 31 and the front plate 81. The seal ring 88 is formed in a substantially cylindrical shape by a member having elasticity such as rubber or elastomer, for example, and elastically deformed in the axial direction by vibration in the axial direction of the electric blower 11, It functions as a vibration damping part which attenuates this vibration so that this vibration will not be transmitted to the main body case 5 through the partition part 8.

Further, the seal ring 88 is pressed slightly forward, with the electric blower 11 stopped, that is, the front portion of the seal ring 88 is the rear surface of the rear partition wall 31 of the partition wall 8. It is attached to the pressure slightly.

On the other hand, the rear motor cover 76 is formed of a synthetic resin or the like, for example, and has a substantially disc-shaped rear plate 91 serving as a cover portion on the rear side, and a rear portion extending forward from the outer peripheral portion of the rear plate 91. The secondary peripheral wall 92 and the flange portion 93 extending in the radial direction from the outer peripheral edge of the rear peripheral wall 92 are provided. This flange portion 93 is connected to the rear end of the front portion peripheral wall 82 of the front portion motor cover 75 by, for example, screwing.

In the rear portion of the rear plate 91, a motor cushion 95 as a cushion member, which is a cushioning member, is provided. The motor cushion 95 opposes the rear part of the lower case 2 at a predetermined gap, and comes into contact with the lower case 2 when the electric blower 11 moves rearward due to vibration, for example. I'll transform it. Therefore, it is difficult to absorb the shock at the time of contact and transmit it to the lower case 2 side or the electric blower 11 side.

A rear communication opening 97 for exhausting air after passing through the electric blower 41 to the outside of the motor cover 42 is opened at the lower portion of the rear peripheral wall 92.

The flange part 93 is provided with the screw hole (not shown) for screwing in several places. By screwing a screw (not shown) in the screw hole, the front motor cover 75 and the rear motor cover 76 are fixed to each other.

Each leaf spring 45 has a curved portion 45a curved in an arc shape, continuous portions 45b and 45b continuous to both ends of the curved portion 45a, and support portions 45c continuous to the continuous portions 45b and 45b. 45c), and the predetermined metal member is appropriately curved.

The curved part 45a is formed in the shape which conforms to a part of the outer periphery of the motor cover 42 (front motor cover 75 and rear motor cover 76) which are outer peripheries of the electric blower 11.

Each continuous part 45b protrudes substantially linearly from the edge part of the curved part 45a to the protruding side and the same side of this curved part 45a.

Each support part 45c is bent at the curved part 45a side with respect to each continuous part 45b, and extends in substantially orthogonal direction with respect to each continuous part 45b.

Each curved portion 45a is held between the blower side ribs 98, 98 protruding on the outer circumference of the motor cover 42 (front motor cover 75, rear motor cover 76), and each continuous portion. 45b and each support part 45c are hold | maintained between the main body side ribs 99 and 99 which protruded into the inner wall of the ventilation chamber 6 of the main body case 5, and are taken to the front-back direction of each leaf spring 45. As shown in FIG. Movement is regulated.

In addition, one side of the leaf spring group 46 is located on the centrifugal fan 57 side that is front side of the center of gravity G, that is, on the outer circumference of the front motor cover 75 of the motor cover 42 (hereinafter, The leaf spring group 46a) and the other side of the leaf spring group 46 are located on the side of the motor 55 that is rearward of the center of gravity G, that is, of the rear motor cover 76 of the motor cover 42. It is located on the outer circumference (hereinafter referred to as leaf spring group 46b). That is, the leaf spring groups 46a and 46b are shifted from each other in the axial direction of the electric blower 11 (electric blower 41), and in this embodiment, the position between the center of gravity G is positioned, that is, the center of gravity. On (G) the front side in the axial direction (on one side) and the rear side in the axial direction (on the other side), the coil spring group 44 is disposed at the position where it is located. That is, the leaf spring groups 46a and 46b do not intersect a plane perpendicular to the axial direction of the electric blower 11 (electric blower 41) including the center of gravity in the front-rear direction or its vicinity including the center of gravity G. Not placed in position. In addition, the leaf spring groups 46a and 46b are disposed at substantially equidistant distances from the center of gravity G. FIG. That is, the leaf spring groups 46a and 46b are disposed at substantially equidistant distances from the coil spring group 44.

Further, the leaf spring groups 46a and 46b are arranged at a predetermined angle, for example, at an angle of 90 ° to each other in the circumferential direction of the electric blower 11. That is, the leaf spring group 46a is arranged such that the leaf springs 45 and 45 face each other up and down as shown in FIG. 2, and the leaf spring group 46b is shown in FIG. 3. For example, the leaf springs 45 and 45 are arranged to face from side to side in the axial direction. For this reason, the leaf spring groups 46a and 46b are arrange | positioned so that the leaf spring 45 may be equally spaced in the circumferential direction of the electric blower 11.

The leaf springs 45 of the leaf spring groups 46a and 46b may be formed of the same material or may be formed of any other material.

Next, the manufacturing method of the electric vacuum cleaner of the said 1st Embodiment is demonstrated.

First, in the state which attached the coil spring group 44 which previously connected the spring support bodies 51 and 52 with the coil spring 43 to the outer periphery of the motor frame 47 of the electric blower 41, this electric blower The electric blower 11 is formed by covering 41 from the front and rear with the motor covers 75 and 76 and assembling the motor cover 42.

Subsequently, the curved portions 45a are held between the blower side ribs 98 and 98 on the outside of the electric blower 11, and each leaf spring 45 is provided on the outer periphery of the electric blower 11, And the air blowing section 11 and the leaf spring groups 46a and 46b so that the continuous portion 45b and the support portion 45c of each leaf spring 45 are held between the main body side ribs 99 and 99. 6) and the wires on the electric blower 11 side and the main body case 5 side are connected to each other.

In this state, the parts are assembled to cover the lower case 2 from the upper side with the upper case 3 connected with the lid 4, and the upper case 3 and the lower case 2 are assembled with screws or the like. . Thus, the vacuum cleaner body 1 is completed.

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

At the time of cleaning, first, the hose body 22, the extension pipe 28, and the bottom brush 29 are connected to the main body suction port 21 in order, and the cover 4 of the main body case 5 is opened to collect the dust collector. Mount on the truth and close the cover 4.

In the state before starting this cleaning, the electric blower 11 is located in a predetermined start position by balance of the pressing force of the leaf spring 45 of the leaf spring group 46.

When the worker pulls out the power cord 13 from the main body case 5, connects the cord to an outlet such as a wall surface, grips the gripping portion 25 and operates the predetermined setting button 26, the electric blower 11 Of the electric blower 41 is driven.

Due to the driving of the electric blower 41 and the negative pressure generated by the driving, the electric blower 11 generates vibration in the radial direction (center axis direction) that intersects the rotational direction of the electric blower 41.

At this time, each of the coil springs 43 pushed in the direction of the center of gravity G (weight center G side) of the electric blower 41 is appropriately stretched to center the electric blower 41, thereby driving the electric blower. The vibration in the radial direction (center axis direction) accompanying the drive of the 41 is absorbed by the coil spring group 44.

In addition, the electric blower 11 vibrates in the axial direction (front and rear direction) and the radial direction (up / down left / right direction) by the vibration of the electric blower 41.

In particular, the centrifugal fan 57 side of the electric blower 41 vibrates larger than the motor 55 side.

At this time, as shown in FIG. 4, the curved portions 45a of the leaf springs 45 are pressed in the radial direction by the electric blower 11 so that both ends of the curved portions 45a are deformed to approach each other. As the continuous portions 45b and 45b are deformed obliquely according to this deformation, the vibration of the electric blower 11 is absorbed by the deformation of each leaf spring 45. In addition, in this FIG. 4, the deformation | transformation of the curved part 45a and continuous part 45b, 45b is shown to exaggerate conveniently.

As a result, in the vertical direction (shown in FIGS. 2 and 3) or in the left and right directions, the electric blower 11 is centered by the pressing of the respective leaf springs 45 of the leaf spring groups 46a and 46b. The front side (centrifugal fan 57 side) and the rear side (motor 55 side) of the electric blower 11 are held by the leaf spring groups 46a and 46b, and the electric blower 11 is held. The vibrations in the axial direction (front and rear direction) and the up, down, left, and right directions accompanying the driving of the are absorbed.

In addition, vibration in the front-back direction of the electric blower 11 is regulated by the rigidity of the width direction of each leaf spring 45, and hardly generate | occur | produces.

Due to the negative pressure driven by the electric blower 41, an air path extending through the bottom brush 29, the extension pipe 28, the hose body 22, the main body suction port 21, and the dust collecting part is formed, and dust with air is formed. Is inhaled.

The sucked air becomes intake air, and the dust contained in the intake air is collected in the dust collecting part when the intake air passes through the dust collecting part.

In addition, the intake air passing through the dust collecting part passes through the filter, the front communication hole, the duct and the rear communication hole 37, and the fan cover of the electric blower 41 through the intake port 66 of the electric blower 41 ( 48 flows in, flows in from the center of the centrifugal fan 57, is exhausted in the circumferential direction, passes through the motor frame 47, and is exhausted from each exhaust port 61 to the outside of the electric blower 41 as exhaust air. do.

The exhaust wind is exhausted to the lower end through the rear communication opening 97 of the motor cover 42, and a part flows upward from the periphery of the electric blower 11, and from the exhaust hole 12 of the main body case 5, The outside of the main body case 5 is exhausted, and the rest of the exhaust air then flows into the cord reel chamber from the communication port of the partition wall 8, and cools the cord reel (power cord 13), and through the main body case through the cord outlet. It is exhausted to the outside of (5).

When the cleaning is finished, the operator operates the setting button 26 to stop the electric blower 41 and stops the operation of the electric vacuum cleaner.

At this time, the electric blower 11 returns to the predetermined start position by the centering action of the leaf spring groups 46a and 46b.

When dust or more in the dust collecting part is accumulated, the cover 4 is opened to remove the dust collecting part from the dust collecting chamber. If the dust collector is a paper pack, the paper pack is discarded together with the dust, and a new paper pack is mounted in the dust chamber. In the case of the dust collecting cup or the like, the dust collecting part is disposed of, and then the cup is installed in the dust collecting chamber again.

As described above, according to the first embodiment, the main body case is formed by the leaf springs 45 and 45 of the leaf spring groups 46a and 46b in which the electric blowers 11 are arranged at different positions in the axial direction. Supported by (5), and arrange | positioning the leaf spring 45 of the leaf spring group 46a, 46b mutually shifting in the circumferential direction of the electric blower 11, and the electric transmission by the deformation of each leaf spring 45 Vibration at other positions in the axial direction accompanying the drive of the abundance 11 (electric blower 41) can be suppressed, and the axial shaking of the electric blower 11 can be effectively suppressed, and the main body case 5 Vibration prevention can be aimed at.

In particular, since the electric blower 11 rotates the centrifugal fan 57 by the motor 55, the electric blower 11 swings from the front side and the rear side with respect to the center of gravity G, that is, the shaft Directional shake occurs. For this reason, leaf spring groups 46a and 46b are located in the front side and the rear side of the electric blower 11 rather than the position between the center of gravity G of the electric blower 11, ie, the center of gravity G. ) Is arranged so as to deviate from each other by 90 ° in the circumferential direction of the electric blower 11 and elastically supports the electric blower 11 by the leaf spring groups 46a and 46b, thereby ensuring the swing of the electric blower 11. Can be suppressed, and axial shaking can be effectively suppressed.

In addition, by the deformation of each leaf spring 45 of the leaf spring group 46a, the vibration of the electric blower 11 accompanying the drive of the electric blower 41 is absorbed, and the electric blower The vibration in the left and right directions of (11) is absorbed by the deformation of each leaf spring 45 of the leaf spring group 46b, and the leaf spring group of the other is located in a position where it is difficult to absorb vibration by one leaf spring group. It can cover by this, and the vibration accompanying the drive of the electric blower 41 can be suppressed reliably.

In addition, since the three coil springs 43 of the coil spring group 44 are arranged so as to be shifted by 120 ° from each other in the circumferential direction, the vibration accompanying the drive of the electric blower 41 is caused by the coil spring group 44. It can absorb effectively, so that it is hardly transmitted to the motor cover 42. Therefore, by the synergistic effect of the coil spring group 44 and the leaf spring group 46, a vibration can be absorbed more reliably.

In addition, by arranging the coil spring group 44 at the position corresponding to the center of gravity G, the vibration generated in the up-down direction at the front side or the rear side than the center of gravity G for driving of the electric blower 41 is minimized. The vibration can be transmitted to the motor cover 42 hardly.

By configuring each vibration not to be transmitted to the main body case 5 as mentioned above, the generation | occurrence | production of the sound resulting from the vibration of the electric blower 11 at the time of the operation of an electric vacuum cleaner can be prevented, and especially a vibration is reflected. Even during easy cleaning on the floor or the like, the operation sound becomes quiet, and it is possible to employ the electric blower 41 with relatively high vibration, and the quality of the vacuum cleaner is stabilized.

In the first embodiment, the leaf spring groups 46a and 46b may reverse each other. That is, by the leaf springs 45 and 45 of the leaf spring group 46a, the electric blower 11 is pinched from both left and right sides in the axial direction, and the leaf springs 45 and 45 of the leaf spring group 46b are held. You may comprise so that the electric blower 11 may be clamped from up and down. Also in this case, the same effects and effects as those of the first embodiment can be obtained.

Moreover, when the leaf spring groups 46a and 46b are arrange | positioned at the angle between 90 degrees in the circumferential direction of the electric blower 11 in the position between the center of gravity G of the electric blower 11, It may be disposed irrespective of the upper and lower sides of the electric blower 11 or both left and right sides in the axial direction of the electric blower 11.

Next, a second embodiment will be described with reference to FIGS. 6 to 9. In addition, about the structure and effect | action similar to the said 1st Embodiment, the same code | symbol is attached | subjected and the description is abbreviate | omitted.

This second embodiment includes three leaf spring groups 46a, 46b, 46c in the first embodiment.

The leaf spring group 46a is disposed at a position corresponding to the center of gravity G of the electric blower 11. That is, the leaf spring group 46a includes a center of gravity G, and a plane orthogonal to the axial direction of the electric blower 11 (electric blower 41) intersects with at least a portion of the leaf spring group 46a. Is placed in position.

Further, leaf spring groups 46b and 46c are disposed at positions between leaf spring groups 46a. That is, the leaf spring groups 46b and 46c are located at one end side and the other end side in the axial direction with respect to the center of gravity G of the electric blower 11, respectively.

Specifically, the leaf spring group 46b is provided on the outer circumference of the front motor cover 75 which is the front side of the electric blower 11. That is, the leaf spring group 46b is located on the centrifugal fan 57 side of the electric blower 41.

In addition, the leaf spring group 46c is provided on the outer periphery of the rear side of the leaf spring group 46a of the rear part motor cover 76 which is the rear side of the electric blower 11. That is, the leaf spring group 46c is located on the motor 55 side of the electric blower 41.

Further, the leaf spring groups 46a, 46b, 46c are arranged at different angles by 60 ° in the circumferential direction of the electric blower 11.

Specifically, the leaf spring group 46a is located in the upper and lower leaf springs 45, 45, as shown in Figure 7, and the leaf spring group 46b, as shown in Figure 8, the leaf spring 45, 45 is located at the lower left and upper right, and the leaf spring group 46c is positioned at the upper left and lower right, as shown in FIG. 9.

Therefore, the leaf springs 45, 45 of the leaf spring groups 46a, 46b, 46c are sequentially arranged at equal angles, respectively at predetermined angles, for example, at 60 °, in the circumferential direction of the electric blower 11. In each of the leaf springs 45 of the leaf spring groups 46a to 46c, the curved portion 45a is held between the blower side ribs 98 and 98. Moreover, each leaf spring 45 of leaf spring group 46b, 46c is bent from the curved part 45a so that the continuous part 45b may follow the side surface of the ventilation chamber 6, and the support part 45c is a ventilation chamber ( It is bent from the continuous part 45b so that it may follow the bottom or upper surface of 6), and the continuous part 45b and the support part 45c are hold | maintained between the main body side ribs 99 and 99. As shown in FIG.

For example, the said 1st implementation is arrange | positioned by shifting the some leaf spring group 46 which elastically supports the electric blower 11 with respect to the main body case 5 in the circumferential direction of the electric blower 11, and is arrange | positioned. By having the structure similar to an aspect, the effect similar to the said 1st Embodiment can be exhibited.

Further, the leaf spring groups 46a, 46b, 46c are arranged at different angles by 60 ° from each other in the circumferential direction of the electric blower 11, and the leaf spring group 46a is placed at the center of gravity of the electric blower 11 ( By arrange | positioning in the position corresponding to G), and arrange | positioning the leaf spring group 46b, 46c in the position where the leaf spring group 46a is located, the fluctuation of the electric blower 11 can be suppressed more reliably, Axial shake can be effectively suppressed.

In addition, in each said embodiment, the electric blower 11 may not only be comprised by the electric blower 41 and the motor cover 42, but may be comprised only by the electric blower 41, for example. That is, the structure which elastically supports the electric blower 41 itself by each leaf | plate spring group 46 can be included in each said embodiment.

In the electric blower 11, the electric blower 41 may be supported by the motor cover 42 by any configuration as long as the electric blower 41 can suppress axial shaking.

In addition, two or more leaf spring groups 46 may be provided. For example, in the case of having three or more odd number of leaf spring groups 46, one is disposed at a position corresponding to the center of gravity G, and the other is balanced before and after one leaf spring group. In the case of having two or more even-numbered leaf spring groups 46, the centers of gravity G are disposed in a balanced position, and the leaf springs 45 of each leaf spring group 46 are driven by electric blowers. 11) may be arranged to be spaced at substantially equal intervals from each other in the circumferential direction.

Each leaf spring 45 may be provided with, for example, a long hole in the support portion 45c, and may be attached to the main body case 5, the motor cover 42 or the like with a screw or the like through the long hole.

Next, a third embodiment will be described with reference to FIGS. 10 and 11. In addition, about the structure and effect | action similar to the said embodiment, the same code | symbol is attached | subjected and the description is abbreviate | omitted.

In the third embodiment, the electric blower 11 elastically supports the electric blower 41 with respect to the motor cover 42 and attenuates the rotational vibration of the electric blower 41 as shown in FIGS. 10 and 11. A plurality of examples include a first coil spring group 102 that is a first support unit having three first coil springs 101, and a plurality of third coil springs 103, respectively. It is elastically supported with respect to the main body case 5 by the several 2nd coil spring group 104 which is two support units, for example.

The inner circumferential side spring support 111 and the outer circumferential side spring support 112, which constitute the first coil spring group 102 and each of which is the first spring receiving ring as the first coil spring receiving portion, are connected to the motor frame of the electric blower 41. It is provided around 47, the first coil spring 101 is held between the supports 111, 112, and the electric blower 41 is elastically supported with respect to the motor cover 42.

The inner circumferential side spring support 111 is formed of, for example, synthetic resin or metal, has a shape that matches the outer circumference of the motor frame 47, for example, an annular shape, and is in intimate contact with the outer circumference of the motor frame 47. Holds an electric blower 41. In addition, the inner circumferential side spring support 111 is installed in the motor frame 47 in the axial direction of the support 111 corresponding to the electric blower 41, and the center region of the support 111 in the front-rear direction (axial direction) is It is located at the position corresponding to the center of gravity G and at the front side of the motor frame 47 and behind the fan cover 48. In addition, a plurality of first inner circumferential spring holding portions 121 as first inner circumferential coil spring holding portions each holding one end of each first coil spring 101 may be formed on the outer circumference of the inner circumferential side spring support 111. On the side.

Each of the first inner circumferential spring holder 121a has a cylindrical shape fitted to one end of the first coil spring 101 on the inner circumferential side, and a first inner circumferential retaining cylinder 121a. ) Includes a first inner circumferential protrusion holding portion 121b protruding in the radial direction and inserted into the first coil spring 101 so as to hold the first coil spring 101, and in this embodiment, the inner circumferential side spring support 111. Are spaced apart from each other at an isometric angle by approximately 120 ° in the circumferential direction. One side of the first inner circumferential spring retainer 121 is positioned below the electric blower 41, and the other first inner circumferential spring retainer 121 is located at both sides of the upper blower.

In addition, the state in which the first inner circumferential spring holder 121 is shifted from each other by 120 ° in the circumferential direction includes a state in which the first inner circumferential spring holder 121 is shifted by approximately 120 °.

On the other hand, the outer circumferential side spring support 112 is formed of, for example, a synthetic resin or metal, and has an annular shape having a shape according to the inner circumference of the motor cover 42, for example, a diameter larger than that of the inner circumferential side spring support 111. It is disposed coaxially with the inner circumferential side spring support 111 and positioned on the motor cover 42 side. Accordingly, the outer circumferential side spring support 112 is also located at the position corresponding to the center of gravity G in the front-back direction (axial direction). Further, the first outer circumferential spring holding portion 123 as the first outer circumferential coil spring holding portion holding the other end of each first coil spring 101 is formed on the inner circumferential side of the outer circumferential side spring support 112 on the inner circumferential side of the spring support 112. It is formed along the first inner circumferential spring holding portion 121 of the (111).

The first outer circumferential spring holding portion 123 has a diameter in the first outer circumferential holding cylindrical portion 123a and a first outer circumferential holding cylindrical portion 123a having a cylindrical shape that sandwiches one end of the first coil spring 101 on the inner circumferential side. And a first outer circumferential protrusion holding part 123b inserted into the first coil spring 101 to protrude in the direction and to hold the first coil spring 101. One side of the first outer circumference retaining spring holder 123 is located under the electric blower 41 and the other outer circumference retaining spring holder 123 is located at both sides of the upper blower.

Accordingly, the first coil springs 101 are spaced apart from each other in the radial direction with respect to the electric blower 41 between the spring supports 111 and 112 and at approximately equal intervals (approximately equal angles). That is, one end portion of each of the first coil springs 101 on the electric blower 41 side is held by each first inner circumferential spring holder 121 of the inner circumferential spring support 111 toward the center of gravity G or the central axis. , The other end is held by each first outer circumferential spring holding part 123 of the outer circumferential side spring support 112. Accordingly, the first coil spring group 102 is provided at a position corresponding to the center of gravity G of the electric blower 11 (electric blower 41), that is, the center of gravity G is the first coil spring. It is provided to be located inside the outer shell of the group (102). When viewed in the axial direction of the electric blower 11, the first coil springs 101 are shifted by 120 ° from each other in the circumferential direction, that is, arranged in a Y shape with respect to the electric blower 41.

Around the motor cover 42, a plurality of second inner circumferential spring holding portions 131 as second inner circumferential coil spring holding portions each holding one end of each second coil spring 103 are formed, and each second coil spring is formed. A main body case side spring support 132 constituting the group 104 and serving as a second coil spring receiving ring as the second coil spring receiving portion is provided. The second coil spring 103 is held between the second inner circumferential spring holding portion 131 and the main body case side spring support 132, and the electric blower 11 is elastically supported with respect to the main body case 5.

Three second inner circumferential spring holding portions 131 are formed, for example, on each of the front and rear motor covers 75 and 76. Each of the second inner circumferential spring holding portions 131 has a cylindrical inner shape circumferential holding cylindrical portion 131a and a second inner circumferential holding cylindrical portion 131a that are fitted to one end of the second coil spring 103 on the inner circumferential side. ) Includes a second inner circumferential protruding holding portion 131b inserted into the second coil spring 103 so as to protrude radially and to hold the second coil spring 103. Spaced apart from each other at an approximately equal angle of 120 ° in the circumferential direction. In addition, one side of the second inner circumferential spring holding unit 131 is positioned above the electric blower unit 11, and the other second inner circumferential spring holding unit 131 is disposed at both lower sides of the electric blowing unit 11. .

On the other hand, the main body case side spring support 132 is formed of, for example, synthetic resin or metal so that the inner side of the support 132 is larger than the shape of the motor cover 42, for example, the motor cover 42. It has an annular shape of diameter. The outer side of the support 132 is formed to have a shape along the inner surface of the ventilation chamber 6, for example, a substantially rectangular shape along the inner wall of the lower case 2 and the upper case lower plate 3a of the upper case 3. And the main body case 5 side. Further, the second outer circumferential spring holding portion 137 as the second outer circumferential coil spring holding portion holding the other end of each second coil spring 103, respectively, is provided on the inner circumferential side of the body case side spring support 132. The inner circumferential spring holding portion 131 is formed respectively.

The second outer circumferential spring holding portion 137 has a cylindrical outer shape circumferential holding cylindrical portion 137a for fitting to one end of the second coil spring 103 on the inner circumferential side, and the second outer circumferential holding cylindrical portion 137a. And a second circumferential protrusion holding part 137b inserted into the second coil spring 103 to protrude in the radial direction and to hold the second coil spring 103. In addition, one side of the second outer circumferential spring holding unit 137 is positioned above the electric blower unit 11, and the other second outer circumferential spring holding unit 137 is located at both sides of the lower side of the electric blower unit 11.

Accordingly, the second coil spring 103 is provided in the radial direction between the motor cover 42 and the main body case side spring support 132 associated with the electric blower 11, and is disposed at substantially equal intervals (approximately equal angle) to each other. Spaced apart. That is, one end portion of each of the second coil springs 103 on the side of the electric blower 11 faces the second inner circumferential spring holder of the motor cover 42 toward the center of gravity G or the central axis of the electric blower 11. 131, and the other end is held by each second outer circumferential spring holding portion 137 of the body case side spring support 132. Therefore, when viewed from the axial direction of the electric blower 11, the second coil springs 103 of each second coil spring group 46 are shifted from each other by 120 ° in the circumferential direction, that is, with respect to the electric blower 41. It is arranged in an inverted Y shape.

Therefore, the 1st coil spring 101 and the 2nd coil spring 103 are arrange | positioned so that they may mutually shift at approximately equal intervals by 60 degrees in the circumferential direction of the electric blower 11.

Further, although the body case side spring support 132 has approximately the same width as each spring support 111, 112, this support may have a different material or a different width.

Further, one side of the second coil spring group 104 is located on the centrifugal fan 57 side in front of the center of gravity G, that is, on the outer circumferential side of the front motor cover 75 of the motor cover 42 ( Hereinafter, the second coil spring group 104a) and the other spring group 104 are formed on the motor 55 side behind the center of gravity G, that is, the outer circumference of the rear motor cover 76 of the motor cover 42. (Hereinafter referred to as second coil spring group 104b). That is, the second coil spring groups 104a and 104b are positioned between the center of gravity G of the electric blower 11 (electric blower 41), that is, the first coil spring group 102 is located. It is placed in the position between. In addition, the second coil spring groups 104a and 104b are disposed at approximately the same distance from the center of gravity G. As shown in FIG. That is, the second coil spring groups 104a and 104b are disposed at approximately the same distance from the first coil spring group 102.

Further, the spring constant of the second coil spring 103 of the second coil spring group 104a is set to be smaller than the second coil spring 103 of the second coil spring group 104b. That is, the second coil spring 103 of the second coil spring group 104a has a smaller elasticity than the second coil spring 103 of the second coil spring group 104b (easily stretched by a small force). .

In addition, the number of vibrations of the first coil spring 101 and the second coil spring 103 is different from each other. Specifically, the material, diameter, wire diameter, and the like of the first coil spring 101 and the second coil spring 103 are different from each other.

Next, the manufacturing method of the vibration vacuum cleaner which concerns on 3rd Embodiment is demonstrated.

First, the electric blower 41 is covered with the motor covers 75 and 76 from front and rear and the motor cover with the first coil spring group 102 in which the spring supports 111 and 112 are connected to each other by the first coil spring 101. It is incorporated into 42, and is formed as the electric blower 11 by being attached to the outer circumference of the motor frame 47 of the electric blower 41 in advance.

Next, the motor cover 42 and the main body case side spring support 132 are connected to each other in advance by the second coil spring 103, and they are fitted into the blower chamber 6, and the electric blower 11 side The wiring and the main body case 5 side are connected to each other.

In this state, each part is coalesced, that is, the lower case 2 is covered with the upper case 3 connected to the lid 4 from the top, and the upper case 3 and the lower case 2 are screwed or the like. Are assembled together. Thus, the vacuum cleaner body 1 is completed.

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

Before cleaning, the electric blower 11 is positioned at a predetermined start position in the axial direction (front and rear direction) by the balance of the pressing force of the second coil spring 103 of the second coil spring group 104.

When the worker pulls out the power cord 13 from the main body case 5, connects the cord to an outlet such as a wall surface, grips the gripping portion 25 and operates the predetermined setting button 26, the electric blower ( The electric blower 41 of 11 is driven, and the electric blower 11 vibrates back and forth in the axial direction by the drive of the electric blower 41 and the negative pressure generated by this driving.

At this time, the electric blower 11 is pressed in the up-down direction or the left-right direction (shown in FIG. 2) by the pressing of the second coil springs 103 of the second coil spring groups 104a and 104b to be centered. The second coil spring group 104a on the centrifugal fan 57 side and the second coil spring group 104b on the motor 55 side are pressed in the front-rear direction, that is, the second coil spring group 104a, Each second coil spring 103 of 104b is centered. Therefore, vibration of the axial direction (front and rear direction) and the up-down direction is absorbed by the electric blower 11.

In addition, vibration is generated in the electric blower 11 in the radial direction (center axial direction) that intersects the rotational direction of the electric blower 41 by driving the electric blower 41.

At this time, each of the first coil springs 101 urged toward the center of gravity G of the electric blower 41 is appropriately stretched and centered on the electric blower 41, thereby accompanying the drive of the electric blower 41. The vibration in the radial direction (center axial direction) is also absorbed by the first coil spring group 102.

After cleaning, the operator operates the setting button 26 to stop the electric blower 41, and thus the driving of the electric vacuum cleaner is stopped.

At this time, the electric blower 11 returns to the predetermined starting position by the centering operation of the second coil spring groups 104a and 104b.

As described above, in the third embodiment, the electric blower 11 is supported by the first coil spring 101 of the first coil spring group 102 with respect to the motor cover 42. Is supported by the second coil spring 103 of the second coil spring group 104 with respect to the body case 5, and the first coil spring 101 and the second coil spring of the first coil spring group 102 are The second coil springs 103 of the group 104 (the second coil spring groups 104a and 104b) are arranged to be shifted from each other in the circumferential direction of the electric blower 11.

For example, in the conventional electric vacuum cleaner disclosed in Japanese Patent No. 2874401, since the electric blower 41 is directly connected to the main body case 5 by a plurality of coil springs, vibration of the electric blower 41 is applied to the coil spring. By insufficient absorption. However, according to the present embodiment, vibrations in the up, down, left and right directions and axial directions accompanying the drive of the electric blower 41 can be absorbed by the expansion and contraction of the first coil spring 101 relative to the motor cover 42 and , The vibration remaining in the motor cover 42 can be absorbed by the expansion and contraction of the second coil spring 103, the coil spring 101, 103 by one of the coil springs of the other position where the vibration hardly absorbs the vibration Can be covered, that is, vibration accompanying the drive of the electric blower 41 can be effectively absorbed by the coil spring groups 102 and 104, and the axial shaking of the electric blower 11 can be effectively suppressed, The vibration prevention of the main body case 5 can be realized.

In addition, since the first coil spring 101 is held between the spring supports 111 and 112 and they are used as the first coil spring group 102, the first coil spring 101 is easily installed in the electric blower 41. Productivity can be improved.

Similarly, one end of each second coil spring 103 is held by the body case side spring support 132 and the second coil spring 103 having the support 132 is used as the second coil spring group 104. Because of this, the second coil spring 103 can be easily installed in the second inner circumferential spring holding portion 131 of the electric blower 11 can improve the productivity.

Further, the three first coil springs 101 of the first coil spring group 102 and the three second coil springs 103 of each second coil spring group 104 are shifted from each other by 60 ° in the circumferential direction. Because of the arrangement, the first coil spring 101 and the second coil spring 103 can be arranged at equal intervals and the vibration accompanying the drive of the electric blower 41 is further caused by the coil spring groups 102 and 104. It can be absorbed efficiently.

The first coil spring 101 of the first coil spring group 102 is located at both the lower and upper sides of the electric blower 41, and the second coil spring 103 of the second coil spring group 104 is the electric blower. Since it is located at both the upper and lower sides of the (11), the electric blower 11 can be suspended and maintained in the second coil spring group 104, the vibration accompanying the drive of the electric blower 41 is an example. For example, the second coil spring 103 may be hardly transmitted to the main body case 5 as compared with the case where the second coil spring 103 is disposed on both the lower and upper sides of the electric blower 11.

Since the first coil spring group 102 is disposed at a position corresponding to the center of gravity G, vibration generated in the vertical direction in front of or behind the center of gravity G by the driving of the electric blower 41 is minimized. It may be hardly transmitted to the motor cover 42. In addition, since the second coil spring groups 104a and 104b are disposed at positions between the first coil spring groups 102, vibrations in the front and rear of the center of gravity G of the electric blower 11 are prevented. Can be absorbed.

The centrifugal fan 57 side (front side) of the electric blower 11 is more than the motor 55 side (rear side) with respect to the central axis by the centrifugal fan 57 that is rotated by the drive of the electric blower 41. Swings louder. Therefore, the spring constant of each second coil spring 103 of the second coil spring group 104a on the centrifugal fan 57 is equal to that of each second coil spring of the second coil spring group 104b on the motor 55 side. If formed smaller than the spring constant of 103, the fluctuation on the centrifugal fan 57 side can be reliably absorbed.

By configuring each vibration not to be transmitted to the main body case 5 as mentioned above, the generation | occurrence | production of the sound resulting from the vibration of the electric blower 11 at the time of the operation of an electric vacuum cleaner can be prevented, and especially a vibration is reflected. Even during easy cleaning on the floor or the like, the operation sound becomes quiet, and it is possible to employ the electric blower 41 with relatively high vibration, and the quality of the vacuum cleaner is stabilized.

Next, a fourth embodiment will be described with reference to FIG. 12. In addition, about the structure and effect | action similar to the said embodiment, the same code | symbol is attached | subjected and the description is abbreviate | omitted.

In the fourth embodiment, the first coil spring group 102 has four first coil springs 101 and each second coil spring group 104 has four second coil springs 103 of the third embodiment. Has

The first inner circumferential spring holder 121 is disposed at four positions of the inner circumferential spring support 111 constituting the first coil spring group 102, and is substantially disposed in the circumferential direction of the inner circumferential spring support 111 in this embodiment. Spaced at an isometric angle by 90 °. In addition, the first inner circumferential spring holding portion 121 is positioned on the upper, lower and left and right sides of the electric blower 41.

Similarly, the first outer circumferential spring holding part 123 is disposed at four positions of the outer circumferential side spring support 112 constituting the first coil spring group 102, and the circumferential direction of the outer circumferential side spring support 112 in the present embodiment. Spaced apart from each other at an isometric angle by approximately 90 °. In addition, the first outer circumferential spring holding part 123 is located at each position corresponding to the first inner circumferential spring holding part 121, that is, the upper, lower and left and right sides of the electric blower 41.

Accordingly, the first coil springs 101 are shifted from each other by 90 ° in the circumferential direction when viewed in the axial direction of the electric blower 11, that is, are formed in a cross shape with respect to the electric blower 41.

On the other hand, the second inner circumferential spring holder 131 is disposed at four positions of the front and rear motor covers 75 and 76 of the motor cover 42, respectively. The four second inner circumferential spring holding portions 131 are spaced apart from each other at an isometric angle by approximately 90 ° in the circumferential direction of the motor cover 42 in this embodiment. In addition, four second inner circumferential spring holding portions 131 are located at both upper and lower sides of the electric blower 41.

Similarly, the second outer circumferential spring holding portion 137 is formed at four positions of the main body case side spring support 132 constituting the second coil spring group 104 to form the main body case side spring support 132 of the present embodiment. Spaced apart from each other at an isometric angle by approximately 90 ° in the circumferential direction. In addition, the second outer circumferential spring holding unit 137 is located at each position corresponding to the second inner circumferential spring holding unit 131, that is, at both upper and lower sides of the electric blower 11.

Accordingly, the second coil springs 103 are spaced apart from each other by 90 ° in the circumferential direction when viewed in the axial direction of the electric blower 11, that is, arranged in an X shape with respect to the electric blower 41.

Therefore, the 1st coil spring 101 and the 2nd coil spring 103 are arrange | positioned so that they may mutually shift by 45 degrees in the circumferential direction of the electric blower 11 at substantially equal intervals in the circumferential direction.

By having the structure similar to the structure of 1st Embodiment, for example, the some 1st coil spring 101 which elastically supports the electric blower 41 is arrange | positioned with respect to the motor cover 42, and the electric blower 11 is carried out, for example. A plurality of second coil springs 103 for elastically supporting the main body case 5 are shifted from each other in the circumferential direction of the electric blower 11, thereby providing the same operation and effect as in the first embodiment. Can be achieved. In addition, since the first coil spring 101 and the second coil spring 103 are provided, the vibration accompanying the drive of the electric blower 41 can be reliably absorbed.

Next, a fifth embodiment will be described with reference to FIG. In addition, about the structure and effect | action similar to the said embodiment, the same code | symbol is attached | subjected and the description is abbreviate | omitted.

In the fifth embodiment, the first coil spring group 102 has two first coil springs 101 and each second coil spring group 104 has two second coil springs 103 of the third embodiment. Has

The first inner circumferential spring holder 121 is disposed at two places of the inner circumferential spring support 111 constituting the first coil spring group 102, and is substantially disposed in the circumferential direction of the inner circumferential spring support 111 in this embodiment. Spaced at an isometric angle by 180 °. That is, the first inner circumferential spring holder 121 is symmetrically disposed with respect to the center of gravity G. In addition, the first inner circumferential spring holder 121 is disposed on the left and right of the electric blower 41.

Similarly, the first outer circumferential spring holding part 123 is disposed at two places of the outer circumferential side spring support 112 constituting the first coil spring group 102, and the circumferential direction of the outer circumferential side spring support 112 in the present embodiment. Spaced apart from each other at an isometric angle by approximately 180 °. In addition, the first outer circumferential spring holding unit 123 is positioned at a position corresponding to the first inner circumferential spring holding unit 121, that is, left and right of the electric blower 41.

Therefore, the 1st coil spring 101 is arrange | positioned so that it may become substantially horizontal with respect to the electric blower 41, when it sees in the axial direction of the electric blower 11. FIG.

On the other hand, the second inner circumferential spring holder 131 is disposed at two positions of the front and rear motor covers 75 and 76 of the motor cover 42, respectively. The two second inner circumferential spring holding portions 131 are spaced apart from each other at an isometric angle by approximately 180 ° in the circumferential direction of the motor cover 42 in this embodiment. That is, the two second inner circumferential spring holders 131 are disposed symmetrically with respect to the center of gravity G and are positioned above and below the electric blower 41.

Similarly, the second outer circumferential spring holding portion 137 is formed at two places of the main body case side spring support 132 constituting the second coil spring group 104 to form the main body case side spring support 132 of the present embodiment. Spaced apart from each other at an isometric angle by approximately 180 ° in the circumferential direction. In addition, the second outer circumferential spring holding portion 137 is positioned at a position corresponding to the second inner circumferential spring holding portion 131, that is, above and below the electric blower 11.

Therefore, the 2nd coil spring 103 is arrange | positioned so that it may become substantially orthogonal to the electric blower 41, when seen from the axial direction of the electric blower 11. FIG.

Therefore, the 1st coil spring 101 and the 2nd coil spring 103 are arrange | positioned so that they may mutually shift by 90 degrees in the circumferential direction of the electric blower 11 at substantially equal intervals in the circumferential direction.

By having the structure similar to the structure of 1st Embodiment, for example, the some 1st coil spring 101 which elastically supports the electric blower 41 is arrange | positioned with respect to the motor cover 42, and the electric blower 11 is carried out, for example. A plurality of second coil springs 103 for elastically supporting the main body case 5 are shifted from each other in the circumferential direction of the electric blower 11, thereby providing the same operation and effect as in the first embodiment. Can be achieved. In addition, since two first coil springs 101 and two second coil springs 103 are provided, the configuration of the coil spring groups 102 and 104 can be simplified.

In addition, in the third to fifth embodiments, three or more second coil spring groups 104 may be provided. For example, in the case of providing three or more odd dogs of the second coil spring group 104, one of them is located at a position corresponding to the center of gravity G, and the other is front and rear of the center of gravity G. Are placed in a balanced manner. In the case of providing two or more even numbers of the second coil spring group 104, they may be disposed in a balanced position between the center of gravity G.

In addition, each second coil spring 103 of one second coil spring group 104 and each second coil spring 103 of the other second coil spring group 104 can be shifted from each other in the circumferential direction. have. In this case, if each second coil spring 103 is disposed between the first coil spring 101 of the first coil spring group 102 at a position shifted from the first coil spring 101, the respective embodiments The same operation and effect as can be achieved.

Next, a sixth embodiment will be described with reference to FIG. In addition, about the structure and effect | action similar to the said embodiment, the same code | symbol is attached | subjected and the description is abbreviate | omitted.

In the sixth embodiment, one second coil spring group 104 is provided in the third to fifth embodiments.

That is, the second coil spring group 104 is disposed outside the first coil spring group 102 at a position corresponding to the center of gravity G of the electric blower 11. Further, the number and arrangement of the first coil springs 101 and the number and arrangement of the second coil springs 103 are formed similarly to the third embodiment for convenience, but may be formed similarly to the third to fifth embodiments. have.

By having the structure similar to the structure of each said embodiment, for example, the some 1st coil spring 101 which elastically supports the electric blower 41 is arrange | positioned with respect to the motor cover 42, and the electric blower 11 ) A plurality of second coil springs (103) elastically supporting with respect to the main body case (5) so that these springs are shifted from each other in the circumferential direction of the electric blower (11), thereby operating the same as in the respective embodiments above. And effects can be achieved. In addition, since only one second coil spring group 104 is disposed at a position corresponding to the center of gravity G of the electric blower 11, the electric blower 11 is connected to the second coil spring group 104. The elastic support can be efficiently understood and the configuration can be simplified.

Further, in the third to sixth embodiments, the coil springs 101 and 103 can be arbitrarily arranged as long as they are shifted from each other in the circumferential direction to hold the electric blower 11.

Similarly, coil spring groups 102 and 104 may include any number (two or more) of coil springs 101 and 103, respectively.

That is, each of the coil springs 101 and 103 of the coil spring groups 102 and 104 of the third to sixth embodiments has a plurality of coils having a spring constant that is exactly the same as the spring constant of each of the springs 101 and 103. Can be replaced with a spring.

Although the first coil spring group 102 is formed as a unit by the spring supports 111 and 112, both ends of the first coil spring 101 are, for example, the outer circumference of the motor frame 47 and the motor cover 42. Can be locked directly in the inner circumference of

In addition, in each spring retainer 121, 123 of the spring support 111, 112, the end of the first coil spring 101 may be fitted into a groove or attached to a guide rib, for example.

Similarly, although the second coil spring group 104 is formed as a unit by the main body case side spring support 132, both ends of the second coil spring 103 are, for example, the outer circumference and air blowing of the motor cover 42. It can be locked directly to the inner surface of the seal 6.

Also, in each spring retainer 131, 137, the end of the second coil spring 103 may be fitted into the groove or attached to the guide rib.

In addition, the structure of the electric vacuum cleaner of this invention is not restrict | limited to the said embodiment, It can apply to an upright vacuum cleaner, a handy type vacuum cleaner, etc.

The electric vacuum cleaner of the present invention is used, for example, as a household electric vacuum cleaner.

5: body case
6: blower room as a storage room
11: electric blower
41: electric blower
42: motor cover as cover body
45: leaf spring as elastic member
46: leaf spring group as elastic member group
55: motor as electric drive
57: Centrifugal Fan as Fan
101: first coil spring
102: first coil spring group
103: second coil spring
104: second coil spring group

Claims (8)

As an electric vacuum cleaner,
With electric blower,
A main body case provided with a housing chamber accommodating the electric blower therein;
A plurality of elastic member groups formed along at least a portion of an outer circumference of the electric blower, each having a pair of elastic members supporting the main body case at a position facing each other,
The elastic member group is disposed at different positions in the axial direction of the electric blower, the elastic member is spaced apart from each other at approximately equal intervals in the circumferential direction of the electric blower.  The electric vacuum cleaner according to claim 1, wherein the two elastic member groups are disposed on one side and the other side in the axial direction with respect to the center of gravity of the electric blower so that the two groups of elastic members are shifted by 90 ° from each other in the circumferential direction of the electric blower. The said elastic member group is arrange | positioned so that it may shift | deviate with each other by 60 degrees in the circumferential direction of the said electric blower, and one said elastic member group is arrange | positioned in the position corresponding to the center of gravity of the said electric blower. And the remaining elastic member group is disposed at a position between where the one elastic member group is located. As an electric vacuum cleaner,
An electric blower including an electric blower and a cover body covering at least a part of the electric blower;
A main body case provided with a housing chamber accommodating the electric blower therein;
A first coil spring group positioned between the electric blower and the cover body and having a plurality of first coil springs that elastically support the electric blower with respect to the cover body;
A second coil spring group positioned between the cover body and the main body case and having a plurality of second coil springs that elastically support the electric blower with respect to the main body case;
The first coil spring and the second coil spring are arranged to be offset from each other in the circumferential direction of the electric blower. The method of claim 4, wherein
The first coil spring group includes three first coil springs,
The second coil spring group includes three second coil springs,
And the first coil spring and the second coil spring are arranged to be shifted from each other by 60 ° in the circumferential direction of the electric blower. The method of claim 5,
In the first coil spring group, one of the first coil spring is located under the electric blower, the remaining first coil spring is located on both sides of the upper electric blower,
In the second coil spring group, one of the second coil spring is located on the upper portion of the electric blower, the remaining second coil spring is located on both sides of the lower side of the electric blower. The method according to any one of claims 4 to 6,
The first coil spring group is located at a position corresponding to the center of gravity of the electric blower,
And a plurality of second coil spring groups are disposed at positions between the centers of gravity of the electric blowers. The method of claim 7, wherein
The electric blower is provided with a fan and a motor for rotating the fan,
And the spring constant of the second coil spring of the second coil spring group located on the fan side is smaller than the spring constant of the second coil spring of the second coil spring group located on the motor side.

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