JP3243723U - handy vacuum cleaner - Google Patents

Abstract

[Problem] To provide a handy vacuum cleaner that achieves easy operation, good cleaning effect, and cleaning efficiency. A handy vacuum cleaner includes a vacuum cleaner main body 10 and a blowout assembly, the vacuum cleaner main body has a blowout port 11, the blowout assembly includes a blowout hood 200, a position restriction seat 400, a blow-off nozzle, the blow-off hood is removably attached to the vacuum cleaner body and covers the blow-out outlet, a position-limiting seat is connected to the blow-off hood and has a position-limiting hole 410, and the blow-off nozzle has a position-limiting hole 410; It has an adjustment part 510 that is rotatably attached within the seat and drives the rotation of the blow-off nozzle, and the blow-off nozzle is in communication with the blow-off port. When the blowing nozzle is inserted into the gap and the vacuum cleaner body is turned on, accumulated small particulate matter is expelled from the gap by continuous air blowing, and then the vacuum cleaner body is used to clean by suction. [Selection diagram] Figure 3

Description

TECHNICAL FIELD The present invention relates to the field of vacuum cleaners, and in particular to a handy vacuum cleaner that has a blow-off nozzle and whose blow-out angle can be adjusted.

Everyday household items often have gaps that are small in width and deep. Small particulate matter tends to accumulate in the gaps, and gaps around sofas in particular are difficult to clean on a daily basis and are inconvenient to operate.

For example, a hand-held electric appliance is described in a Chinese published patent with the application number CN202120612435.7, and paragraph 0028 of the specification discloses that a blowing nozzle is attached to the rear end and has a blowing function. . In the above-disclosed proposal, a concept is shown in which an object can be blown out and then sucked in using a blow-out nozzle, but this proposal is effective against similar structures such as the above-mentioned gaps. In addition, no specific structural design or research and development has been conducted for convenient cleaning.

Therefore, in order to clean the gap effectively, conveniently and labor-savingly, the structure of the blow-off nozzle attached to the exhaust port of the vacuum cleaner is designed and manufactured by adapting it to the structural characteristics of the gap. This is one of the technical problems to be solved by those skilled in the art.

In order to solve the technical problems in the prior art, an object of the present invention is to provide a handheld vacuum cleaner having a blowing nozzle and having an adjustable blowing angle.

In order to achieve the above objective, the present invention adopts the following technical scheme.

The handy vacuum cleaner of the present technical proposal includes a vacuum cleaner body and a blowout assembly;
The vacuum cleaner main body has an air outlet,
The blowout assembly includes a blowout hood, a position limit seat, and a blowout nozzle,
The outlet hood is removably attached to the vacuum cleaner body and covers the outlet,
The position restriction seat is connected to the blow-off hood and has a position restriction hole;
The blow-out nozzle is rotatably attached within the position-limiting seat, and has an adjustment part that drives the rotation of the blow-out nozzle,
The blowing nozzle communicates with the blowing outlet.

More preferably, the blowout nozzle includes an integrally connected conduit section and the adjustment section,
The adjustment part has a spherical shape, and an inner hole thereof has a conical shape,
A small diameter end of the inner hole is connected to and communicates with the conduit portion.

More preferably, the position limiting seat is rotatably connected to the blow-off hood via a connecting member.

More preferably, the connecting member has a circular tubular shape, and an upper portion thereof is connected to a position limiting seat;
The lower part of the connecting member is inserted into the exhaust end of the outlet hood and forms a pivotable connection with the outlet hood.

More preferably, the connecting member has a support boss surrounding and forming the blow-off hood and the adjustment cavity;
The adjustment portion is arranged within the adjustment cavity.

More preferably, the adjustment cavity is provided with a positioning stage, and the adjustment part is sandwiched between the two positioning stages.

More preferably, the positioning stage is formed to extend from an inner wall of the position limiting seat toward a lumen of the position limiting seat.

More preferably, the positioning stage includes a plurality of protrusions,
The plurality of protrusions are arranged parallel to each other at intervals.

More preferably, the position limiting hole is provided along a rotation locus of the adjustment section.

More preferably, the adjustment section is provided with an intake plane in a tangential direction thereof.

By adopting the above technical scheme, the present invention has the following advantages compared with the background technology.

According to the present invention, a blowout assembly is attached to the blowout port of a vacuum cleaner body, and the blowout nozzle of the blowout assembly has a rotatably assembled adjusting part, and the adjusting part drives the blowing nozzle to a position. Due to the rotation adjustment within the limit hole, it can adapt to different cleaning demands. In addition, the position-limiting seat of the present invention moves the blow-off nozzle to adjust the rotation in the circumferential direction, so that the adjustment range is further expanded and the range of application is also expanded. In practical application, the blowing nozzle is adjusted adaptively, and when the adjusted blowing nozzle is put into the gap and the vacuum cleaner body is turned on, the accumulated small particulate matter is forced out from the gap by continuous air blowing, and then Since the vacuum cleaner body is used to perform suction cleaning, it realizes advantages such as easy operation, good cleaning effect, and good cleaning efficiency, and solves the technical problems existing in the prior art.

1 is a schematic structural diagram of a handy vacuum cleaner according to an embodiment of the present invention; FIG.

1 is a schematic exploded structural view of a handy vacuum cleaner according to an embodiment of the present invention; FIG.

FIG. 2 is a partial cross-sectional view of the structure shown in FIG. 1;

FIG. 3 is a schematic structural diagram of one of the connecting members in the embodiment of the present invention.

FIG. 3 is a schematic structural diagram of one of the connecting members in the embodiment of the present invention.

FIG. 3 is a schematic structural diagram of a position limiting seat in an embodiment of the present invention.

7 is a cross-sectional view of the structure shown in FIG. 6. FIG.

FIG. 3 is a schematic diagram of the rotational adjustment of the blowing nozzle of the handy vacuum cleaner according to the embodiment of the present invention.

FIG. 3 is a schematic diagram of the 90° rotational adjustment of the blowing nozzle of the handy vacuum cleaner according to the embodiment of the present invention.

Explanations of the symbols in the above specification are as follows.

10 Vacuum cleaner body, 11 Air outlet,
200 Blowout hood, 210 Boss,
300 connection member, 311 hood connection elastic piece, 312 hood connection hook, 321 nozzle connection elastic piece, 322 nozzle connection hook, 323 position restriction boss, 324 notch, 325 support boss,
400 position restriction seat, 410 position restriction hole, 420 positioning stage, 430 guide groove, 440 engagement groove, 450 position restriction groove,
500 blowing nozzle, 510 adjusting section, 511 clamping surface, 520 conduit section.

In order to make the objects, technical solutions and advantages of the present invention more clear, the present invention will be described in more detail in conjunction with the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are used only to interpret the present invention, and not to limit the present invention.

In this invention, terms such as "top", "bottom", "left", "right", "vertical", "horizontal", "inside", and "outside" refer to the orientation or positional relationship shown based on the drawing. This is only for the convenience and simplification of explanation of the present invention, and does not suggest or imply that the device or element of the present invention must necessarily have a specific orientation. Therefore, it should not be understood as a limitation on the present invention.
Example

A removable blower assembly is added to the handheld vacuum cleaner, said blower assembly having a rotationally adjustable nozzle, said nozzle having a conduit portion, i.e., within a gap having a certain depth. Because it can enter the gap, small particulate matter in the gap can be blown out of the gap and then cleaned by suction.

As shown in FIGS. 1 and 2, the vacuum cleaner main body 10 is linear, one end thereof is a suction end, the other end is a blowout end, and a blowout port 11 is opened at the blowoff end. The outlet hood 200 is fitted onto the outlet end of the cleaner body 10 and covers the outlet 11 .

As shown in FIGS. 1 and 2, the handy vacuum cleaner includes a vacuum cleaner main body 10 and a blow-off assembly, the vacuum cleaner main body 10 has a blow-off port 11, and a blow-off hood of the blow-off assembly. The blower assembly is removably connected to the vacuum cleaner body, and the blower assembly communicates with the blower outlet 11 to direct the blowing airflow, and utilizes the blower assembly to perform directional blowing.

As shown in FIGS. 1 and 2, the blow-off assembly includes a blow-off hood, a connection member 300, and a blow-off nozzle 500, and the blow-off hood 200 is fitted into the vacuum cleaner body 10, and the blow-off outlet 11, the blow-off hood 200 has an exhaust end with an opening, and the blow-off nozzle 500 is assembled in the opening via the connecting member 300.

As shown in FIGS. 1 to 3, the blow-off hood 200 has a connection end and an exhaust end, the connection end is connected to the vacuum cleaner body 10, and the exhaust end needs to have a hole. The drilled hole becomes the opening, and the opening communicates with the air outlet 11 of the cleaner body 10. The connecting end of the blow-off hood 200 needs to be fitted to the cleaner body 10, while the exhaust end may have a smaller inner diameter to increase the flow rate of the blow-off.

In this embodiment, as shown in FIGS. 1 to 3, the blow-off hood 200 is vertically penetrating and has a bowl shape, the radial cross section of the blow-off hood 200 is circular, and the axial direction of the blow-off hood 200 is circular. a larger diameter segment, a connecting segment, and a smaller diameter segment integrally connected along the diameter of the larger diameter segment, the diameter of the larger diameter segment being greater than the diameter of the smaller diameter segment, and the inner diameter of the connecting segment being larger than the diameter of the larger diameter segment. from small to small diameter segments. Specifically, the inner diameter of the large-diameter segment of the blow-off hood 200 is fitted into the vacuum cleaner main body 10 in accordance with the outer diameter of the corresponding blow-off port 11 of the vacuum cleaner main body 10, and The gas led out from the blow-off port 11 enters the blow-off hood 200, and the gas is drawn out in the axial direction of the blow-off hood 200. As the axial inner diameter of the blow-off hood 200 changes, the flow rate of the gas increases, and the gas flows into the blow-off hood 200. is derived from the exhaust end of the The connecting end is one end of the large diameter segment remote from the small diameter segment, and the exhaust end is one end of the small diameter segment remote from the large diameter segment. That is, the exhaust end is the minimum diameter end of the blow-off hood 200.

As shown in FIGS. 1 to 3, the inner wall of the small-diameter segment of the blow-off hood 200 has a boss 210, and the boss 210 is annular and extends from the inner wall of the small-diameter segment in the radial direction of the axis. It is formed by extending to.

As shown in FIGS. 1 to 9, the connection member 300 is a circular tube member, and includes an upper part and a lower part arranged in sequence along the axial direction, the lower part is a hood connection part, and the The upper part is a nozzle connection part, and the hood connection part and the nozzle connection part are integrally connected. The hood connection part has a hood connection elastic piece 311, one end of the hood connection elastic piece 311 is provided with a hood connection hook 312, the connection member 300 is installed in the small diameter segment of the blowout hood 200, and the hood connection elastic piece 311 is provided with a hood connection hook 312. A hood connection hook 312 extends into the small diameter segment of the blow-off hood 200, and in order to realize positioning and connection with the blow-off hood 200, the hood connection elastic piece 311 is engaged with the boss 210 to form a connecting member. 300 to achieve axial positioning. The hood connection part is cylindrical and has a smooth outer surface, and the small diameter segment of the outlet hood 200 is also circular and has a smooth inner surface. It is rotatable in the circumferential direction in the small diameter segment. That is, the hood connecting portion rotates around its axis at the small diameter portion of the blow-off hood 200. Specifically, the hood connection part has a cylindrical shape, one end is integrally connected to the nozzle connection part, and the other end is provided with the hood connection elastic piece 311, and the hood connection elastic piece is connected to the nozzle connection part. The connecting portion is a piece formed to extend in the axial direction away from the nozzle connecting portion, and one end of the hood connecting elastic piece 311 is the end portion leaving the nozzle connecting portion, and the hood connecting elastic The hood connection hook 312 is provided on the outer wall of the piece 311. The hood connection hook 312 is a protrusion extending from the outer wall of the hood connection elastic piece 311 in the radial direction of the hood connection part in a direction away from the axis of the hood connection part. The radial cross section of the hood connection part of the hood connection elastic piece 311 resembles an arrow, and the protrusion has an assembly guide surface and an engagement surface connected in sequence, and the assembly guide surface is connected to the connection surface. This is a slope provided to be inclined in the insertion direction of the member 300, and the engagement surface is a flat surface provided in the radial direction of the hood connection portion. When the hood connection hook 312 and the boss 210 engage, the engagement surface abuts the engagement surface of the boss 210, and the engagement surface of the boss 210 is on the side of the boss 210 facing the connection end. be. In this technical proposal, the connecting member 300 uses the hood connecting elastic piece 311 to perform axial positioning and engagement with the outlet hood 200, but prevents rotation of the connecting member 300 in the circumferential direction with respect to the outlet hood 200. In addition, since the hood connection portion of the connecting member 300 is circular and the small diameter segment of the outlet hood 200 is also circular, in addition to the connection between the connecting member 300 and the outlet hood, The connecting member 300 can also rotate in the circumferential direction with respect to the blow-off hood 200. In this embodiment, the number of the hood connecting elastic pieces 311 is two, and the two hood connecting elastic pieces 311 are symmetrically distributed. That is, the two hood connecting elastic pieces 311 are inserted into the small diameter segment in the axial direction of the blow-off hood 200, and the hood connecting hooks 312 of the two hood connecting elastic pieces 311 are engaged with the boss 210.

Note that the hood connecting portion of the connecting member 300 is tightly fitted into the small diameter portion of the blow-off hood 200. Specifically, since the connecting member 300 is a circular tube member made of plastic, it has a certain elastic deformability that allows the hood connection portion of the connecting member 300 to be stably inserted into the small diameter segment of the blow-off hood 200. The user applies force to the connecting member 300 to adjust the hood connection part of the connecting member 300 to rotate in the circumferential direction within the small diameter segment of the blow-off hood 200, and when the adjustment target position is reached, the hood connecting part of the connecting member 300 The interference fit between the hood connection portion and the small diameter segment of the blowout hood 200 can be used to position the adjusted connection member 300 at its current position. In other words, the connection member 300 may be adjusted to rotate in the circumferential direction with respect to the blow-off hood 200 in a state where it rotates under force. After adjustment, the adjusted connection member 300 can be effectively positioned by utilizing the interference fit relationship between the hood connection portion of the connection member 300 and the small diameter segment of the blow-off hood 200. It is possible to stably position the connecting member 300 at any arbitrary position.

The nozzle connecting part of the connecting member 300 has a nozzle connecting elastic piece 321, and one end of the nozzle connecting elastic piece 321 is provided with a nozzle connecting hook 322, and the nozzle connecting hook 322 is connected to the blowing nozzle 500. . That is, the blowing nozzle 500 is fitted into the connecting portion of the connecting member 300 so that the blowing nozzle 500 is rotatably connected to the blowing hood 100 using the connecting member 300 in the circumferential direction. Specifically, the nozzle connection part has a cylindrical shape, one end is integrally connected to the hood connection part, and the other end is provided with the nozzle connection elastic piece 321, and the nozzle connection elastic piece 321 is The nozzle connecting portion is a piece extending in the axial direction away from the hood connecting portion, and one end of the nozzle connecting elastic piece 321 is an end separating from the hood connecting portion, and the nozzle connecting elastic piece 321 The nozzle connection hook 322 is provided on the outer wall of the nozzle. The nozzle connection hook 322 is a protrusion extending from the outer wall of the nozzle connection elastic piece 321 in the radial direction of the nozzle connection part in a direction away from the axis of the nozzle connection part. The radial cross section of the nozzle connection part of the nozzle connection elastic piece 321 resembles an arrow, and the nozzle connection hook 322 has a nozzle connection assembly guide surface and a nozzle connection engagement surface connected in sequence; The nozzle connection assembly guide surface is a slope provided to be inclined in the insertion direction of the connection member 300, and the nozzle connection engagement surface is a flat surface provided in the radial direction of the nozzle connection portion. In this embodiment, the number of the nozzle connecting elastic pieces 321 is two. The two nozzle connecting elastic pieces 321 are symmetrically distributed. Note that the two nozzle connecting elastic pieces 321 are arranged offset from the two hood connecting elastic pieces 311. As shown in FIGS. 1 to 9, a position-limiting protrusion is provided between the two nozzle connection elastic pieces 321, and the position-limiting protrusion is arranged in the axial direction of the nozzle connection part. It is a linear protrusion. The nozzle connection portion has a U-shaped notch 324 corresponding to the position limiting protrusion.

As shown in FIGS. 1 to 9, a support boss 325 is provided in the nozzle connection part, and the support boss 325 is formed by extending the nozzle connection part along its axis toward its inner cavity. The support boss 325 is an annular protrusion, and has a support surface that supports the blow-off nozzle 500 and fits the blow-off nozzle 500. In addition, since the blow-off nozzle 500 has a spherical adjustment part 510 and the adjustment part 510 is disposed on the support boss 325, the support surface of the support boss 325 is adapted to the adjustment part 510.

As shown in FIGS. 1 to 9, the housing further includes a position limiting seat 400 covered at the exhaust end of the blow-off hood 200, and the position limiting seat and the support boss are formed to surround the adjustment cavity. A high-velocity airflow led out from the exhaust end of the blow-off hood 200 enters the regulating cavity. The position restriction seat is connected to the nozzle connection part of the connection member, and the position restriction hole 410 is opened in the position restriction 400 along the rotation locus of the adjustment part, and the position restriction hole 410 is connected to the adjustment part. The blowing nozzle 500 is assembled into the connecting member 300 through the position limiting hole 410. Specifically, a guide groove 430 and an engagement groove 440 are provided on the inner wall of the position limiting seat 400, and both the guide groove 430 and the engagement groove 440 are provided in the axial direction of the connection member 300. The connection seat is engaged with the nozzle connection part of the connection member 300, the nozzle connection elastic piece 321 is moved along the guide groove 430 toward the engagement groove 440, and the nozzle connection hook 322 is engaged with the engagement groove 440. It engages in the matching groove 440 and further slides until the position limiting seat 400 is connected to the connecting member 300. At the same time, the position limiting seat 400 is connected to the blowing hood 200 using the connecting member 300. As shown in FIG. 8, the position limiting seat 400 realizes rotational adjustment of the limiting seat 400 in the axial direction by utilizing the circumferentially rotatable connection between the connecting member 300 and the blow-off hood 200. In combination with the fitting relationship between the connecting member 300 and the blow-off hood, the position limiting seat 400 is adjusted to rotate in the circumferential direction with respect to the blow-off hood 200 when a force is applied and the position-limiting seat 400 rotates. Good too. After adjustment, the adjusted position-limiting seat 400 can be effectively positioned by utilizing the tight fitting relationship between the hood connection part of the connection member 300 and the small diameter segment of the blow-off hood 200. The position limit seat 400 can be stably positioned at any arbitrary position. Note that the engagement groove 440 is adapted to the nozzle connection elastic piece 321. That is, the position limiting seat 400 has two engaging grooves 440, and each engaging groove 440 has one guide groove 430, so the position limiting seat 400 has two guiding grooves 430. The position restriction hole 410 is a long hole, and in this embodiment, the position restriction seat 400 has a hemispherical surface disposed away from the blow-off hood 200, and the position restriction hole 410 has a hemispherical surface. The position restriction angle by the position restriction hole 410 is 90°, and the position restriction angle by the position restriction hole 410 is an angle from the axial direction of the blow-off hood 200 to its radial direction. Note that the notch 324 of the connection member 300 corresponds to and fits the position restriction hole 410.

As shown in FIGS. 1 to 9, the position limiting seat 400 is further provided with a position limiting groove 450 corresponding to the position limiting protrusion, and the position limiting seat 400 is fitted onto the outside of the connecting member 300. If so, the position limiting protrusion of the nozzle connection portion is inserted into the position limiting groove 450 in the connection seat. Specifically, the position limiting groove 450 has an introduction surface. That is, one end of the position limiting groove 450 is an insertion end, and a side wall corresponding to the insertion end has an introduction position limiting protrusion and an inclined side surface adapted for insertion, and the inclined side surface is an introduction surface.

As shown in FIGS. 1 to 9, the position limiting seat 400 has a positioning stage 420, and the two positioning stages 420 are arranged symmetrically and sandwich the adjustment part 510 of the blowing nozzle 500. The positioning stage 420 has a positioning surface, and the two symmetrical positioning surfaces of the positioning stage 420 can be sandwiched on both sides of the adjustment section 510 to support the adjustment section 510 in opposition. That is, the adjusting section 510 is held between the two positioning stages 420 so that the adjusting section 510 can rotate between the two positioning stages 420 . In this embodiment, since the positioning surface is a flat surface, the corresponding side surface of the adjustment part 510 is a flat surface, and the two positioning surfaces are sandwiched between the two corresponding side surfaces of the adjustment part 510. The positioning stage 420 includes a plurality of protrusions arranged parallel to each other and spaced apart from each other.

As shown in FIGS. 1 to 9, the blowing nozzle 500 is provided with a blowing passage, the blowing passage is a straight passage, and the blowing nozzle 500 is connected to a regulating part 510 and a conduit. 520. That is, the adjustment portion 510 has a through hole opened in its radial direction, the cross section of the through hole is trapezoidal, and the upper bottom of the trapezoidal through hole communicates with the inner cavity of the conduit portion 520 and is aligned with the same straight line. The through holes are conical holes. That is, it has a small diameter end and a large diameter end, and the small diameter end communicates with the conduit section. The adjustment part 510 is disposed within the adjustment cavity, and the high-speed airflow that entered the adjustment cavity is guided out through the conical inner hole of the adjustment part, accelerated again, and directed from the conduit part 520. Because it is ejected, the ejected air stream has a large force to blow small particulate matter out of the gap. The conduit portion extends from the position restriction hole to the outside of the position restriction seat. Specifically, the adjustment part 510 has a spherical shape and is disposed through the position limiting seat 400 into the nozzle connection part of the connection member 300 and on the support boss 325 in the nozzle connection part. The adjustment section 510 is symmetrically arranged and has two clamping surfaces 511, each of which is a plane, and the two clamping surfaces 511 are provided corresponding to the two positioning surfaces. That is, the two clamping surfaces 511 correspond to the two positioning stages 420, and the two positioning stages 420 are clamped by the two clamping surfaces 511 of the adjustment section 510. Specifically, a spherical adjustment portion 510 is provided, rotatable attachment to the adjustment portion 510 is achieved through cooperation between the position restriction seat 400 and the connection member 300, and a position restriction hole 410 is provided in the position restriction seat 400. The conduit portion 520 of the blow-off nozzle 500 extends from the position restriction hole 410 to the outside of the position restriction seat 400, and rotates the adjustment portion 510 (as shown in FIG. 8) within the range of the position restriction hole 410. The direction of the blowing air from the blowing nozzle 500 is adjusted by controlling the rotation of the conduit portion 520.

Note that, as shown in FIG. 2, the adjustment section 510 has an intake plane that is a plane provided in the tangential direction thereof, and the intake plane is disposed apart from the conduit section 520, and the adjustment section 510 At the same time as the rotation is adjusted, a certain intake gap is formed within the adjustment cavity between the inner wall of the adjustment cavity, so that the spherical adjustment part 510 is prevented from blocking the inside of the connecting member 300, Ensure smooth blowout.

Note that, as shown in FIGS. 1 to 9, the length of the conduit portion 520 is set according to demand. The conduit part 520 can be inserted into the gap and can be rotated within the range of the position limit hole according to the specific position of the gap, and blows out small particulate matter in the gap and then absorbs it. At the same time, the angle can be adjusted according to demand, which not only further improves the convenience of operation but also expands the scope of application of the vacuum cleaner.

The above description is only a relatively preferred and specific embodiment of the present invention, and the protection scope of the present invention is not limited thereto. Changes or substitutions may be easily made within the scope of the present invention, and all of them should be included within the protection scope of the present invention. Therefore, the scope of protection of the present invention shall conform to the scope of the claims.

Claims (10)

A handy vacuum cleaner including a vacuum cleaner body and a blowout assembly,
The vacuum cleaner main body has an air outlet,
The blowout assembly includes a blowout hood, a position limit seat, and a blowout nozzle,
The outlet hood is removably attached to the vacuum cleaner body and covers the outlet,
The position restriction seat is connected to the blow-off hood and has a position restriction hole;
The blow-out nozzle is rotatably attached within the position-limiting seat, and has an adjustment part that drives the rotation of the blow-out nozzle,
A handy vacuum cleaner, wherein the blow-off nozzle is in communication with a blow-off port. The blowout nozzle includes an integrally connected conduit part and the adjustment part,
The adjustment part has a spherical shape, and an inner hole thereof has a conical shape,
The handheld vacuum cleaner according to claim 1, wherein a small diameter end of the inner hole is connected to and communicates with the conduit portion. The handy vacuum cleaner according to claim 1 or 2, wherein the position limiting seat is rotatably connected to the blow-off hood via a connecting member. The connecting member has a circular tubular shape, and an upper portion thereof is connected to a position limiting seat,
The handheld vacuum cleaner according to claim 3, wherein a lower portion of the connecting member is inserted into the exhaust end of the blow-off hood to form a rotatable connection with the blow-off hood. The connecting member has a support boss surrounding and forming the blow-off hood and the adjustment cavity;
The handheld vacuum cleaner according to claim 4, wherein the adjustment portion is disposed within the adjustment cavity. The handheld vacuum cleaner according to claim 5, wherein the adjustment cavity is provided with a positioning stage, and the adjustment part is held between the two positioning stages. The handy vacuum cleaner according to claim 6, wherein the positioning stage is formed to extend from an inner wall of the position-limiting seat toward a lumen of the position-limiting seat. The positioning stage consists of a plurality of protrusions,
The handy vacuum cleaner according to claim 7, wherein the plurality of protrusions are installed in parallel with each other at intervals. The handy vacuum cleaner according to claim 1, wherein the position restriction hole is provided along a rotation locus of the adjustment section. The handheld vacuum cleaner according to claim 1, wherein the adjustment section is provided with an intake plane in a tangential direction thereof.