JP2018008058A - Tool for vacuum cleaner - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a vacuum cleaner tool that restricts the amount of movement of a duct in an undesired direction thereby increasing maneuverability.SOLUTION: There is provided a vacuum cleaner flexible duct. The flexible duct comprises a helical frame and a helical strip. The helical frame includes a plurality of loops arranged about a helical axis and is formed of a rigid material. The helical strip is provided on the helical frame to seal the flexible duct and is formed of a pliable material. At least one loop of the helical frame has one or more projections that extend towards an adjacent loop. The projections limit the flexing of the flexible duct in a direction normal to the helical axis.SELECTED DRAWING: Figure 4

Description

  The present invention relates to a flexible duct for a vacuum cleaner. More specifically, the present invention relates to a flexible duct for a vacuum cleaner tool.

  FIGS. 1 and 2 are example flexible gap tools 100, 200, which can be used in a vacuum cleaner. The tools 100, 200 are intended to be cleaned by plunging into a gap to be cleaned or a gap. Both the tools shown in FIGS. 1 and 2 include a flexible duct 300 formed from a flexible housing material 400, which is reinforced by a rigid frame 500. The flexible housing material 400 is bent by the steering force applied to the tools 100 and 200 when the tool is in the gap. The rigid frame 500 is used to improve tool control and steering in the desired direction and to prevent the flexible duct 300 from folding or twisting. Folding and twisting can restrict the flow of fluid drawn through the tools 100, 200, and can also cause damage to the flexible duct 300, so that bending and twisting of the duct should be prevented. It is.

  The two example gap tools 100, 200 employ two different types of rigid frames 500 to improve tool control and steering and to prevent bending and twisting of the duct. The problem with the tool 100 shown in FIG. 1 is that the use of the rigid central spine body 600 completely restricts the duct from bending in a particular direction, ie toward the spine body 600. This can be a problem, for example, if the clearance to be cleaned is irregular because the tool can experience reduced operability in this clearance.

  The tool 200 shown in FIG. 2 introduces a helical frame 700 to improve duct bending. The flexible housing material 400 bends and bends freely in all directions. Accordingly, the flexibility range of the duct 300 and its operability in the gap are improved. However, the danger that the flexible housing material 400 may still bend or twist if the normal rotation of the helical frame 700 is far apart or if the material used for the helical frame 700 is too flexible. There is sex. Thus, the duct frame 500 used in the prior art tools 100, 200 represents a compromise between the flexibility range of the duct 300 and the prevention of bending and twisting of the duct 300.

  In a first aspect, the present invention provides a vacuum cleaner tool comprising a flexible duct, the vacuum cleaner tool comprising a plurality of loops disposed about a helical axis and formed of a hard material. And a spiral strip formed of a flexible material, wherein the at least one loop has one or more protrusions extending toward an adjacent loop. , Thereby limiting the bending of the flexible duct in one direction perpendicular to the helical axis.

  By providing the protrusion on at least one loop of the helical frame, the degree of motion of the flexible duct in the direction perpendicular to the helical axis is reduced without being over-suppressed. This provides the user with control of the flexible duct in the desired maneuvering direction, such as the left-right direction, instead of bending the duct in the up-down direction, for example. Since the protrusion on the loop regulates the momentum of the duct in an undesired direction, the risk of the user being unable to control and bending or twisting the duct is similarly reduced. As a result, it is possible to reduce the risk of the duct being bent or twisted while maintaining a high degree of flexibility and operability. The regulation of movement likewise has the further advantage of reducing the risk of causing damage to the flexible duct by preventing excessive bending in certain directions.

  With respect to the bending motion, the duct can be said to bend in the left-right direction and the up-down direction perpendicular to the spiral axis. The protrusions in the loop can be spaced or positioned so that these protrusions limit the total range of motion of the duct in both the left and right directions. As a result, these protrusions are arranged such that they restrict the range of movement of the duct in one direction (ie left and right or up and down) perpendicular to the helical axis relative to the range of movement of the tool in the other direction Can be done.

  The cross-section of the flexible duct can be substantially rectangular and comprises two long sides connected by a short top surface and a short bottom surface. The generally rectangular shape of the flexible duct allows a narrow profile gap tool to fit in most gaps and gaps. The requirement of a substantially rectangular shape does not exclude curving or shaping the sides of the rectangular duct for aesthetic or ergonomic purposes.

  The protrusions in the loop can be arranged along the top and / or bottom surface of the flexible duct and limit the movement of the flexible duct only in one direction perpendicular to the helix axis, ie, up and down. By limiting the direction of movement of the flexible duct to a single direction, the movement of the flexible duct is not restricted in other directions perpendicular to the helical axis. By providing the protrusion along the top surface or the bottom surface, the operability of the duct can be improved. Furthermore, while still reducing the amount of material used and the complexity of the parts, it still provides a reasonable compromise between duct flexibility and duct bend prevention. However, the protrusions in the loop can be provided on both the top and bottom surfaces of the flexible duct. Having protrusions on the top and bottom surfaces of the duct may improve user duct control and further reduce the risk of the duct being bent or twisted and / or damaging the duct itself. For example, when using a tool to clean a shaping gap or gap, some force is applied in the vertical direction relative to the helical axis as the tool is pressed against the floor of the gap. Thus, it is advantageous to reinforce the duct in this direction to prevent accidental steering of the duct and likewise folding and damaging the tool.

  The spiral strip may have a recess provided in the side of the flexible duct. The recess allows for improved duct flexibility, as well as creases the duct for bending as the duct bends.

  Each of the loops may comprise a central band having at least one wing, and the spiral strip is secured to the at least one wing so that the outer surface of the spiral strip is the outer surface of the central band and / or It is flush with the inner surface. Spiral strips are used to seal the space between rigid frame loops and consist of a single piece of material (such as a ribbon or band) or a series of interconnected bands that form a sealed duct together. Can be in form. That is, the spiral strip is used to connect the loops of the spiral frame. The spiral strip can be overmolded or glued to the spiral frame. Similarly, spiral strips can be provided only between the loops of the spiral frame, as compared to a full sheath covering both the frame and the space between the loops of the frame.

  The soft sheath used in the prior art example is placed over the flexible duct of the tool and hides the frame. In contrast to these sheaths, using a single piece of spiral strip material means that less material may be used to form a sealed duct. Further, the helical strip between the loops can be formed such that the helical loop is flush with the central band of each of the loops. This is in contrast to attaching a sheath over the frame and increasing the tool profile. Thus, the tool profile can be reduced, so that the tool can fit in narrow gaps and gaps without compromising operability and the ability to control the tool. Although at least a portion of the spiral frame may not be covered (ie, the central band of each loop may appear exposed), a spiral strip may be used to cover other portions of the loop. For example, the wings and protrusions in the loop can be hidden by a spiral strip. Furthermore, since the duct has a smooth inner surface, the amount of loss due to turbulence is reduced when airflow is drawn through the duct.

  The tool according to the present invention is a telescopic tool comprising a first and a second conduit, the first conduit having a narrower profile than the second conduit, the second conduit surrounding the first conduit and thereby The first conduit slides into and out of the second conduit, allowing the tool to extend, and the flexible duct forms part of the first conduit. The use of flexible ducts with telescopic tools allows longer tools that can be placed in gaps or gaps to be cleaned. Furthermore, providing a rigid conduit together with a conduit having a flexible duct improves the handleability and operability of the tool since the user can hold the rigid conduit and steer the tool.

  In a second aspect, the present invention provides a vacuum cleaner duct, the vacuum cleaner duct having a helical frame comprising a plurality of loops disposed about a helical axis and formed of a hard material; And a helical strip formed of a flexible material, the at least one loop having one or more protrusions extending toward an adjacent loop, thereby providing a helical axis Limit the duct to bend in one direction perpendicular to

  In order that the present invention may be more readily understood, embodiments thereof will now be described, by way of example, with reference to the accompanying drawings, in which:

It is a figure which shows the tool formation component of a prior art. It is a figure which shows another tool formation component of a prior art. It is a perspective view which shows a tool provided with the flexible duct concerning this invention. It is a perspective view which shows the flexible duct concerning this invention. It is an enlarged view which shows the flexible duct concerning this invention, Comprising: It is an enlarged view in which an insert shows the detail of a flame | frame. FIG. 4 is a top view showing the tool of FIG. 3. It is a top view which shows the tool of FIG.

  FIG. 3 shows a tool 1 comprising a first conduit 2, a second conduit 3, a first connector 4 and a second connector 5. The first conduit 2 has a narrower profile than the second conduit 3, the second conduit 3 surrounds the first conduit 2, so that the first conduit 2 extends into the second conduit 3 and the second conduit 3. 2 Slide out of the conduit and allow the tool 1 to extend. When the tool 1 is extended, the first conduit 2 emerges from the second conduit 3. Such a tool 1 may be referred to as stretchability.

  The first conduit 2 is connected to the second conduit 3 at one end, and is connected to the first connector 4 at the opposite end. The second conduit 3 is connected to the second connector 5. The second connector 5 is located at the end opposite to the location where the first conduit 2 is connected to the second conduit 3. The first connector 4 can be used to connect a nozzle or cleaner head to the end of the tool 1. Alternatively, the first connector 4 can function as an inlet for the tool without the need for attachment of a nozzle or cleaner head. The second connector 5 is used to connect the tool 1 to a wand or hose that is further connected to a vacuum cleaner.

  Tool 1 retracts first conduit 2 for locking conduits 2 and 3 of tool 1 at maximum extension (as shown in FIG. 3) and also when the first conduit is located within second conduit 3 It further comprises locking means 6 for locking in position.

  The first conduit 2 comprises a flexible part or duct 7 and a hard part 8 at either end of the flexible duct 7. The flexible duct 7 is shown in more detail in FIGS. 4 to 7 and comprises a helical frame 9 and a helical strip 10. The flexible duct 7 has a substantially rectangular cross section and has two long sides 11, 12 (best shown in FIG. 6) and two short top and bottom surfaces 13 and 14 (best shown in FIG. 7). And have. The flexible duct 7 can be bent in a direction perpendicular to the spiral axis 15. For example, the flexible duct 7 can be freely bent in the left-right direction and similarly in the up-down direction, as shown separately in FIGS. The dashed line is used to indicate the overall degree of motion in the direction perpendicular to the helical axis 15.

  The spiral frame 9 is formed of a single piece made of a hard material, and includes a plurality of loops 16 arranged around the spiral axis 15. The loops 16 are spaced at regular intervals along the spiral axis 15 with spaces between the loops. The contour of each loop 16 is shown in more detail in FIG. Each of the loops 16 includes a central band 17, and the central band is provided with wing bodies 18 and 19 on each side of the band 17, and the band 17 is thicker than the wing bodies 18 and 19. That is, the height of the wing bodies 18 and 19 is less than the height of the central band 17 in one direction perpendicular to the spiral axis 15. Each of the wing bodies 18 and 19 extends to the central band 17 in a direction parallel to the spiral axis 15, and the wing body is provided with a fixing portion 20 used as a key mechanism during the manufacturing process of the tool 1. It has been. One wing body 19 is provided with two protrusions 21, and these protrusions extend toward the adjacent loop 16. The protrusion 21 extends in a direction parallel to the spiral axis 15. The protrusions 21 are located at the top and bottom of the wing body 19 (best shown in FIG. 5). The protrusion 21 functions to restrict the movement of the flexible portion 7 in the vertical direction with respect to the movement of the flexible portion 7 in the left-right direction.

  The spiral strip 10 is formed of a single piece of flexible material in the form of a tape, band or ribbon. The spiral strip 10 extends along the spiral axis 15 and around a part of the spiral frame 9. Specifically, the spiral strip 10 is overmolded or glued to the spiral frame 9 so that the strip 10 fills the space between each of the loops 16 and the frame loops. Provides continuous connection between 16 The spiral strip 10 seals the space of the spiral frame 9 and forms a duct for the drawn fluid. Furthermore, the spiral strip 10 is provided between the loops 16 only in the wing bodies 18, 19, so that the outside of the spiral strip 10 is flush with the outside of the central band 17. As shown in FIG. 4, the central band 17 of each loop 16 is exposed along the length of the duct 7. Since the spiral strip 10 is provided in the space between the loops 16 and is flush with the loops 16, the outer contour of the flexible duct 7 is reduced.

  The spiral strip 10 can bend and stretch, allowing the flexible portion 7 to bend and twist from a linear position and return to its original shape. The spiral strip 10 has a recess 22 formed in the side surfaces 11, 12 of the duct 7. The recess 22 improves the flexibility of the duct 7 in two ways. First, the recess 22 reduces the rigidity of the spiral strip 10 on the side surfaces 11, 12 that are extended during the bending motion (ie, the side surfaces 11, 12 that are outside the bending of the flexible duct portion 7). Secondly, the recess 22 is more rapid in the material of the spiral strip 10 at the sides 11, 12 that contract during the bending movement (ie at the sides 11, 12 inside the bending of the flexible duct portion 7). It is possible to make a crease or bend.

  The fixing portions 20 provided on the wing bodies 18 and 19 of the loops 16 of the frame 9 function as a key mechanism when the strip 10 is overmolded on the frame 9. During manufacturing, the flexible material flows over or onto the wing bodies 18, 19 into or onto the fixed portion 20. The fixing portions 20 are holes that are shaped to fix the helical strip 10 to the frame 9 once the flexible material is cured. The flexible material is only provided on the wings 18, 19 so that once cured, the outer surface of the spiral strip 10 is flush with the outer side of the central band 17. Furthermore, the molding insert can be arranged inside the flexible part 7 of the first conduit 2 and in contact with the inner surface of the loop 16 so that the soft material flows and hardens against the molding insert. . Thereafter, the molded insert is removed after curing, leaving the smooth inner surface of the duct 7 as the helical strip 10 is cured flush with the outer contour of the loop 16.

  In use, the tool 1 is stretched, thereby exposing the first conduit 2 as the first conduit slides out of the second conduit 3. When the tool 1 is in the extended position (as shown in FIG. 3), the movement of the first conduit 2 is locked. The contour of the tool 1 is such that at least the first conduit 2 can be placed in the gap or gap. The user may operate the tool 1 by holding the second conduit 3 or by holding an extension wand or handle connected via the second connector 5.

  When the tool 1 is operated into the gap, the flexible duct 7 of the first conduit 2 can be bent or bent in contact with the wall or floor of the gap. The user naturally applies force to the tool 1 against the surface / floor of the gap to be cleaned. As the force is applied, the flexible duct 7 bends vertically and / or horizontally. When the duct 7 bends or bends in the vertical direction, the protrusion 21 limits the movement range of the spiral frame 9. This improves the control of the tool 1 and gives the user the ability to maneuver the tool 1 in the gap without bending the duct 7 in an undesired direction (ie up and down). Furthermore, the duct 7 is prevented from bending beyond the point where damage or twisting occurs. For this reason, even if the maximum range of motion in the vertical direction decreases, the duct 7 is protected against bending and twisting, and is similarly reinforced to prevent damage to the tool 1.

  The movement of the flexible duct 7 in the left-right direction is improved by a recess 22 provided on the side of the spiral strip 10. In use, the recesses 22 provide improved flexibility, i.e., they can extend more easily than the rest of the spiral strip 10 because less material is present. Further, when the duct 7 is bent, the recess 22 forms a crease or crease in the spiral strip 10 to bend. For this reason, the operation of the tool 1 in the left-right direction is easier than the operation in the up-down direction.

  Although a flexible duct 7 is shown as part of the vacuum cleaner tool 1, it should be clear that a suitable alternative to a hose or tube or vacuum cleaner conduit connection piece such as a vacuum cleaner. It is possible to use such ducts in other parts.

DESCRIPTION OF SYMBOLS 1 Vacuum cleaner tool, 2 1st conduit, 3 2nd conduit, 7 Flexible duct part, 9 Spiral frame, 10 Spiral strip, 11, 12 Side surface, 13 Top surface, 14 Bottom surface, 15 Helical shaft, 16 loops, 17 center band, 18, 19 wings, 21 protrusions, 22 recesses

Claims (13)

A vacuum cleaner tool with a flexible duct,
The flexible duct comprises:
A helical frame provided with a plurality of loops arranged around a helical axis and formed of a hard material;
A spiral strip provided in the loop to seal the frame and formed of a flexible material;
With
At least one of the loops has one or more protrusions extending toward the adjacent loops, thereby limiting bending of the flexible duct in one direction perpendicular to the helical axis. Features vacuum cleaner tool.   The vacuum cleaner tool according to claim 1, wherein the flexible duct has a substantially rectangular cross-section and a long side connected by a short top surface and a short bottom surface.   The protrusions located in the loop are provided along the top surface and / or the bottom surface of the loop, and restrict the movement of the flexible duct only in the vertical direction. Vacuum cleaner tool.   The vacuum cleaner tool according to claim 3, wherein the protrusions located in the loop are provided on both the top surface and the bottom surface of the loop.   The vacuum cleaner tool according to any one of claims 2 to 4, wherein the spiral strip has a recess provided in the side surface of the flexible duct. Each of the loops comprises a central band having at least one wing;
The helical strip is secured to at least one of the wings so that the outer surface of the spiral strip is flush with the outer surface and / or the inner surface of the central band. The vacuum cleaner tool according to any one of 1 to 5. The tool is a telescopic tool comprising first and second conduits;
The first conduit has a narrower profile than the second conduit;
The second conduit surrounds the first conduit, whereby the first conduit slides into and out of the second conduit to allow extension of the tool;
The vacuum cleaner tool according to any one of claims 1 to 6, wherein the flexible duct forms part of the first conduit. A vacuum cleaner duct,
A helical frame provided with a plurality of loops arranged around a helical axis and formed of a hard material;
A spiral strip provided in the loop to seal the frame and formed of a flexible material;
With
At least one of the loops has one or more protrusions extending toward the adjacent loops, thereby limiting the duct from bending in one direction perpendicular to the helical axis. Vacuum cleaner duct.   9. A vacuum cleaner duct according to claim 8, wherein the flexible duct has a substantially rectangular cross-section and has long sides connected by a short top surface and a short bottom surface.   The vacuum cleaning according to claim 9, wherein the protrusion located in the loop is provided along the top surface and / or the bottom surface of the loop, and restricts movement of the duct only in a vertical direction. Machine duct.   The vacuum cleaner duct according to claim 10, wherein the protrusions located in the loop are provided on both the top surface and the bottom surface of the loop.   The vacuum cleaner duct according to any one of claims 8 to 11, wherein the spiral strip has a recess provided on the side surface of the duct. Each of the loops comprises a central band having at least one wing;
The spiral strip is provided so as to cover at least one of the wing bodies, whereby the outer surface of the spiral strip is flush with the outer surface and / or the inner surface of the central band. The vacuum cleaner duct according to any one of claims 8 to 12.