Patent Application
20220183519
The present application relates to a handheld vacuum device having an attachment structure, such as a hook, for hanging or suspending the vacuum device from an external structure.
The present application relates to a handheld vacuum device configured to generate suction. The suction may be used to capture dust, debris, or other material or objects from a floor or other surface. The handheld vacuum device may be battery-powered, or may have a cord for receiving electrical power.
One aspect of the embodiments herein relates to a handheld vacuum device that comprises a housing, a vacuum-generating system, a battery, and a hook. In this embodiment, the housing has a handle, and the vacuum-generating system is disposed within the housing, the vacuum-generating system being configured to generate vacuum pressure that creates suction for the handheld vacuum device. Further in this embodiment, the battery is coupled to a rearward end of the housing, and the hook extends laterally from the housing and is disposed between the battery and the handle. In this embodiment, the hook has a base portion and a bent portion that extends from the base portion, wherein the bent portion is configured to engage an external structure for hanging the handheld vacuum device from the external structure, and wherein the base portion and the bent portion of the hook form a slot that extends along a length dimension of the hook, wherein the slot is configured, when the external structure forms a rail, to fit around the rail to permit the handheld vacuum device to be hung from the rail via the hook.
One aspect of the present disclosure relates to a handheld vacuum device that comprises a housing, a vacuum-generating system, and a hook. In this embodiment, the housing has a handle, while the vacuum-generating system is disposed within the housing, and is configured to generate vacuum pressure that creates suction for the handheld vacuum device. The hook is coupled to the housing, and has a bent portion that is configured to engage an external structure for hanging the handheld vacuum device from the external structure.
One aspect of the present disclosure relates to a handheld vacuum device comprising a housing and a vacuum-generating system. In this embodiment, the housing has: (i) a handle and (ii) a hook mounting region which has one or more slots and a hole, and which is configured to attach the housing to a hook which has a flat portion with a hole therethrough and which has one or more protruding portions extending from the flat base portion. The vacuum-generating system is disposed within the housing, and is configured to generate vacuum pressure that creates suction for the handheld vacuum device. In this embodiment, the one or more slots of the hook mounting region are configured to receive the one or more protruding portions of the hook, and wherein the hole of the hook mounting region is configured to align with the hole of the flat base portion of the hook when the one or more slots of the hook mounting region receives the one or more protruding portions of the hook.
These and other aspects, features, and characteristics of the present invention, as well as the methods of operation and functions of the related elements of structure and the combination of parts and economies of manufacture, will become more apparent upon consideration of the following description and the appended claims with reference to the accompanying drawings, all of which form a part of this specification, wherein like reference numerals designate corresponding parts in the various figures. It is to be expressly understood, however, that the drawings are for the purpose of illustration and description only and are not intended as a definition of the limits of the invention. As used in the specification and in the claims, the singular form of “a”, “an”, and “the” include plural referents unless the context clearly dictates otherwise.
The foregoing and other features and advantages of the invention will be apparent from the following description of embodiments hereof as illustrated in the accompanying drawings. The accompanying drawings, which are incorporated herein and form a part of the specification, further serve to explain the principles of the invention and to enable a person skilled in the pertinent art to make and use the invention. The drawings are not necessarily to scale.
The following detailed description is merely exemplary in nature and is not intended to limit the invention or the application and uses of the invention. Furthermore, there is no intention to be bound by any expressed or implied theory presented in the preceding technical field, background, brief summary or the following detailed description.
One aspect of the present disclosure relates to a handheld vacuum device that has an attachment structure, such as a hook, which permits the handheld vacuum device to be hung from an external structure, such as a rafter, joist, a portion of a scissor lift, a step of a ladder, a wall-mounted rail system, or any other external structure. In some embodiments, the attachment structure (e.g., hook) may be disposed at a rearward end of a housing of the handheld vacuum device. For instance, the attachment structure may be coupled to the rearward end of the housing, and/or may protrude or extend from the rearward end of the housing. In some implementations, the attachment structure may be disposed at another location. The attachment structure may include a hook, e.g., a rail hook that is configured to fit around a rail, a rafter hook, a belt clip hook, or any other type of hook. In some implementations, the attachment structure may be rotatably attached to the housing. In such implementations, the attachment structure may be pivotable between a folded position and an unfolded position.
In an embodiment, a housing 110 may form or otherwise have a handle 112 that is configured to be gripped by a user's hand. The handle 112 may thus configure the vacuum device 100 as a handheld device. As illustrated in
In an embodiment, the hook 130 (also referred to as a hang hook) of the handheld vacuum device 100 may protrude from or may be coupled to a side surface of the housing 110, such as the side surface 118. As discussed below in more detail, the hook 130 may have a bent portion that is configured to catch on, press against, or otherwise engage an external structure so as to permit the handheld vacuum device 100 to be hung from the external structure via the hook 130. In the example of
In an embodiment, the hook 130 may extend laterally from the side surface 118 of the housing 110, as illustrated in
In an embodiment, the hook 130 may be disposed at the rearward end 119 of the housing 110 of the handheld vacuum device 100. In a more specific example, the hook 130 may be disposed between the battery 140 and the handle 112, as illustrated in
In an embodiment, as illustrated in
In an embodiment, the housing 110 of the handheld vacuum device 100 may have a hook mounting region 118A on the side surface 118 of the housing 110. The hook mounting region 118A may be used to attach the hook 130 to the housing 110, as illustrated in
In the embodiment of
In an embodiment, as stated above, the hook 130 may be a rail hook. A rail hook may be a hook that is configured to engage an external structure that has the form of a rail, so as to permit the handheld vacuum 100 to be hung from the rail. More specifically, the gap 135A between the base portion 133 and the overhang portion 136 may form a slot that extends along a length dimension, or more specifically a dimension that is along a longitudinal axis 137, of the hook 130 of
In some implementations, a hook of the embodiments herein may include a rail hook, as discussed above. In an embodiment, a hook of the embodiments herein may include a rafter hook, such as hook 430, which may be a hook that is configured to engage an external structure that is or that includes a rafter or joist. In some instances, the rafter hook may have a gap with a size or width W that is greater than 1.5 inches (e.g., a size W of 2 inches).
In some implementations, a hook of the embodiments herein, such as hook 430/530, may be rotatably connected to a housing (e.g., 110) of a handheld vacuum device, such that the hook is pivotable between different positions. For instance, the hook 430 may be rotatably connected to the housing via protruding portions 431, 432, which may laterally protrude or extend from the base portion 433 of the hook 430. The protruding portions 431, 432 may form an axle which renders the hook 430 pivotable between a folded position and an unfolded position. When the hook 430 is in the folded position, it may be, e.g., a base portion (e.g., 433) that is parallel with an immediately adjacent surface of the housing. The rotatable coupling of the hook 430 may allow it to be flipped out to an unfolded position. When the hook 430 is in the unfolded position, the handheld vacuum may be hangable from an external structure (e.g., a rafter) via the hook 430.
In some implementations, a hook of the embodiments herein, such as hook 330, may form a belt clip. More particularly,
In some implementations, a hook in accordance with embodiments hereof may be configured to be hung from other types of external structures, such as a portion of a scissor lift, a drop ceiling grid, a step or a top platform of a folding ladder, or any other type of external structure. In an embodiment, if the hook forms a gap (e.g., between a base portion and an overhang portion) of size W, the size W may have a variety of values that accommodate suspension from a variety of external structures. For instance, a drop ceiling grid may be an external structure having channels that are about 0.5 inches in width or about 1 inch in width. In such an example, the hook may have a gap with a size W that is slightly larger than 0.5 inches (e.g., 9/16 inches) or slightly larger than 1 inch.
As discussed above, a hook of the embodiments herein may be disposed at a variety of locations of a handheld vacuum. For example, the hook may be disposed at a rearward end of a housing, as discussed above with respect to
Additional discussion of various embodiments
Embodiment 1 relates to a handheld vacuum device that comprises a housing, a vacuum-generating system, a battery, and a hook. In this embodiment, the housing has a handle, while the vacuum-generating system is disposed within the housing, and is configured to generate vacuum pressure that creates suction for the handheld vacuum device. Further in this embodiment, the battery is coupled to a rearward end of the housing. The hook extends laterally from the housing and is disposed between the battery and the handle. In this embodiment, the hook has a base portion and a bent portion that extends from the base portion, wherein the bent portion is configured to engage an external structure for hanging the handheld vacuum device from the external structure, and wherein the base portion and the bent portion of the hook form a slot that extends along a length dimension of the hook, wherein the slot is configured, when the external structure forms a rail, to fit around the rail to permit the handheld vacuum device to be hung from the rail via the hook.
Embodiment 2 includes the handheld vacuum device of embodiment 1. Further in this embodiment, the slot formed by the base portion and the bent portion of the hook opens toward a frontward end of the housing of the handheld vacuum device.
Embodiment 3 relates to a handheld vacuum device that comprises a housing, a vacuum-generating system, and a hook. The housing has a handle, while the vacuum-generating system is disposed within the housing, and is configured to generate vacuum pressure that creates suction for the handheld vacuum device. Further in this embodiment, the hook is coupled to the housing, and has a bent portion that is configured to engage an external structure for hanging the handheld vacuum device from the external structure.
Embodiment 4 includes the handheld vacuum device of embodiment 3. Further in this embodiment, the hook is disposed at a rearward end of the housing.
Embodiment 5 includes the handheld vacuum device of embodiment 3 or 4. Further in this embodiment, the housing has a frontward end through which air enters the housing to create the suction for the handheld vacuum device, and wherein a rearward end and the frontward end are opposite ends of the housing.
Embodiment 6 includes the handheld vacuum device of embodiment 4 or 5. Further in this embodiment, the device further comprises a battery coupled to the rearward end of the housing, wherein the hook is disposed between the battery and the handle.
Embodiment 7 includes the handheld vacuum device of any one of embodiments 3-6. Further in this embodiment, the handle is disposed between the hook and a frontward end of the housing.
Embodiment 8 includes the handheld vacuum device of any one of embodiments 3-7. Further in this embodiment, the hook extends laterally from the housing.
Embodiment 9 includes the handheld vacuum device of any one of embodiments 3-8. Further in this embodiment, the hook includes a base portion from which the bent portion extends, wherein the base portion and the bent portion form a slot that extends along a length dimension of the hook, and wherein the slot is configured, when the external structure forms a rail, to fit around the rail to cause the handheld vacuum device to be hung from the rail via the hook.
Embodiment 10 includes the handheld vacuum device of embodiment 9. Further in this embodiment, the slot formed by the base portion and the bent portion of the hook is C-shaped and opens toward a frontward end of the housing of the handheld vacuum device.
Embodiment 11 includes the handheld vacuum device of embodiment 9 or 10. Further in this embodiment, the hook includes a flat base portion having a hole through which a fastener is inserted to fasten the hook to the housing.
Embodiment 12 includes the handheld vacuum device of embodiment 11. Further in this embodiment, the bent portion includes an overhang portion configured to press against the external structure when the handheld vacuum device is hung from the external structure via the hook, and wherein the slot is formed by a gap between the flat base portion and the overhang portion.
Embodiment 13 includes the handheld vacuum device of embodiment 12. Further in this embodiment, the overhang portion has an opening through which the hole of the flat base portion and the fastener are accessible.
Embodiment 14 includes the handheld vacuum device of any one of embodiments 9-13. Further in this embodiment, the device further comprises a crevice tool that forms or is coupled to a frontward end of the housing, and wherein the slot has a width which is substantially the same as a width of the crevice tool, such that the crevice tool is insertable into the slot.
Embodiment 15 includes the handheld vacuum device of any one of embodiments 3-14. Further in this embodiment, the hook forms a belt clip that is configured, when the handheld vacuum device is hung from a belt, to press against the belt.
Embodiment 16 includes the handheld vacuum device of embodiment 15. Further in this embodiment, the hook includes a base portion that is coupled to the housing, and includes a bent portion that extends from the base portion and bends back towards the housing, wherein the bent portion forms a spring clip that is biased, when the belt is positioned between the belt clip and the housing, to push the belt against the vacuum housing.
Embodiment 17 includes the handheld vacuum device of any one of embodiments 3-16. Further in this embodiment, the hook is rotatably connected to the housing such that the hook is pivotable between a folded position in which the hook is folded against the housing and an unfolded position in which the hook is unfolded from the housing, wherein the handheld vacuum device is hangable via the hook when the hook is in the unfolded position.
Embodiment 18 includes the handheld vacuum device of any one of embodiments 3-17. Further in this embodiment, the vacuum-generating system includes a fan and a motor, wherein the fan is configured, when rotating, to cause air flow that creates the vacuum pressure, and wherein the motor is configured, when activated, to cause rotation of the fan.
Embodiment 19 relates to a handheld vacuum device comprising a housing and a vacuum-generating system. The housing has: (i) a handle and (ii) a hook mounting region which has one or more slots and a hole, and which is configured to attach the housing to a hook which has a flat portion with a hole therethrough and which has one or more protruding portions extending from the flat base portion. The vacuum-generating system is disposed within the housing, and is configured to generate vacuum pressure that creates suction for the handheld vacuum device. In this embodiment, the one or more slots of the hook mounting region are configured to receive the one or more protruding portions of the hook, and wherein the hole of the hook mounting region is configured to align with the hole of the flat base portion of the hook when the one or more slots of the hook mounting region receives the one or more protruding portions of the hook.
Embodiment 20 includes the handheld vacuum device of claim 19. Further in this embodiment, the hook mounting region is disposed at a rearward end of the housing.
While various embodiments have been described above, it should be understood that they have been presented only as illustrations and examples of the present invention, and not by way of limitation. It will be apparent to persons skilled in the relevant art that various changes in form and detail can be made therein without departing from the spirit and scope of the invention. Thus, the breadth and scope of the present invention should not be limited by any of the above-described exemplary embodiments, but should be defined only in accordance with the appended claims and their equivalents. It will also be understood that each feature of each embodiment discussed herein, and of each reference cited herein, can be used in combination with the features of any other embodiment.
