Remote-controlled collapsible valet stand

Abstract

The remote-controlled collapsible valet stand may assist a user in wearing an article of clothing without needing to reach behind themselves to grasp the clothing. The device may comprise a linear actuator mounted to a base and raising a plurality of arms to dress the user. The device may be remote controlled, and the user of the device may place an article of clothing onto the arms and then control the height of the actuator to have the clothing lifted onto their person for easy wearing. The remote-controlled collapsible valet stand may further comprise a plurality of clips allowing the clothing to be quickly disconnected once the user is wearing it, and height adjustability so that users of varying heights may be able to use the device. In one embodiment the device may comprise a plurality of cowlings, near field communication, audible and visual alerts, proximity sensors, and various attachments considered related in the art.

Claims

1. A remote-controlled collapsible valet stand, comprising: a structural base; a clothes hanging mechanism; a length adjusting mechanism; a trigger; an atlas; and a pivot; wherein said structural base comprises a device base; wherein said clothes hanging mechanism comprises a clothes hanger; wherein said length adjusting mechanism comprises a reversibly extendable component; wherein said length adjusting mechanism is attached vertically to said structural base; wherein said clothes hanging mechanism is attached to a top of said length adjusting mechanism; wherein said trigger activates said length adjusting mechanism; wherein said activation of said length adjusting mechanism reversibly increases a vertical distance between said structural base and said clothes hanging mechanism; wherein said clothes hanging mechanism further comprises a plurality of arms; wherein said length adjusting mechanism comprises a linear actuator; wherein said plurality of arms are articulably attached to said pivot; wherein said pivot is articulably attached to said atlas; wherein said atlas is attached to a top of said linear actuator.

2. The remote-controlled collapsible valet stand of claim 1, further comprising: a height adjuster; wherein said height adjuster is installed between said structural base and said atlas; and wherein said height adjuster adjusts a starting height of said linear actuator.

3. The remote-controlled collapsible valet stand of claim 2, wherein one each of said plurality of arms further comprises one each of a plurality of clips.

4. The remote-controlled collapsible valet stand of claim 3, further comprising: a spring rod.

5. The remote-controlled collapsible valet stand of claim 4, further comprising: a lower cowling; and an upper cowling.

6. The remote-controlled collapsible valet stand of claim 4, wherein said trigger comprises a remote.

7. The remote-controlled collapsible valet stand of claim 6, wherein said atlas further comprises a remote holder.

8. The remote-controlled collapsible valet stand of claim 4, wherein said trigger comprises a proximity sensor.

9. The remote-controlled collapsible valet stand of claim 4, further comprising: an audiovisual alarm.

10. The remote-controlled collapsible valet stand of claim 4, further comprising: a proprietary software.

11. The remote-controlled collapsible valet stand of claim 4, further comprising: a display device.

12. The remote-controlled collapsible valet stand of claim 4, wherein said structural base comprises a tripod base.

Description

BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWINGS

(1) Elements in the figures have not necessarily been drawn to scale in order to enhance their clarity and improve understanding of these various elements and embodiments of the invention. Furthermore, elements that are known to be common and well understood to those in the industry are not depicted in order to provide a clear view of the various embodiments of the invention.

(2) FIG. 1 is an isometric perspective view of a main body of a remote-controlled collapsible valet stand in a collapsed configuration, as contemplated by the present disclosure;

(3) FIG. 2 is an isometric perspective view of a main body of a remote-controlled collapsible valet stand in a collapsed configuration with the plurality of arms deployed, as contemplated by the present disclosure;

(4) FIG. 3 is an isometric perspective view of a main body of a remote-controlled collapsible valet stand in a fully deployed and extended configuration, as contemplated by the present disclosure;

(5) FIG. 4 is a left side elevation view of a main body of a remote-controlled collapsible valet stand in an extended configuration with the plurality of arms deployed, as contemplated by the present disclosure;

(6) FIG. 5 is a front elevation view of a main body of a remote-controlled collapsible valet stand in an extended configuration with the plurality of arms deployed, as contemplated by the present disclosure;

(7) FIG. 6 is a top plan view of a remote-controlled collapsible valet stand in a collapsed configuration, as contemplated by the present disclosure;

(8) FIG. 7 is a left side elevation view of a main body of a remote-controlled collapsible valet stand in a collapsed configuration, as contemplated by the present disclosure;

(9) FIG. 8 is a front elevation view of a main body of a remote-controlled collapsible valet stand in a collapsed configuration, as contemplated by the present disclosure;

(10) FIG. 9 is an isometric perspective view of a main body of a remote-controlled collapsible valet stand in a collapsed configuration, as contemplated by the present disclosure;

(11) FIG. 10 is an isometric closeup view of Area E of FIG. 9 showing the atlas and pivot of a remote-controlled collapsible valet stand, as contemplated by the present disclosure;

(12) FIG. 11 is a top plan view of a remote-controlled collapsible valet stand with the plurality of arms deployed, as contemplated by the present disclosure;

(13) FIG. 12 is a left side elevation view of a main body of a remote-controlled collapsible valet stand in a collapsed configuration with the plurality of arms deployed, as contemplated by the present disclosure;

(14) FIG. 13 is a front elevation view of a main body of a remote-controlled collapsible valet stand in a collapsed configuration with the plurality of arms deployed, as contemplated by the present disclosure;

(15) FIG. 14 is a cross-sectional view along Line A of FIG. 13 of a main body of a remote-controlled collapsible valet stand in a collapsed configuration with the plurality of arms deployed, as contemplated by the present disclosure;

(16) FIG. 15 is a cross-sectional closeup view of Area B of FIG. 15 showing the atlas and pivot of a remote-controlled collapsible valet stand, as contemplated by the present disclosure;

(17) FIG. 16 is a cross-sectional closeup view of Area C of FIG. 15 showing the linear actuator and height adjuster of a remote-controlled collapsible valet stand, as contemplated by the present disclosure;

(18) FIG. 17 is an isometric perspective view of one of a plurality of clips of a remote-controlled collapsible valet stand, as contemplated by the present disclosure;

(19) FIG. 18 is an isometric perspective view of the linear actuator of a remote-controlled collapsible valet stand, as contemplated by the present disclosure; and

(20) FIG. 19 is an isometric perspective view of a remote of a remote-controlled collapsible valet stand, as contemplated by the present disclosure.

DETAILED DESCRIPTION OF THE INVENTION

(21) Certain terminology is used in the following description for reference only and is not limiting. The words front, rear, anterior, posterior, lateral, medial, upper, lower, outer, inner, and interior refer to directions toward and away from, respectively, the geometric center of the invention, and designated parts thereof, in accordance with the present disclosure. Unless specifically set forth herein, the terms a, an, and the are not limited to one element, but instead should be read as meaning at least one. The terminology includes the words noted above, derivatives thereof, and words of similar import.

(22) The remote-controlled collapsible valet stand may assist a user in wearing an article of clothing without needing to reach behind themselves to grasp the clothing. The device may comprise a linear actuator mounted to a base and raising a plurality of arms to dress the user. The device may be remote controlled, and the user of the device may place an article of clothing onto the arms and then control the height of the actuator to have the clothing lifted onto their person for easy wearing. The remote-controlled collapsible valet stand may further comprise a plurality of clips allowing the clothing to be quickly disconnected once the user is wearing it, and height adjustability so that users of varying heights may be able to use the device. In one embodiment the device may comprise a plurality of cowlings, near field communication, audible and visual alerts, proximity sensors, and various attachments considered related in the art.

(23) The illustrations of FIGS. 1-19 illustrate a remote-controlled collapsible valet stand, as contemplated by the present disclosure. The device may comprise, generally, a main body 100 having a structural base, a clothes hanging mechanism, and a length adjusting mechanism.

(24) The structural base of the main body 100 may comprise any base appropriate for maintaining the device in an upright orientation. By way of example, the structural base may comprise a square or rounded plate, a plurality of legs, a tripod, or any other appropriate design. In one embodiment the structural base may comprise a tripod base 106 having a plurality of deployable legs or feet. In this way the tripod base 106 may be deployed to maintain the device in an upright position and reversibly retracted for storage.

(25) The clothes hanging mechanism of the main body 100 may comprise any hanger appropriate for hanging an article of clothing therefrom, especially a coat, button-down shirt, or the like. By way of example, the clothes hanging mechanism may comprise a clothes hanger, a plurality of dowels, a plurality of hooks, or any other appropriate design. In one embodiment the clothes hanging mechanism may comprise a plurality of arms 112 having an articulating mechanism and a plurality of clips 114. In this way the plurality of arms 112 may be deployed hang an article of clothing therefrom and reversibly retracted for storage. The plurality of clips 114 may comprise any clips appropriate for holding an article of clothing and releasing the article of clothing when it is pulled away. In this way a user may hang an article of clothing from the plurality of clips 114 and remove the clothing from the clips by pulling on it.

(26) The length adjusting mechanism of the main body 100 may comprise any mechanism appropriate for reversibly increasing the distance between the structural base and the clothes hanging mechanism. By way of example, the length adjusting mechanism may comprise a telescoping pole, a screw lift, a hydraulic lift, or any other appropriate design. In one embodiment the length adjusting mechanism may comprise a linear actuator 120 having a pushrod housing 126, a pushrod 128, an electric motor 130, and a remote 122. The linear actuator 120 may be powered by any appropriate component such as, for example, a plurality of batteries or a standard power adapter. In this way the linear actuator 120 may be activated to increase the length between the structural base and the clothes hanging mechanism, resulting in the raising of an article of clothing attached to the clothes hanging mechanism.

(27) To begin using the device a user may first attach an article of clothing to the plurality of clips 114 so that the clothing is being held open facing the user. The user may then back up to the open article of clothing and insert their hands into the respective sleeves of the clothing. The user may then activate the linear actuator 120 by any appropriate trigger mechanism such as, for example, manipulating the remote 122 or manipulating a start button. The linear actuator 120 may then extend and raise the clothes hanging mechanism relative to the structural base, thus raising the article of clothing up the arms of the user. Once the clothes hanging mechanism is raised high enough the clothing is being worn by the user. The user may then step away from the remote-controlled collapsible valet stand to disconnect the article of clothing from the plurality of clips 114.

(28) In one embodiment the remote-controlled collapsible valet stand may further comprise a lower cowling 102 and an upper cowling 104. The lower cowling 102 and upper cowling 104 may comprise any housing appropriate to cover and protect the internal mechanisms of the device. The upper cowling 104 may comprise an identical though slightly larger cross-section to the lower cowling 102 so that one cowling telescopes into the other as the device is shortened.

(29) In one embodiment the remote-controlled collapsible valet stand may further comprise an atlas 108 having a remote holder 118. The atlas 108 may comprise any structural component appropriate for attaching the linear actuator 120 or the upper cowling 104 to the plurality of arms 114. The remote holder 118 may comprise any appropriate cut out, divot, or indent appropriate for receiving and storing the remote 122.

(30) In one embodiment the remote-controlled collapsible valet stand may further comprise a pivot 110 having a spring rod 116. The pivot 112 may comprise any structural component appropriate for attaching the atlas 108 to the plurality of arms 112 and allowing the plurality of arms 112 to be reversibly articulated between a collapsed orientation and an extended orientation. The pivot 112 may allow for the plurality of arms 112 to be articulated from a horizontal orientation to a vertical orientation by comprising a vertical pivoting hinge or similar component, and may allow for the plurality of arms 112 to be articulated from an extended orientation to a collapsed orientation by comprising a horizontal pivoting hinge or similar component. The spring rod 116 may comprise any spring-loaded rod having a hook for assisting in holding up an article of clothing held within the device.

(31) In one embodiment the remote-controlled collapsible valet stand may further comprise a height adjuster 124. The height adjuster 124 may comprise any structural component appropriate for increasing or decreasing the initial or final overall height of the device. By way of example, the height adjuster 124 may comprise a telescoping pole, a screw lift, a hydraulic lift, or any other appropriate design. In this way the device may be adjusted for users of different heights.

(32) In one embodiment the remote-controlled collapsible valet stand may further comprise a proximity sensor. The proximity sensor may comprise any sensor appropriate for detecting the presence of a user and automatically triggering the activation of the linear actuator 120. By way of example, the proximity sensor may comprise a laser, a sound receiver, a pressure sensor, or other similar device. A laser sensor, for example, may be installed at the distal end of either of the plurality of arms 112 such that a user breaks the sensor when backing into the device. A sound receiver, for example, may be installed within the device to receive and respond to an audible start command. A pressure sensor, for example, may be a foot pedal that a user may press to activate the device.

(33) In one embodiment the remote-controlled collapsible valet stand may further comprise an audiovisual alarm. The audiovisual alarm may comprise any alarm appropriate for indicating a status to a user. By way of example, the audiovisual alarm may comprise a plurality of lights, a plurality of speakers, a combination of lights and speakers, or other similar device. The audiovisual alarm may indicate to a user an upper or lower range of travel of the device, that the device is powered, or any other appropriate indication.

(34) In one embodiment the remote-controlled collapsible valet stand may further comprise a proprietary software. The speed and action of the device may be controlled electronically, and a proprietary software may be implemented to program or command when the linear actuator 120 is activated, when the device is extended or collapsed, how tall the device stands, or any other appropriate parameter. By this programming the device can be instructed when to start and stop, how much force to output, and when to fail safe in the event of an emergency or in response to specific parameters.

(35) In one embodiment the remote-controlled collapsible valet stand may further comprise a display device. The display device may comprise any appropriate digital display or interactive display, such as a high-definition liquid crystal display or a touch screen. A plurality of input devices may also be attached to the display device allowing a user to interact with the display device or the system. Such plurality of input devices may comprise, for example, a keyboard and mouse combination, a microphone, a facial recognition or gesture recognition camera, or any other appropriate input.

(36) The remote-controlled collapsible valet stand may be substantially assembled by any appropriate mechanism known in the art. By way of example, the various components of the device may be attached to one another, as contemplated by the present disclosure, by screwing, gluing, welding, adhering, interlocking, clasping, binding, nailing, or any other appropriate mechanism.

(37) The remote-controlled collapsible valet stand may be substantially constructed of any suitable material or combination of materials, but typically is constructed of a resilient material or combination of materials such that the device is resistant to damage as a result of compression, twisting, heating, or submersion in water. As an example, and without limiting the scope of the present invention, various exemplary embodiments of the remote-controlled collapsible valet stand may be substantially constructed of one or more materials of steel, aluminum, brass, fiberglass, carbon fiber, plastic, acrylic, polycarbonate, polyester, nylon, denim, cotton, silicone, or combinations thereof. In some embodiments the various components of the device may be coated, lined, or otherwise insulated to prevent contamination of the device. In one embodiment the material of construction may vary from one component to the next within the system.

(38) In one embodiment the remote-controlled collapsible valet stand may comprise a resilient material of construction that either comprises a material having antimicrobial properties or comprises a layering of antimicrobial material or coating. Antimicrobial properties comprise the characteristic of being antibacterial, biocidal, microbicidal, anti-fungal, anti-viral, or other similar characteristics, and the oligodynamic effect, which is possessed by copper, brass, silver, gold, and several other metals and alloys, is one such characteristic. Copper and its alloys, in particular, have exceptional self-sanitizing effects. Silver also has this effect, and is less toxic to users than copper. Some materials, such as silver in its metallic form, may require the presence of moisture to activate the antimicrobial properties.

(39) While the invention has been described in connection with what is presently considered to be the most practical and preferred embodiments, it is to be understood that the invention is not to be limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims.