JP2019136576A - Vacuum cleaner - Google Patents

Abstract

To provide a vacuum cleaner preventing a power supply cord from entangling at the time of winding the cord.SOLUTION: A vacuum cleaner includes: a dust collection part 18; an electric blower 15; a cleaner body 2 having a cord reel 16; a power supply cord 16b wound around the cord reel 16; and a roller 24 provided between the cord reel 16 and a cord entrance of the power supply cord 16b in the cleaner body 2 and provided so as to be rotatable with respect to the cleaner body 2. A spiral groove 24b is provided to at least part of the roller 24, and the spiral groove is provided over the whole area of the power supply cord entrance.SELECTED DRAWING: Figure 11

Description

  The present invention relates to a vacuum cleaner.

2. Description of the Related Art Conventionally, a vacuum cleaner has a cord reel that can wind up a power cord with a mainspring spring in the main body of the vacuum cleaner, for example, as disclosed in Patent Document 1.
In addition, in order to prevent rubbing with the power cord at the entrance / exit portion of the power cord on the outer shell of the main body, a cylindrical roller that can rotate independently may be provided on the side where the power cord is easy to slide.

JP 2014-204773 A

  However, depending on the positional relationship between the cord reel and the power cord inlet / outlet, the power cord may not be wound evenly around the cord reel, but may be wound up so as to be concentrated and stacked along one wall surface. The code stacked on top of the cord collapsed and the position could be reversed. If the position of the power cord is reversed, when the user pulls out the power cord again, the power cord may get tangled and the power cord cannot be pulled out. This phenomenon is particularly likely to occur when the cross section of the power cord is not substantially circular but is substantially square.

  An object of this invention is to provide the vacuum cleaner which can prevent the entanglement at the time of winding of a power cord.

  The present invention relates to a dust collector, an electric blower, a vacuum cleaner body having a cord reel, a power cord that can be taken in and out of the vacuum cleaner body, and wound around the cord reel, the cord reel, and the vacuum cleaner body A roller provided between the power cord inlet and outlet and rotatable with respect to the cleaner body and provided with a spiral groove at least in part, wherein the spiral groove is It is provided over the whole area of the power cord entrance / exit.

  Furthermore, the cross section of the power cord is substantially rectangular.

  According to the present invention, when the power cord is wound, the power cord touches the roller provided with the substantially spiral groove and rotates, whereby the power cord is urged along the groove of the roller. It is possible to provide a vacuum cleaner that can prevent the power cords from being concentrated from a part of the power cord entrance and exit, prevent the power cords from being wound so as to be stacked, and prevent the power cords from being entangled.

  Further, according to the present invention, the convex part of the parting line that occurs in the manufacture of the roller provided with the spiral groove does not hinder the rotation of the roller, and the electric vacuum cleaner that can further prevent the power cord from being entangled. Can be provided.

It is an appearance perspective view showing the whole electric vacuum cleaner concerning this embodiment. It is a partially exploded perspective view which shows a cleaner body. It is a perspective view which shows the state which opened the dust case cover in the vacuum cleaner main body. It is a rear view of a vacuum cleaner main body. It is a rear view of the state which removed the exhaust cover from the cleaner body. It is a longitudinal cross-sectional view of a cleaner body. It is the sectional view on the AA line of FIG. It is the BB sectional view taken on the line of FIG. It is a back perspective view of the state where the exhaust cover was removed from the cleaner body. FIG. 10 is a cross-sectional view taken along the line CC of FIG. It is an enlarged view of the power cord entrance of a cleaner body. It is a single item drawing of a roller.

  DESCRIPTION OF EXEMPLARY EMBODIMENTS Embodiments according to the invention will be described below with reference to the drawings as appropriate. However, the embodiments are not limited to the following contents, and can be appropriately modified and implemented within the scope of the invention.

FIG. 1 is an external perspective view showing the entire vacuum cleaner according to the present embodiment.
As shown in FIG. 1, the vacuum cleaner 1 includes a cleaner body 2, a hose 3, an operation tube 4, an extension tube 5, a suction tool 6, a separate handle 30, and the like.

  One end of the hose 3 is connected to the cleaner body 2, and the other end is connected to one end of the operation tube 4. The operation tube 4 includes a grip 4a including a hand operation switch. The extension pipe 5 is configured to be extendable and contractable by an outer pipe 5a and an inner pipe 5b.

FIG. 2 is a partially exploded perspective view showing the cleaner body 2. In FIG. 2, illustration of the power cord 16 b that can be pulled out from the cord reel 16 and wound around the cord reel 16 is omitted.
As shown in FIG. 2, the cleaner body 2 is a so-called paper pack type, and includes a lower case 11, an upper case 12, a dust case cover 13, and an exhaust cover 14.

  The lower case 11 constitutes the outer shell (appearance) of the lower part of the cleaner body 2, and is formed of a synthetic resin material such as PP resin. Further, the lower case 11 has a concave portion 11a whose upper portion is opened in a substantially rectangular shape, and houses an electric blower 15 that generates a suction force, a cord reel 16, a control board 17 that controls the electric blower 15, and the like. The lower case 11 has a dust collecting portion 18 that can accommodate a dust collecting device such as a paper pack that stores dust collected by the suction force of the electric blower 15.

  In the lower case 11, the electric blower 15, the cord reel 16, and the control board 17 are disposed on the rear side from the approximate center in the front-rear direction, and the dust collecting unit 18 is disposed on the front side from the approximate center in the front-rear direction. The electric blower 15 and the cord reel 16 are arranged in the front-rear direction, and the cord reel 16 is arranged behind the electric blower 15. The control board 17 is arranged on the upper part of the electric blower 15. A lid packing 18 a is attached to the upper edge of the dust collecting portion 18 in an annular shape. FIG. 3 shows a state in which unused paper packs 21 are accommodated.

  The upper case 12 has a shape that covers the entire upper side of the electric blower 15, the cord reel 16, and the control board 17, and is fixed to the lower case 11. In addition, a winding button 22 that is pressed when the power cord 16b (see FIG. 8) is wound around the cord reel 16 is provided on the upper case 12. The winding button 22 is biased upward by a spring (not shown).

  The dust case cover 13 constitutes a part of the outer shell (external appearance) of the upper portion of the cleaner body 2, and mainly opens and closes the upper portion of the dust collecting portion 18. The dust case cover 13 is made of a synthetic resin material such as ABS resin. Further, the dust case cover 13 is formed in a convex shape upward with a surface having no irregularities on the outer surface 13a.

  The exhaust cover 14 constitutes a part of the outer shell (external appearance) of the upper portion of the cleaner body 2, and is provided adjacent to the rear of the dust case cover 13.

  The exhaust cover 14 has an outer surface 14a having the same curvature as the outer surface 13a of the dust case cover 13, and when the dust case cover 13 is closed (see FIG. 1), the outer surface 14a and the outer surface of the dust case cover 13 It is comprised so that 13a may become flush.

  The exhaust cover 14 includes an opening 14b that exposes the operation surface of the winding button 22, a power cord inlet / outlet 14c from which the connection plug 16c (see FIG. 4) is drawn, an exhaust outlet 14d for exhausting to the outside, have.

FIG. 3 is a perspective view showing a state where the dust case cover 13 is opened in the cleaner body 2.
As shown in FIG. 3, a rib 13 b that protrudes along the lid packing 18 a of the dust collecting portion 18 is formed on the back surface of the dust case cover 13. A lock member 13 c that is engaged with the front end of the hose port 20 and is locked is provided on the back surface of the dust case cover 13.

  A hinge portion 12b that rotatably supports the dust case cover 13 is formed in the vicinity of the exhaust cover 14 at the upper portion of the upper case 12. The dust case cover 13 is configured to be opened until it is directed upward in the vertical direction.

  The dust collection unit 18 communicates with a hose connection port 20b formed in the hose port 20 and communicates with a space in which the electric blower 15 (see FIG. 2) is accommodated via a filter 18b. In the present embodiment, a paper pack type is described as an example, but the present invention can also be applied to a cyclone type electric vacuum cleaner.

FIG. 4 is a rear view of the cleaner body 2.
As shown in FIG. 4, large-diameter wheels 19 a and 19 a are rotatably attached to the left and right side surfaces of the lower portion of the lower case 11. A wheel 19 b that can change the direction with respect to the lower case 11 is attached to the lower surface of the lower case 11.

  The exhaust port 14d formed in the exhaust cover 14 has a plurality of slit-shaped holes 14d1, and the holes 14d are provided in parallel to each other. Further, the exhaust port 14d is formed asymmetrically from the upper part of the curved outer surface 14a of the exhaust cover 14 to the left end. The power cord inlet / outlet 14c is formed so as to protrude from the right end of the outer surface 14a, and has a hole that opens to the right and rear.

FIG. 5 is a rear view of the cleaner body 2 with the exhaust cover 14 removed.
A substantially semicircular opening 12 m is formed on the back surface of the upper case 12. In the opening 12m, elongated plate-like wall portions 12m1, 12m2, and 12m2 extending in the vertical direction are formed. Exhaust communication holes 12n1, 12n1, 12n2, and 12n2 are formed on the left and right sides of the wall portions 12m1, 12m2, and 12m2, respectively, for communicating the inside and outside of the upper case 12. The exhaust communication holes 12n1 and 12n2 are configured as passages through which air discharged from the electric blower 15 (see FIG. 2) passes from the electric blower 15 side to the exhaust cover 14 side via the upper case 12.

  The roller 24 is rotatably supported by the upper case 12. It is supported by the roller support portion 12q (see FIG. 11) of the upper case 12, and the roller head 24a is prevented from coming off when it hits the roller claw portion 12p of the upper case 12.

FIG. 6 is a longitudinal sectional view of the cleaner body 2.
As shown in FIG. 6, the electric blower 15 includes a fan motor portion 15d in which a fan 15a and an electric motor 15b are housed in a metal housing 15c, and a case portion 15e in which the fan motor portion 15d is housed. ing.

  Further, the electric blower 15 is placed horizontally so that the fan 15a faces the front, and an intake port 15f for sucking exhaust gas from the dust collecting unit 18 is formed on the front surface. The fan motor unit 15d is housed in a synthetic resin case 15e via a vibration isolating rubber 15g. The case portion 15e is fixed to the lower case 11 with screws.

  The vacuum cleaner main body 2 is formed with a handle portion 20c having a concave shape in cross section for lifting and transporting the vacuum cleaner main body 2 by placing a finger on the lower surface of the front end of the lower case 11 (below the hose connection port 20b). ing.

  In the upper part of the cleaner body 2, a space Q <b> 1 is formed between the upper case 12 and the dust case cover 13, and a space Q <b> 2 is formed between the upper case 12 and the upper surface 14 s of the exhaust cover 14. Further, a space Q <b> 3 is formed between the upper case 12 and the back surface 14 t of the exhaust cover 14 at the back of the cleaner body 2.

  A control board 17 including a board 17b on which various electric components 17a are provided is attached to the upper part of the electric blower 15. An electrical component 17a is provided on the upper surface of the substrate 17b. A space Q3 through which air flows is formed between the control board 17 and the upper case 12.

  The cord reel 16 includes a reel portion 16a that winds or feeds the power cord 16b, and a power cord 16b that is connected to a commercial power source. The reel portion 16a is rotatably supported in the lower case 11 so that the rotation shaft 16g is disposed facing the front-rear direction.

7 is a cross-sectional view taken along line AA in FIG.
As shown in FIG. 7, the electric blower 15 has an exhaust portion 15h formed on the right side surface (the left side in the drawing) of the case portion 15e. An air cleaning filter 23 is attached to the exhaust part 15h. Examples of the filter 23 include a HEPA filter (High Efficiency Particulate Air Filter) and a ULPA filter (Ultra Low Penetration Air Filter).

  Moreover, as shown by the white arrow in FIG. 7, the exhaust gas that has exited from the exhaust part 15h flows upward (see arrow R1), and after flowing from the right direction to the left direction of the control board 17 (arrow) R2), it is configured to flow backward (see arrow R3) through the communication hole S1 indicated by hatching. In addition, behind the electric blower 15, the edge of the disc 16 a 1 of the reel portion 16 a and the edge of the partition plate 12 i extending downward from the back surface (lower surface) of the upper case 12 abut on the wall surface. Is configured. As a result, the exhaust discharged from the exhaust portion 15 h does not flow directly toward the cord reel 16.

8 is a cross-sectional view taken along the line BB in FIG. In FIG. 8, the illustration of the cord portion of the power cord 16b is omitted, and only the connection plug 16c is shown.
As shown in FIG. 8, the exhaust gas (see arrow R4) that has passed through the communication hole S1 (see FIG. 7) flows toward the exhaust communication holes 12f and 12g and cools the cord reel 16 (see FIG. 8). While flowing. Exhaust gas that has passed through the exhaust communication hole 12f flows between the upper case 12 and the exhaust cover 14, and is discharged from the hole on the left side of the exhaust port 14d (see arrow R5). Further, the exhaust gas that has passed through the exhaust communication hole 12g flows between the upper case 12 and the exhaust cover 14, and is discharged from the hole on the right side of the exhaust port 14d (see arrow R6). Further, the exhaust gas that has not passed through the exhaust communication holes 12f and 12g is discharged to the outside through a gap between the power cord inlet / outlet 14c through which the power cord 16b is inserted and the power cord 16b (see arrow R7).

  In the vacuum cleaner 1 configured as described above, the electric blower 15 and the cord reel 16 are arranged at the front and rear in the cleaner main body 2 (see FIG. 6), and the exhaust portion 15h is provided on the side surface of the electric blower 15. Thus, the left and right widths of the main body can be reduced while mounting the air cleaning filter.

  Moreover, in the vacuum cleaner 1, by providing the exhaust part 15h in the side surface of the electric blower 15, the height of the electric blower 15 can be made low and the height of the cleaner main body 2 can be made low. According to this, since the flow path in which most of the air discharged from the electric blower 15 crosses the control board 17 is formed, even if the control board 17 is arranged on the upper part of the electric blower 15, the height of the vacuum cleaner main body 2 is increased. Can be prevented from becoming too large.

  Further, in the vacuum cleaner 1, the control board 17 is disposed above the electric blower 15, and in the space between the upper case 12 and the exhaust cover 14 on the opposite side to the exhaust portion 15 h with the electric blower 15 interposed therebetween. A communication hole S1 for allowing the exhaust to flow is formed. According to this, the control board 17 can be efficiently cooled.

  Moreover, in the vacuum cleaner 1, since the circumference | surroundings of the electric blower 15 are covered with the double wall by the upper case 12 and the exhaust cover 14, there exists an effect which can reduce noise (exhaust sound etc.).

  Furthermore, since the upper case 12 is covered with the dust case cover 13 and the exhaust cover 14, no impact from the outside is directly applied to the upper case 12, so that the resin can be made thinner and lighter. can do.

  FIG. 9 is a rear perspective view of the cleaner body 2 with the exhaust cover 13 removed. FIG. 10 is a cross-sectional view of the CC cross-sectional view (power cord) of FIG. The power cord 16b is put in and out in the direction shown in the figure while touching the roller 24, and the roller 24 rotates in accordance with the taking in and out of the power cord 16b. The power cord 16b is configured to cover the electric wire portion 16d with the insulating portion 16e, and has a substantially rectangular cross section. The power cord of a vacuum cleaner generally has a substantially circular cross section, but the insulation portion 16e is insulated by making it substantially rectangular because the required size is determined by the distance between the wire portion 16d and the outer portion. The portion 16e can be minimized, and the weight and size can be reduced.

FIG. 11 is an enlarged view of the cleaner body 2 as viewed from the power cord entrance 14c side. FIG. 12 is a single item diagram of the roller 24. The roller 24 is rotatably supported with respect to the roller support portion 12q of the upper case 12. The roller 24 rotates in the A direction when pulling out the power cord 16b and in the B direction when winding. At least a part of the roller 24 is provided with a spiral groove 24b. Specifically, a spiral groove 24b is provided in a portion where the power cord 16b of the roller 24 touches. In the arrangement of the vacuum cleaner 1 of the present embodiment, when the power cord 16b is wound, the power cord 16b tends to be concentrated and wound on the rear side of the entrance / exit 14c, so that the twist direction of the groove 24b is rotated in the B direction. Sometimes the power cord 16b is biased forward. Depending on the positional relationship between the cord reel 16 and the power cord inlet / outlet port 14c, the twisting direction of the groove 24b may be reversed. This makes it difficult for the power cord 16b to be concentrated on a part of the power cord inlet / outlet 14c and to be wound on the wall surface on one side of the cord reel 16, and to be wound on the power cord wound later. This prevents the cord from falling down and reversing the position, and prevents the power cord from becoming tangled and unable to be pulled out.
The roller 24 is supported by the roller support portion 12q in the vicinity of the power cord inlet / outlet 14c. However, the position where the roller 24 is supported is not limited to this, and the position between the cord reel 16 and the power cord inlet / outlet 14c in the cleaner body 2 is not limited. It may be provided between them.

  Since the roller 24 is provided with a spiral groove 24b, it is desirable that the roller 24 be formed of a synthetic resin material such as PBT resin that can be formed by injection molding in order to increase the mass productivity. However, when formed by injection molding, the moving direction of the mold is as indicated by X in FIG. 12, and a parting line 24d is generated at the center of the roller 24. Therefore, in the case of a substantially cylindrical shape, the parting line 24d May be caught on the roller support portion 12q, preventing rotation of the roller 24. Therefore, in the vacuum cleaner 1 of the embodiment, a part of the substantially cylindrical shape is flattened in a portion where the parting line 24d is generated in the portion that contacts the roller support portion 12q of the upper case 12 of the roller 24. A flat portion 24c is provided. As a result, it is possible to prevent the convex portion of the parting line 24d from obstructing the rotation of the roller 24.

  The present invention is not limited to the above-described embodiment, and can be changed as appropriate without departing from the scope of the present invention. For example, in the present embodiment, the case where the cord reel 16 is provided behind the electric blower 15 has been described as an example, but the cord reel 16 may be applied to the cleaner body 2 provided on the side of the electric blower 15. Good.

1 Vacuum Cleaner 2 Vacuum Cleaner Body 11 Lower Case 12 Upper Case 13 Dust Case Cover (Dust Collection Cover)
DESCRIPTION OF SYMBOLS 14 Exhaust cover 14d Exhaust port 15 Electric blower 15h Exhaust part 16 Code reel 16b Power cord 17 Control board 18 Dust collecting part 19a Wheel 24 Roller 24b Roller groove

Claims (5)

A dust collector, an electric blower, and a vacuum cleaner body having a cord reel;
A power cord that can be taken in and out of the main body of the vacuum cleaner and wound on the cord reel;
A roller provided between the cord reel and the power cord inlet / outlet in the cleaner body, rotatable relative to the cleaner body, and at least partially provided with a spiral groove;
Have
The vacuum cleaner, wherein the spiral groove is provided over the entire area of the power cord entrance.   The vacuum cleaner according to claim 1, wherein a cross section of the power cord is substantially rectangular.   The vacuum cleaner according to claim 1, wherein a cross section of the power cord is substantially elliptical.   The vacuum cleaner according to any one of claims 1 to 3, wherein two or more rows of the spiral grooves are provided.   The vacuum cleaner according to any one of claims 1 to 4, wherein the spiral groove is provided by twisting.

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