RU2498761C2 - Electric vacuum cleaner - Google Patents

Abstract

FIELD: personal use articles.

SUBSTANCE: electric vacuum cleaner contains the main housing (25) having a suction inlet hole (44) and at least one outlet hole (49), positioned on the main housing (25) rear wall, an electric blower (51) positioned inside the main housing (25) so that the suction side communicates with the suction inlet hole (44), the electric blower first cover (52) that has the first cover outlet hole (73) releasing air from the electric blower and positioned on the rear lower part of the electric blower first cover (52) and covers the electric blower (51), the electric blower second cover (53) that has at least one outlet hole (81) releasing the air released from the outlet hole (73) of the electric blower first cover and positioned on the front side of the electric blower second cover (53) upper part, covers at least part of the electric blower first cover (52) and supports the electric blower first cover (52) and the housing (84) wherein a confined space is separated to ensure communication between the outlet hole (81) of the electric blower second cover through at least one outlet hole (49) of the main housing (25).

EFFECT: noise of the air stream that becomes especially strong due to concentrated passage of a great volume of air through the narrow and short air channel is absorbed due to ensuring a length of the air release channel with the noise reduction characteristic accordingly improved.

6 cl, 3 dwg

Description

FIELD OF THE INVENTION

The present invention relates to an electric vacuum cleaner including an electric fan housed in a casing.

BACKGROUND OF THE INVENTION

Typically, an electric vacuum cleaner of this type includes a main body of the vacuum cleaner including a hollow casing and a substantially cylindrical electric fan housed in this casing. Inside the casing, the dust chamber of the main body and the chamber of the electric fan accommodating the electric fan are separated in a forward and backward direction by a partition. A communicating hole is made in the partition, which provides communication between the dust chamber of the main body and the chamber of the electric fan. The dust chamber of the main body communicates with the outer side of the casing through a suction hole formed in the casing. The chamber of the electric fan communicates with the outer side of the casing through an outlet formed in the casing. In addition, the electric fan is designed in such a way that the fan cover covering the centrifugal fan driven by the electric motor is fixed as a whole on the electric motor housing accommodating the electric motor. The periphery of the fan cover on the suction side, that is, the front end side of the electric fan and the end section on the rear end side of the electric motor housing, which is the exhaust side of the electric fan, are respectively fixed to the casing electric fan chamber using vibration isolating elements, and in this fixed state, the suction side of the electric fan communicates with the rear portion of the communicating septum opening (for example, see Japanese Patent Publication No. 2745700 (p. 2-3, FIG. 2)).

BRIEF DESCRIPTION OF THE PRESENT INVENTION

Technical problem

The electric fan causes noise during operation when the centrifugal fan stops the air flow. Therefore, in the case of the above configuration, operation noise caused by driving the electric fan easily penetrates outward, and this creates a problem in that noise reduction is not easy.

In addition, it is not easy to provide a sufficient length of the air exhaust passage through which the exhaust air from the electric fan is discharged from the casing to the outside and a large volume of air passes through the air exhaust passage at the same time, so that air flow noise is caused in this air exhaust passage, and this also poses a problem in that noise reduction is not easy.

The present invention has been carried out in the light of these circumstances, and its purpose is to provide an electric vacuum cleaner with an improved noise reduction characteristic.

Solution

An electric vacuum cleaner of the present invention includes a first electric fan cover that comprises an outlet of a first fan and closes an electric fan, a second electric fan cover that contains an outlet of a second electric fan, covers at least a portion of a first electric fan cover and supports a first electric fan cover, and a casing, in which a closed space is separated between the outlet of the second cover of the electric fan and the outlet of the casing to ensure communication GUSTs.

Advantages of the Invention

In accordance with the present invention, operation noise caused by the operation of the electric fan is isolated by closing at least a portion of the first cover of the electric fan covering the electric fan, the second cover of the electric fan and by discharging exhaust air from the electric fan from the outlet after passing through the first cover electric fan, the second cover of the electric fan and an enclosed space, the length of the channel for the release of air is provided, and the noise flow and air caused by a large volume of air is absorbed, thereby improving the noise reduction characteristic.

BRIEF DESCRIPTION OF THE DRAWINGS

Figure 1 is a view schematically showing the internal structure of an electric vacuum cleaner in accordance with an embodiment of the present invention;

figure 2 is a view in longitudinal section, depicting the main section of the same vacuum cleaner;

figure 3 is a perspective view of the same electric vacuum cleaner.

DESCRIPTION OF EMBODIMENTS

Next, a configuration of an embodiment of the present invention will be described with reference to FIGS. 1-3.

Figure 3 shows an electric vacuum cleaner 11 of the so-called container type, which includes a tube 12 and a main body 13, with which the tube 12 is removably connected.

The tube 12 includes a connecting tube 15, which is connected to the main body 13 of the vacuum cleaner, a flexible sleeve 16 communicating with the end side of the connecting tube 15, a manual control unit 17 located on the end side of the sleeve 16, a sliding tube 18, removably connected to the end side of the manual control unit 17, and the floor brush 19 as a body with a suction hole, removably connected to the end side of the extension tube 18.

On the manual control portion 17, the gripping portion 21 projects to the side of the sleeve 16, and a plurality of setting buttons 22 are located on the gripping portion 21 for selecting operating modes.

The main body 13 of the vacuum cleaner includes, as shown in FIGS. 1 and 2, a hollow casing 25, inside which a partition 26 is formed in a substantially intermediate region in the forward-backward direction, the front camera 27 is separated from the front of the partition 26, and the rear camera 28 is separated at the rear of partition 26. Inside the front chamber 27, the dust chamber 31 of the main body is separated, and inside the rear chamber 28 are separated an electric fan chamber 33 containing the electric fan assembly 32, a cord reel chamber (not shown) containing the cord reel around which is wound a power cord (not shown) for supplying electricity to the electric fan assembly 32, etc., and a chamber 35 for passing exhaust air as a closed chamber. Specifically, the casing 25 has a structure including a plurality of compartments in which the dust collecting chamber 31 of the main body is separated in the front chamber 27, and the electric fan chamber 33, the cord reel chamber and the exhaust chamber 35 are separated in the rear chamber 28.

The casing 25 is made, for example, of synthetic resin, etc. and includes a lower casing 41, the upper side of which is open, an upper casing 42 covering the rear chamber 28, which is the upper rear portion of the lower casing 41, and a cover 43, which is supported in the axial direction with the possibility of rotation in the up-down direction on the upper the casing 42 or the lower casing 41, closes the front chamber 27 and opens or closes the dust chamber 31 of the main body. In the front portion of the casing 25, the suction port 44 of the main body is open as the suction port.

The lower casing 41 is made in the form of a box, the upper side of which is open, has a lower surface 41a located opposite the lower section of the electric fan assembly 32, side surfaces 41b (only one side surface is shown), opposite the side sections of the electric fan assembly 32, respectively, and the rear surface 41c located opposite the rear portion of the fan assembly 32. On the side surfaces 41b of the lower casing 41, movable wheels 46 that make it possible to move the main body 13 of the vacuum cleaner along the floor surface as a surface to be cleaned are rotatably supported in the axial direction.

A handle 48 is formed on the upper portion of the upper casing 42 to move the main body 13 of the vacuum cleaner in a left-right direction. At the rear portion of the upper casing 42, a plurality of exhaust openings 49 are made, communicating with the electric fan chamber 33, and a filter 50 for the exhaust openings is fixed to the upper upper side and the exhaust openings 49.

The lid 43 is supported axially in its rear portion on the upper casing 42 or lower casing 41 to rotate up and down, and is able to open the dust chamber 31 of the main body in an upside down state and close the dust chamber 31 of the main body in an upside down state .

The suction hole 44 of the main body provides communication between the dust chamber 31 of the main body and the outer side of the casing 25. With the suction hole 44 of the main body is connected with the possibility of communication connecting tube 15 with the possibility of removal.

The dust collecting chamber 31 of the main body is a portion in which dust sucked together with air through the tube 12 (FIG. 3) is captured by driving the fan assembly 32, and the dust collecting bag P, for example, such as a paper bag, is fixed on the inside the dust chamber of the main body, and the filter F of the dust chamber is fixed on the upstream side of the partition 26 on the downstream side of the dust bag P.

The electric fan assembly 32 includes an electric fan 51, a first electric fan cover 52 covering the electric fan 51, and a second electric fan cover 53 covering the first electric fan cover 52.

The electric fan 51 is designed in such a way that the fan cover 58 covering the centrifugal fan 57, driven by the electric motor 55, is connected as a whole with the electric motor casing 56 accommodating the electric motor 55. The electric fan 51 is located so that the side of the electric motor 55 (electric motor casing 56) reaches the back side and the side of the centrifugal fan 57 (fan cover 58) reaches the front side and the front side is slightly inclined downward relative to the horizontal direction laziness.

The electric motor 55 can rotate the rotating shaft 55a in a given direction by creating a rotating magnetic pole in a rotor (not shown) made integrally with the rotating shaft 55a and a switch (not shown), and creating a stationary magnetic pole in the tubular stator (not shown), located around this rotor.

The motor housing 56 includes a main body 56a made in a substantially cylindrical shape with a bottom forming the outer frame of the electric motor 55, and a connecting plate 56b on which the opening side of the main body 56a is fixed in the radial direction. In the main body 56a, a plurality of fan outlets 56c are formed. In the central portion of the rear end portion of the main body 56a, a substantially cylindrical front portion 56d of the electric motor is provided for projecting backward. In addition, the outer periphery of the main body 56a is resiliently suspended and supported on the first fan cover 52 by means of a suspension means 61.

The front portion 56d of the electric motor accommodates, for example, a bearing (not shown) and a thrust spring elastically supporting the bearing. The rotary shaft 55a is axially supported for rotation by a given bearing and a bearing disposed on a connecting plate 56b of the motor housing 56.

The suspension means 61 includes a coaxial annular inner support portion 61a fixed to the periphery of the main body 56a and an annular outer support portion 61b fixed to the side of the first electric fan cover 52, and a plurality of coil springs 61c are disposed between these support portions 61a and 61b quality of means for actuation. Specifically, the coil springs 61c are arranged radially relative to the electric fan 51. In addition, the coil springs 61c are preferably located at substantially the same distance from each other in the circumferential direction. The suspension means 61 is arranged to maintain a center of gravity position of the electric fan 51 or a position near the center of gravity of the first electric fan cover 52.

A centrifugal fan 57 blows air drawn in from the central portion of the outer peripheral side, is connected to one end portion of the rotating shaft 55a, and is located on the outside of the motor housing 56, here, on the front side of the electric motor housing. Around this centrifugal fan 57 is a straightening plate 64 for directing air blown from the centrifugal fan to the outer peripheral side to the main body 56a when the air is straightened. The central portion of this straightening plate 64 is fixed to the connecting plate 56b of the motor housing 56.

The fan cover 58 covers the centrifugal fan 57 and the straightening plate 64 and is fixed to the front side of the main body 56a of the motor housing 56. The fan cover 58 is made of a substantially closed cylindrical shape with a round suction hole 66 open in the central portion.

The first cover 52 of the electric fan is made essentially cylindrical in shape, for example, of synthetic resin, etc. This first electric fan cover 52 comprises a suction hole 71 formed at the front end portion as one end portion, and the substantially cylindrical front housing 72 is integrally formed to protrude backward at the rear end portion as another end portion for receiving the front portion 56d of the electric fan motor 51. In addition, at the lower portion of the first cover 52 of the electric fan, an outlet opening 73 is arranged opposite the outlet openings 56c of the electric fan 51. This first electric fan cover 52 is divided back and forth, for example, into a substantially cylindrical front portion 52a as one portion of the first cover and a substantially cylindrical rear portion 52b as another portion of the first cover. The side of the suction hole 71 of the first cover, which is the front end side of the first fan cover 52, is connected to the suction side silencer 75 on the casing side 25 through the upstream side sealing element 74 as a substantially annular sealing element, which is a vibration damping element in as an elastic element, and the side of the front housing 72, which is the rear end side of the first cover of the electric fan, is supported on the second cover 53 of the electric fan torus on the side of the casing 25 using the sealing element 76 side downstream, which is the second sealing element as an elastic element. Therefore, the lower portion of the first cover 52 of the electric fan is movable at a distance from the lower portion of the second cover 53 of the electric fan.

An outlet opening 73 of the first cover is formed, for example, between the respective lower end portions of the front cover portion 52a and the rear cover portion 52b, and is located on the rear side of the first cover 52 of the electric fan. At the outlet 73 of the first cap, a cap filter 77 is fixed.

The upstream side sealing element 74 is, for example, made of an elastic material (flexible material) such as rubber or elastomer. The front end side of the upstream side sealing element 74 is hermetically connected to the rear end side, which is the exhaust side of the suction side silencer 75, and the intermediate position in the front-back direction is joined to the inner edge of the suction hole 71 of the first fan cover 52, and the rear end side mounted on the front surface of the fan cover 58 from the peripheral edge portion of the suction hole 66 of the cover 58 of the electric fan 51. Therefore, the muffler 7 5 of the suction side is hermetically connected to the suction port 66 of the electric fan 51 through the upstream side sealing element 74.

This suction side silencer 75 is a so-called expansion silencer and absorbs operating noise caused in accordance with the actuation of the electric fan 51 (hereinafter simply referred to as noise when the electric fan 51 is actuated), or the noise of the air flow caused by the air sucked in by the actuation the action of the electric fan 51, and prevents it from being transferred to the side of the floor brush 19 (FIG. 3). This suction side muffler 75 includes a funnel-shaped air passage 75a as the main silencer body, the front end portion of which is fixed to the baffle 26 and whose diameter gradually decreases backward (toward the downstream side), the baffle 75b fixed inside the air duct 75a and sound absorbing material 75c located between the air passage 75a and the partition 75b.

The air passage 75a is a section for rectifying air that has passed through the dust collecting chamber 31 of the main body to the downstream side and is sealed to the rear side, which is the side located downstream of the communicating hole 78 provided in the partition 26 and communicating with the dust chamber 31 of the main body. Therefore, the suction port 66 of the electric fan 51 communicates with the dust chamber 31 of the main body and the suction port 44 of the main body through a suction side silencer 75 and a communication port 78. On the rear side of the air channel 75a, an expansion portion 75e is formed that separates the expansion chamber 75d as silencing chambers between the air duct and the partition 75b. This expansion portion 75e is made in a cylindrical shape, the diameter of which is essentially constant from the front side to the rear side.

The baffle 75b is formed substantially cylindrical and is connected and secured to the air duct 75a, for example, by means of screws, etc. In addition, at the front end portion of this partition 75b, the flange portion 75f covering the front side of the expansion portion 75e is integrally formed in the form of a flange. At the periphery of this partition 75b, a plurality of interconnected holes 75g are formed which provide communication between the inner side and the outer side of the partition 75b.

The flange portion 75f extends to the portion on the side further upstream (upstream) than the expansion portion 75e of the air passage 75a and forms a straightening surface that straightens the air.

The sound-absorbing material 75c is breathable and disposed to fill the entire expansion chamber 75d.

Expansion chamber 75d is a chamber for damping noise by reducing the pressure of the expanding air that passes through the intake side silencer 75.

Sound absorbing material material 75c and size, etc. of the expansion chamber 75d are arbitrarily selected in accordance with the frequencies to be absorbed, the noise when driving the electric fan 51 and the noise of the air flow caused by the air flow sucked in by driving the electric fan 51, etc.

On the other hand, the sealing element 76 of the downstream side is made of an elastic material (flexible material), for example rubber or elastomer, etc. This downstream side sealing member 76 is secured to surround the periphery of the front housing 72.

The second cover 53 of the electric fan is made, for example, of synthetic resin, etc. and is divided up and down into, for example, a lower cap portion 53a as one portion of a second cap and an upper cap portion 53b as another portion of a second cap. This second electric fan cover 53 separates the electric fan chamber 33 inside the rear chamber 28.

The lower portion 53a of the lid is in the form of a box that extends in the width direction left-right and whose upper side is open, and, for example, both sides of the lower portion of the lid are secured to the lower casing 41 using fasteners such as screws. Therefore, the lower portion of this lower cap portion 53a is movable at a distance from the lower surface 41a of the lower casing 41. One side portion of this lower cap portion 53a is a wall section that separates the electric fan chamber 33 and the cord reel chamber, and on this one side a hole (not shown) is formed in the portion that provides communication between the electric fan chamber 33 and the cord reel chamber, and a filter (not shown) is fixed to this hole. In addition, the lower surface of the lower cover portion 53a is located opposite the outlet 73 of the first electric fan cover 52. The front end portion of this lower cap portion 53a is sealed on the periphery of the suction side silencer 75, and the rear end portion is fixed to the inner side of the rear surface 41c of the lower casing 41. The lower portion of the side sealing member 76 is located on the upper portion of the rear end of the lower cap portion 53a. the flow mounted on the first cover 52 of the electric fan.

The upper portion 53b of the lid extends in the width direction left-right, and, for example, both of its end sides, etc. secured to the lower portion of the cover 53a by means of fasteners and cover the entire upper side of the lower portion of the cover 53a, so that the upper portion of the cover completely covers the first cover 52 of the electric fan. In the flat front portion of the upper cap portion 53b, a plurality of second port outlet openings 81 that provide communication between the electric fan chamber 33 and the exhaust air passage 35 are open left and right in the width direction. In addition, in an upper portion of this upper cap portion 53b, a fixing portion 83 for securing the control portion 82 of the main body as a control means for controlling the driving of the electric fan 51 is formed to project upward. A casing 84 is secured to the upper side of the upper cap portion 53b to separate the chamber 35 for passing exhaust air between the casing and the cap cap portion 53b. This upper cover portion 53b is located at a distance from the upper portion of the first fan cover 52. In addition, the rear end of the upper cover portion 53b is bent downward to extend along the outer shape of the first electric fan cover 52, and the lower portion of this rear end is pressure welded to the upper portion of the aforementioned downstream side sealing member 76 fixed to the first electric fan cover 52. Therefore, the rear side of the first fan cover 52 is resiliently mounted and secured from top to bottom between the rear end of the upper cover portion 53b and the rear end of the lower cover portion 53a through the downstream side sealing member 76.

The outlet openings 81 of the second cover are located above the silencer 75 of the suction side and are open along the up-down direction. In the upper portions of these outlet openings 81 of the second cover, that is, on the sides of the exhaust air passage chamber 35, which are discharge sides, sound-absorbing materials 86 of the exhaust side are located, and these sound-absorbing materials 86 of the exhaust side cover all of the exhaust openings 81 of the second cover.

The material of the sound-absorbing materials 86 of the exhaust side is, for example, polyurethane foam, etc., it is arbitrarily set in accordance with the frequencies that must be absorbed, the noise when driving the electric fan 51 and the noise of the air flow caused by air flow, etc., produced by electric fan 51, etc.

The control part 82 of the main body controls the electric fan 51 by adjusting the angle of the current in accordance with the control of the setting buttons 22 (Fig.3) and is made in such a way that various elements, such as a microcomputer as the main body of the control means, are mounted on the substrate, and mounted on the mounting section 83, for example, horizontally, that is, to be along the direction of passage of air inside the chamber 35 for passage of the discharged air.

The casing 84 is made for horizontal passage in the width direction left-right of, for example, synthetic resin, etc. and is located opposite the entire upper portion of the upper cap portion 53b. Therefore, the chamber 35 for the passage of exhaust air is separated on top of the second cover 53 of the electric fan. This casing 84 is secured to the upper portion 53b of the lid with fasteners, such as screws (not shown). In addition, the entire lower end of this casing 84 is in close contact with the upper portion of the upper cap portion 53b, and the upper casing portion is in tight contact with the inner side of the upper casing 42 of the casing 25 and extends horizontally in a forward-backward direction. At the front end of the casing 84, the front wall portion 84a is integrally formed along the up and down direction on the front side of the outlets 81 of the second cover. The rear end of this casing 84 is in close contact with the side upstream of the outlet openings 49. Therefore, between the upper portion 53b of the lid (second fan cover 53) and the casing 84, a chamber 35 is formed for passing exhaust air as a chamber that is closed from the exhaust holes 81 of the second cover to the outlet holes 49, expands in the width direction left-right and passes in the forward-backward direction. In other words, the exhaust air passage chamber 35 is formed in a position between the exhaust openings 81 of the second cover and the exhaust openings 49 as an expansion chamber for damping the noise, that is, a chamber without any openings or gaps, etc., through which air escapes. Specifically, the exhaust air passage chamber 35 is formed in such a way that the cross-sectional area of the air channel increases in comparison with the passage section of the outlets 81 of the second cover.

The cord reel chamber communicates with the outside of the casing 25 through a cord outlet (not shown) open in the rear portion of the upper casing 42. The cord outlet is formed with a size that allows the end of the power cord to be output. The cord reel chamber, power cord, and cord reel are not essential elements. Specifically, the electric vacuum cleaner 11 may be configured such that electric power is supplied to the electric fan assembly 32 and the control portion 82 of the main body, etc. with a battery, such as a secondary battery, installed inside the main body 13 of the vacuum cleaner (casing 25).

The action of the electric vacuum cleaner and its result are described below.

When cleaning in a state in which it is possible to supply electric power to the electric fan 51, the worker grabs the gripping part 21 shown in FIG. 3 and controls the setting buttons 22, and accordingly, the control part 82 of the main body drives the electric fan 51. Specifically, due to the rotation of the centrifugal fan 57, the negative pressure is created by the electric motor 55 of the electric fan 51. This negative pressure is applied to the dust collecting chamber 31 of the main body, the suction hole 44 of the main body, and the tube 12 through the silencer 75 of the suction side for sucking dust together with air from the end side of the floor brush 19. In addition, vibration caused by the rotation of the centrifugal fan 57 of the electric fan 51 is absorbed by stretching and compressing the coil springs 61c and is prevented from being transmitted to the first cover 52 of the electric fan, and the noise when the electric fan 51 is driven is damped by the suction side silencer 75.

The worker places the floor brush 19, shown in FIG. 3, on the floor surface, grabs the grip part 21 and causes the floor brush 19 to move back and forth, and accordingly, the cleaning is carried out by drawing dust from the floor using the floor brush 19 .

The intake air becomes a suction air stream and is sucked into the dust collecting chamber 31 of the main body together with the dust through the extension pipe 18, the sleeve 16 and the connecting pipe 15, and the dust is collected in the dust collecting bag P of the dust collecting chamber of the main body. Then, the suction air stream from which the dust was separated passes through the filter F of the dust collecting chamber and then is sucked into the suction side silencer 75 from the communicating hole 78 and straightened along the air passage 75a and the flange portion 75f of the suction side silencer 75. In addition, by expanding the suction air flow from the interconnected openings 75g to the expansion chamber 75d, the noise of the air flow is absorbed and then absorbed by sound-absorbing material 75c filled in the expansion chamber 75d.

After that, the suction air stream passes through the inside of the side sealing element 74 upstream of the suction side muffler 75 and is sucked into the suction hole 66 of the electric fan 51 through the suction hole 71 of the first cover, is sucked from the central portion of the centrifugal fan 57 and blown to the outer peripheral side, is sucked into the main body 56a of the motor housing 56 when rectified by a straightening plate 64 and becomes discharged air, cools the electric motor 55 and passing through the inside of the main body 56a and is blown out of the fan outlets 56c.

After that, the exhaust air is rectified inside the first fan cover 52 and then is discharged from the outlet of the first cover 73 into the fan chamber 33 on the lower side when passing through the filter 77 of the cover and is blown onto the lower surface of the lower portion 53a of the second fan cover 53, passes through the front side of the first cover 52 of the electric fan from the lower portion 53a of the cover through the periphery of the muffler 75 of the suction side and is discharged into the chamber 35 for passage of exhaust air on the upper Oron from the outlets 81 of the second lid.

In this case, the noise of the air flow caused by the exhaust air and the noise when driving the electric fan 51 included in the exhaust air are absorbed due to the passage of the exhaust air through the long air channel and the expansion of the exhaust air in the chamber 35 for passing the exhaust air so that the exhaust air is discharged from the outlet 73 of the first cover into the interior of the second fan cover 53 and then is discharged from the outlet openings 81 of the second cover into the passage 35 of the exhaust air due to the passage through the sound-absorbing materials 86 of the exhaust side located in the exhaust openings 81 of the second cover.

After that, the discharged air passes back through the inner part of the chamber 35 to pass the discharged air when cooling the control part 82 of the main body and is discharged to the outside of the casing 25 from the outlet openings 49 when passing through the filter 50 of the outlet.

After completing the cleaning, the worker accordingly controls the setting buttons 22 to stop actuating the electric fan 51.

As described above, in accordance with an embodiment of the electric vacuum cleaner, the first fan cover 52 that covers the electric fan 51 is closed by the second fan fan cover 53 to isolate noise when driving the electric fan 51, and the noise of the air stream, which becomes especially strong due to the concentrated passage of a large volume air through a narrow and short air channel, is absorbed by ensuring the length of the channel for the release of air so that the exhaust air from the electric fan 51 and discharged from the outlet 49 after passing through the first cover of the fan 52, the second lid 53 and the electric blower chamber 35 for passage of exhaust air, and accordingly, the noise reduction characteristic is improved.

By using the chamber 35 to pass the exhaust air as an expansion chamber for damping the noise, noise when driving the electric fan 51 or the noise of the air flow of the electric fan included in the exhaust air that has passed from the fan chamber 33 into the chamber 35 for passing the exhaust air is absorbed expanding the exhaust air in the chamber 35 for passing the exhaust air, so that the noise reduction characteristic can be further improved.

In addition, due to the location of the sound-absorbing materials 86 of the exhaust side on the exhaust sides of the exhaust openings 81 of the second cover, noise when driving an electric fan 51 or noise of air flow, etc. the electric fan 51 can be absorbed by sound-absorbing materials 86 of the exhaust side and the noise reduction characteristic can be further improved.

By connecting the suction side silencer 75 to the suction port 71 of the first fan cover 52 through the upstream side sealing element 74, the fan 51 can be supported together with the first fan cover 52 in a position near the center of the fan shaft 51 by the suction side silencer 75, so that the effect of vibration caused by the actuation of the electric fan 51 can be minimized.

Furthermore, by arranging the sound-absorbing material 75c inside the expansion chamber 75d of the suction side silencer 75, the sound-absorbing effect of the suction side silencer 75 can be further enhanced, so that the noise reduction characteristic can be further improved.

Noise on the suction side of the electric fan 51 can be absorbed by the suction side silencer 75, so that noise propagated from the end side of the floor brush 19 through the dust collecting chamber 31 of the main body, the suction port 44 of the main body and the tube 12 can be further reduced, and the noise reduction characteristic can be further improved.

The outlet of the first cover 73 is located on the rear side of the first cover 52 of the electric fan, the outlets 81 of the second cover are located on the front side of the second cover 53 of the electric fan, that is, in positions remote from the outlet 73 of the first cover, and the outlets 49 are located on the rear side of the casing 25, that is, in positions remote from the outlet openings 81 of the second cover, and, accordingly, the length of the channel for discharging air through which the discharged air from the electric fan passes is increased due to repeated bending backwards in the direction back and forth as shown by arrows in Figure 2, so that the noise reduction characteristic can be further improved.

In addition, the periphery of the electric fan 51 is resiliently suspended on the first fan cover 52 by means of a suspension means 61, and the front side and the rear side, which are both end portions in the axial direction of the first electric fan cover 52, are resiliently supported by sealing elements 74 and 76, respectively , and therefore, the transmission of vibration caused by the actuation of the electric fan 51, the second cover 53 of the electric fan or the outer side of the casing 25 can be reduced, and the character acteristic noise reduction can be further improved.

The lower section of the first fan cover 52 is located at a distance from the lower section of the second fan cover 53, and the lower section of the second fan cover 53 is located at a distance from the lower surface 41a of the lower casing 41 of the casing 25, so that the vibration caused by the operation of the electric fan 51 is almost is transmitted to the casing 25, and the noise caused by this vibration can be reduced, so that the noise reduction characteristic can be further improved.

In addition, the casing 25 has a design with many compartments, for example, by separating the dust chamber 31 of the main body inside the front chamber 27 and separating the chamber 33 of the electric fan inside the rear chamber 28, so that the noise when driving the electric fan 51 and vibration caused by action, etc., are hardly transmitted to the outside of the casing 25, and the noise reduction characteristic can be further improved.

By arranging the control part 82 of the main body inside the chamber 35 for passing the discharged air, the control part 82 of the main body can be effectively cooled by the discharged air passing through the chamber 35 to pass the discharged air.

In addition, in the embodiment described above, part of the chamber 35 for passing the exhaust air can be used as an expansion chamber for damping noise.

A second electric fan cover 53 may be located to close part of the first electric fan cover 52.

In addition, the elements of the electric vacuum cleaner 11 are not limited to the configuration described above, and the present invention is applicable not only to a container-type electric vacuum cleaner 11, but also to an arbitrary electric vacuum cleaner such as a vertical type electric vacuum cleaner including a floor brush 19 connected to a lower portion of the vertical long main body 13 of the vacuum cleaner, or a manual electric vacuum cleaner, etc.

Claims (6)

1. An electric vacuum cleaner containing a main casing (25) having a suction hole (44) and at least one outlet (49) located on the rear of the main casing (25), an electric fan (51) located inside the main casing ( 25), so that its suction side communicates with the suction hole (44), the first fan cover (52), which has an outlet (73) of the first cover that releases air from the electric fan and is located on the rear bottom of the first fan cover (52), and closes the electric a fan (51), a second cover (53) of the electric fan, which has at least one outlet (81) discharging air discharged from the outlet (73) of the first cover of the electric fan, and located on the front side of the upper part of the second cover ( 53) of the electric fan, closes at least part of the first cover (52) of the electric fan and supports the first cover (52) of the electric fan, and the casing (84), in which a closed space is separated to ensure communication between the outlet (81) of the second cover electric fan and at least one outlet (49) of the main casing (25). 2. An electric vacuum cleaner according to claim 1, in which at least part of the enclosed space is an expansion chamber for damping noise. 3. The vacuum cleaner according to claim 2, containing sound-absorbing material of the exhaust side, located on the exhaust side of the outlet of the second cover. 4. The electric vacuum cleaner according to claim 1, in which the first cover of the electric fan contains a suction hole in communication with the suction side of the electric fan, and which contains a vibration isolating element mounted on the suction hole of the first cover, and a silencer of the suction side containing the inside of the expansion chamber of noise suppression and connected with the first cover of the electric fan using a vibration-isolating element. 5. An electric vacuum cleaner according to claim 4, wherein the suction side silencer comprises sound-absorbing material located inside the noise suppression chamber. 6. The vacuum cleaner according to claim 1, containing means for hanging, elastically suspending the periphery of the electric fan on the first cover of the electric fan, and elastic elements that elastically support both end sections in the axial direction of the first cover of the electric fan on the side of the main casing.

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