Abstract:
A vacuum trash insertion receptacle includes an aesthetically shaped housing providing a trash tube for the insertion and transportation of garbage to a trash receptacle assembly. A control assembly in communication with a gate monitoring assembly, an interactive module assembly, a vacuum assembly, and an indicator assembly, controls the functioning of the vacuum trash insertion receptacle. The gate monitoring assembly provides information on the presence of garbage being inserted. The vacuum assembly provides a vacuum to the trash tube. The interactive module assembly provides audio feedback to a user of the vacuum trash insertion receptacle. The indicator assembly provides information regarding the level of stored trash currently in the trash receptacle assembly.

Description:
CROSS REFERENCE TO RELATED APPLICATION 
   The present application claims priority under 35 U.S.C. 119(e) to the U.S. Provisional Application Ser. No. 60/395,502, filed on Jul. 12, 2002, and the U.S. Provisional Application Ser. No. 60/430,404 filed on Dec. 3, 2002. Both U.S. Provisional Application 60/395,502 and 60/430,404 are herein incorporated by reference in their entireties. 

   FIELD OF THE INVENTION 
   The present invention generally relates to the field garbage collection, and particularly to a vacuum trash insertion receptacle. 
   BACKGROUND OF THE INVENTION 
   Trash receptacles are well known in the prior art, many coming equipped with aesthetically appealing housings or casings. They are also used in a variety of forums, such as theme parks, amusement parks, theaters, and the like. 
   Unfortunately, most trash receptacles do not provide a system for ensuring that the trash placed in them gets down and stays down in the receptacle. Nor do they provide maintenance workers with an indication of when they are full. Many trash receptacles also fail to properly communicate with users, which, if corrected, would aid the effort to improve the receptacles&#39; performance. These concerns become problematic, for instance, when the trash is not properly inserted into the receptacle and becomes dispersed by wind, rain, or other elements outside of the trash receptacle. Such direct exposure to trash is a health hazard to the users of the receptacle and those responsible for its maintenance. Further, if the trash receptacle is allowed to overfill, odor problems may result and the receptacle may become a breeding ground for insects. Additionally, some receptacles may be so aesthetically appealing that they may not be recognized for trash receptacles, which results in decreased utilization. This may be particularly problematic to theme parks attempting to maintain their appearance without distressing their guests. 
   Therefore, it would be desirable to provide a trash receptacle that is both visually appealing and provides for the safe and effective gathering and storage of trash. 
   SUMMARY OF THE INVENTION 
   Accordingly, the present invention is directed to a vacuum trash insertion receptacle (hereinafter “VTIR”). The VTIR provides effective trash collection and storage. In a first aspect of the present invention, the VTIR includes a housing coupled with a vacuum assembly. The vacuum assembly further couples with a refuse receptacle assembly. The vacuum assembly is suitable for accepting refuse from the outside environment and delivering it for storage in the refuse receptacle. The VTIR further includes an indicator assembly coupled to the refuse receptacle assembly that indicates the level of refuse within the refuse receptacle assembly. Additionally, the VTIR includes an audio interactive module coupled to the housing, which provides interaction with a user of the VTIR. 
   In a second aspect of the current invention, the VTIR includes an animal aesthetic assembly for providing a visually identifiable refuse collection system. A vacuum assembly is coupled with the animal aesthetic assembly, the vacuum assembly being suitable for accepting refuse. A refuse storage assembly is coupled with the vacuum assembly for storing refuse, and an indicator assembly indicates the level of refuse within the refuse storage assembly. Further, an audio/video interactive module provides interaction with a user and passersby. 
   In a third aspect of the current invention, a portable VTIR comprising a vacuum assembly coupled with a portable housing assembly is provided. The vacuum assembly being suitable for accepting refuse into a refuse storage assembly coupled with the vacuum assembly. The portable VTIR being suitable for retro-fitting into a variety of housing. 
   In a fourth aspect of the current invention, a method for the collection of garbage includes the steps of establishing a VTIR, identifying a user in need of garbage collection, and accepting the garbage. The present method may further help to avoid confusion over the utility of a VTIR by a potential user by clearly indicating its function and providing an interactive methodology for obtaining the garbage from the user. 
   It is to be understood that both the forgoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the invention as claimed. The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate an embodiment of the invention and together with the general description, serve to explain the principles of the invention. 

   
     BRIEF DESCRIPTION OF THE DRAWINGS 
     The numerous advantages of the present invention may be better understood by those skilled in the art by reference to the accompanying figures in which: 
       FIG. 1  is an illustration of a vacuum trash insertion receptacle in accordance with an exemplary embodiment of the present invention; 
       FIG. 2  is a cut-away illustration of the vacuum trash insertion receptacle; 
       FIG. 3  is an exploded view of the vacuum trash insertion receptacle; 
       FIG. 4  is a side-view illustration of the vacuum trash insertion receptacle with an access panel removed; 
       FIG. 5  is an illustration of an animation vacuum trash insertion receptacle in accordance with an exemplary embodiment of the present invention; 
       FIG. 6  is an illustration of an interactive vacuum trash insertion receptacle in accordance with an exemplary embodiment of the present invention; 
       FIG. 7  is an illustration of a portable vacuum trash insertion receptacle; 
       FIG. 8  is a cut-away illustration of the portable vacuum trash insertion receptacle; and 
       FIG. 9  is a flowchart illustrating a method of collecting garbage in accordance with an exemplary embodiment of the present invention. 
   

   DETAILED DESCRIPTION OF THE INVENTION 
   Reference will now be made in detail to the presently preferred embodiments of the invention, examples of which are illustrated in the accompanying drawings. 
   Referring generally now to  FIGS. 1 through 4 , exemplary embodiments of the present invention are shown. A VTIR provides an aesthetically appealing medium within which trash may be collected. This may be important to a variety of business enterprises that wish to maintain particular standards of appearance within the venues they provide. For example, a zoo may be interested in the hippopotamus version of the present invention while an amusement park may be interested in the VTIR with an outward appearance of a cartoon character. The use of the VTIR may help ensure that trash is placed in a trash receptacle instead of being left on the surface of the housing. This may significantly decrease the unsightly appearance of trash on the ground immediately surrounding the VTIR. Further, by removing trash to a receptacle remotely located to the trash insertion area, the risks of noxious odors being emitted and health hazards being created for users and passersby may be decreased. 
   A VTIR  100  is shown in  FIGS. 1 ,  2 ,  3 , and  4 . Preferably, the VTIR  100  includes a housing  102  disposed with a gate  103  and a gate monitoring assembly including a first sensor  104  and a second sensor  106 . An access panel  108  is disposed on the housing  102  to allow internal access by a user. The gate  103  is a first end of a trash tube  122 , the trash tube  122  being further discussed below, disposed within the housing  102 . It is contemplated that the gate  103  may present as a movable door, a flap, and the like, also including a locking mechanism. Further, the first and second sensors  104  and  106  of the gate monitoring assembly may be coupled to the movable door or flap of the gate  103  or at the entrance of the trash tube  122 . 
   In the present embodiment, an interactive module assembly comprising an audio module  105  is coupled to the housing  102  of the VTIR  100 . The audio module  105  provides speech interaction with guests and users of the VTIR  100 . For example, upon insertion of trash into the VTIR  100  the audio module  105  may provide an audible “Thank you” response. Additionally, a speech recognition assembly may be coupled with the audio module  105  enabling the VTIR  100  to answer questions from users. 
   In the current embodiment, a control assembly  110  is coupled to a vacuum assembly  112 , the first and second sensors  104  and  106 , and an indicator assembly which comprises a trash level indicator  114  and an indicator reflector  116  mounted upon a trash dump backstop  118 . Preferably, the trash level indicator  114  is mounted to the trash tube  122 . The trash dump backstop  118  including the indicator reflector  116  is capable of coupling to the trash tube  122 . As can be seen in  FIG. 2  the trash dump backstop  118  includes an arm that connects to the trash tube  122  and extends the trash dump backstop  118  away from the end of the trash tube  122 . The arm is also positioned at an angle relative to the trash tube so that the backstop  118  hangs slightly inside the trash receptacle  134 . The control assembly  110  is further coupled to a mounting assembly  120  which enables the control assembly  110  to be coupled to the trash tube  122 . In the present embodiment, the mounting assembly  120  and the trash dump backstop  118  are coupled to the trash tube  122  by use of a first O-ring clamp  124  and a second O-ring clamp  126 . 
   Preferably, the control assembly  110  may be enabled as a computing system. Coupling of the control assembly  110  with the vacuum assembly  112 , gate monitoring assembly, and the trash indicator assembly establishes communication links between and among the working parts of the VTIR  100 . As will be discussed in  FIGS. 5 and 6 , the control assembly also couples with other additional features of the VTIR, such as animated features and interactive features. The control assembly  110  processes information received through the communication links and sends commands to the appropriate functional assembly/feature for activation. 
   The computing system of the control assembly  110  may include a variety of technologies as contemplated by one of ordinary skill in the art. For example, the communication links may be through use of serial cables, universal serial bus cables, parallel port cables, and the like. Alternatively, the communication links may be enabled through wireless technology, such as radio frequencies, infrared, Bluetooth, and the like. 
   The control assembly  110  is further coupled with the gate monitoring assembly including the first and second sensors  104  and  106 . The first and second sensors  104  and  106  provide a sensing field. A drainage hole or conformed area may be included in the housing  102  where the sensors  104  and  106  are located to prevent a build-up of residue from hindering the sensors&#39; performance. The sensing field may be a laser beam, radio wave, and the like, that spans the area of the gate  103 . The gate monitoring assembly provides information to the control assembly  110  that tells the control assembly  110  to turn on and off the vacuum assembly  112 . For example, when trash is inserted through the gate  103 , the first and second sensors  104  and  106  signal the control assembly  110  to turn on the vacuum assembly  112 . 
   The vacuum assembly  112 , in the present embodiment, includes a fan driven by a motor. The fan is positioned inside the housing  102 . The fan&#39;s outlet is connected to a vent in the housing  102  where exhaust air departs. When the fan is operating, a vacuum is created inside the housing  102  that provides suction at the gate  103 . Then, a flap or door swings open at the gate  103  to accept the trash. In the present embodiment, the vacuum assembly  112  is regulated by the control assembly  110 . The vacuum assembly  112  may also be controlled by a timer or a switch. It is understood that other configurations of the vacuum assembly  112  and a variety of vacuum creating devices may be employed as contemplated by one of ordinary skill in the art without departing from the scope and spirit of the present invention. 
   The trash tube  122  may be composed of metal, plastic, or the like. The trash tube  122  may include a non-stick surface on the inner wall and may be coupled with a cleaning system. The cleaning system may provide flushing capabilities to wash out the trash tube  122  with fluid and it may provide chemical treatment capabilities to break down residue that may build up on the inner wall of the trash tube  122 . 
   The trash tube  122 , including the trash indicator assembly, couples with a trash receptacle assembly  134 . In the preferred embodiment, the trash tube  122  operationally engages with the trash receptacle assembly  134  on a horizontal plane established by the trash receptacle assembly  134 . It is contemplated that the trash tube angle may vary. For instance, the angle between the trash tube  122  and the horizontal plane established by the receptacle assembly  134  may be between 0 and 10 degrees. This angle allows the trash to move easily to the receptacle assembly  134  and at the same time prevents trash already inside the receptacle assembly  134  from blocking the trash tube  122 . The trash receptacle assembly  134  is situated to gather trash inserted into the trash tube  122  and remain accessible to users of the VTIR  100  through access panel  108  as shown in  FIG. 4 . 
   In alternative embodiments the trash tube  122  may connect directly with the trash receptacle assembly  134 . This direct connection may occur through the use of a hood that fits over the trash receptacle assembly  134  and couples with the trash tube  122 . The hood may reduce spillage and assist in odor control within the housing  102 . Further, the hood may decrease the build up of insects around the trash receptacle assembly  134  and reduce possible health hazards by isolating the trash from the housing  102 . In still another embodiment a permanent backstop may be coupled to the interior of the housing  102  immediately behind the location where the trash receptacle assembly  134  is situated. The permanent backstop may further include an indicator reflector such as that coupled to the backstop  118 , to provide trash build up information. In yet another embodiment the trash tube  122  may operationally engage with a large underground trash storage area. For example, some amusement parks employ an underground system of dumpsters for collecting their garbage. Each dumpster in such a system could except trash from one of several VTIR  100   s  by way of the trash tube  122 . This would benefit the park or zoo in its effort to provide an aesthetic method of collecting and storing trash because patrons would never see maintenance workers unloading the VTIR  100   s  placed throughout the park or zoo. 
   In the current embodiment, power is provided through a power cord  136 , commonly referred to as a “pigtail” in the art, coupling with a power outlet that is remote to the VTIR  100 . The power cord  136  is positioned to navigate through the housing  102  and then outside to a remote AC power outlet. In an alternative embodiment, the control assembly  110  and vacuum assembly  112  may be coupled with an AC power outlet mounted inside the housing  102 . It is contemplated that a variety of modular and interchangeable power sources may be coupled with the control assembly  110  and the vacuum assembly  112 . Further, the modular power source may be a rechargeable power source or also fuel cells. 
   Preferably, the trash receptacle assembly  134  comprises a standard trashcan. The exact dimensions of the trashcan may vary by the design of the housing  102  and the needs of the consumer. Alternatively, the trash receptacle assembly  134  may include a trash compacting assembly. The trash compacting assembly may be coupled with the trash tube  122  and the trash receptacle assembly  134 . Such a trash compacting assembly may be remotely located to the trash receptacle assembly  134 , but the coupling of the trash compacting assembly to the trash receptacle assembly  134  ensures that the compacted trash is delivered to the trash receptacle assembly  134 . 
   The housing  102  may take on a variety of forms, such as an animal, cartoon character, celebrity, or the like. The design of the housing  102  may be critical to the consumer and it is understood that the VTIR  100  may have its design tailored to meet the specific needs of a consumer. The location of the gate  103  may be varied, for instance, the gate may be placed in the body of the animal leaving the mouth free to be used for other purposes. The location of the access panel  108  may be shifted to accommodate different presentation positions, for instance, one VTIR  100  may be shaped like an animal lying down while another may be shaped like an animal running, standing on its hind legs, crouching, or the like. The housing  102  may also be equipped with a movable base assembly so that it can be repositioned with ease. 
   Additionally, the VTIR  100  may include an insect control assembly. The insect control assembly may help to reduce the number of insects that aggregate in and around the VTIR  100 , which may reduce the risk of creating health hazards. Further, the aesthetic appeal of the VTIR  100  is maintained by decreasing the insect population around it. Another feature that may be added to the VTIR  100  is a water enhancement assembly. The water enhancement assembly may include such features as a water fountain, a water basin, and the like. For example, the VTIR  100  may include a water display that shoots water into the air. Alternatively, the water enhancement assembly may maintain standing water in and around the VTIR  100 . Further, the water enhancement assembly may provide a drinking fountain in proximity to the VTIR  100 . 
   A smoke detection assembly may also be included within the VTIR  100 . As trash compacts in the enclosed space of the VTIR  100  it may start to build up heat. If left unchecked for a period of time, the heat build up may ignite the trash. In the process of heat build up, before ignition of the trash, smoke may be produced. Therefore, a smoke detection assembly located in close proximity to the trash receptacle assembly  134  may prevent the VTIR  100  from igniting into flames. Not only would this protect the VTIR  100  but it may also protect users and passersby from injury, such as burns and smoke inhalation. 
   Referring now to  FIG. 5 , an animation VTIR  500  is shown. In the preferred embodiment, the animation VTIR  500  includes a housing  502  disposed with an animation assembly, such as an animated lower jaw assembly  504 . The animated lower jaw assembly  504  may simulate a closing mouth of the animation VTIR  500  when trash is inserted into the trash tube  506 . Further, the housing  502  may be disposed with an animated ear assembly  508 . The animated ear assembly  508  may simulate wiggling ears on the animation VTIR  500  when trash is inserted into the trash tube  506 . Additionally, the housing  502  may be disposed with an animated eye assembly  510  which may simulate eye movements, such as moving pupils and closing eyelids when trash is inserted in the trash tube  506 . 
   A trash insertion sensing assembly includes a first sensor  512  and a second sensor  514 . The first and second sensors provide the animation VTIR  500  with an indication of when trash is being inserted into the trash tube  506 . From this indication information, the animation VTIR  500  may initiate movement of the animated features. It is contemplated that a proximity sensing assembly may be included on the animation VTIR  500 . The proximity sensing assembly may provide distance information to the animation VTIR  500  and be tied to the initiation of the animated features. For example, the animation VTIR  500  may require a particular minimum distance be established before the animated movements will be initiated. 
   In alternate embodiments of the present invention a variety of animated features may be employed. For example, the animation VTIR  500  may be given legs and the legs may be enabled as animated features. Further, the animation VTIR  500  may be another animal, such as a monkey with arms that may be enabled as animated features. Additionally, the eyes of an animal may light up and sounds that the animal makes may be included as part of the animation. While the current embodiments and description encompass several animated features and other animated possibilities, it is understood that they are not intended as an exclusive listing or limiting range but instead as exemplary. It is understood that other animated features as contemplated by one of ordinary skill in the art may be employed without departing from the scope and spirit of the present invention. 
     FIG. 6  shows an audio/video interactive VTIR  600 . The audio/video interactive VTIR  600  comprises a housing  602  disposed with an audio module  604 , a video module  606 , and a proximity assembly comprising a first proximity sensor  608  and a second proximity sensor  610 . A trash tube  612 , a first sensor  616 , and a second sensor  614 , for monitoring and accepting the insertion of trash are similar to those described in previous embodiments and are shown included within housing  602 . 
   The audio module  604 , as discussed in  FIGS. 1 through 6 , provides speech interaction with guests and users of the audio/video interactive VTIR  600 . For example, upon insertion of trash into the audio/video interactive VTIR  600  the audio module may provide an audible “Thank you” response. The video module  606  provides visual interaction with guests and users of the audio/video interactive VTIR  600 . For example, upon insertion of trash into the audio/video interactive VTIR  600  the video module  606  may show an image expressing thanks for the use of the audio/video interactive VTIR  600 . 
   The audio module  604  and the video module  606  may be further enabled to provide a variety of interactive features. For instance, a speech recognition assembly may be tied to either or both of the audio module  604  or the video module  606  giving the audio/video interactive VTIR  600  the ability to answer questions. For example, a user may ask the audio/video interactive VTIR  600  where a particular site/attraction is located and the audio module  604  may give audible directions or the video module  606  may provide the image of a map and indicate the location of the desired site/attraction. 
   Additionally, the video module  606  may include features such as a touch screen display allowing users to independently search for information. The touch screen display may be protected by some sort of barrier, such as a shield, but still allow a user to interact with the display. 
   It is understood that the audio/video interactive VTIR  600  may include either the audio module  604  or the video module  606  or both modules. Further, either or both of the modules may be incorporated into the animated VTIR  500  described in  FIG. 5 . Further, either or both module may be coupled with the animation assembly of  FIG. 5  in order to directly link animation movements to interaction with the user. 
   The proximity assembly utilizing the first and second proximity sensors  608  and  610  enables the audio/video interactive VTIR  600  to determine when a user is in the area. The sensors may be enabled with a particular range of distance immediately surrounding the audio/video interactive VTIR  600  to provide information to the proximity assembly. The range of distance may be an adjustable feature. 
   The proximity assembly may be coupled to the audio module  604  and the video module  606 . With the audio/video interactive VTIR  600  so enabled, interaction with guests and users may be increased. Instead of only responding to having trash inserted the audio/video interactive VTIR  600  may invite interaction with passersby. This may be useful in a theme park or zoo with multiple sites and attractions spread across a large area. A passerby may not have trash but instead want to know the location of a particular ride. If the passerby comes within range of the proximity sensors  608  and  610 , the proximity assembly may initiate the audio module to query, “May I help you today?” The passerby has now been informed that information is available to them through the audio/video interactive VTIR  600  whereas without the proximity alert and concomitant query the passerby may have not used the audio/video interactive VTIR  600  helpful features. The passerby may ask the question and be provided with useful information concerning the location of the ride they desire. It is understood that the nature of the statements made and the information provided by the audio/video interactive VTIR  600  may vary as directed by one of ordinary skill in the art. It is further contemplated that the consumer of the audio/video interactive VTIR  600  may be provided with the ability to create individualized interactive speech patterns and video displays. 
   Referring now to  FIG. 7  and  FIG. 8 , an alternative embodiment of the present invention is shown. In the present embodiment, a portable VTIR  800  includes a vacuum assembly  802  which is enclosed in a casing  804  inside a portable housing  806 . A trash receptacle  808  is located in the portable housing  806  separated from the casing  804 . An air tube  810  allows air to travel into the casing  804  from the rest of the portable housing  806  when the vacuum assembly  802  is operating. A filter  828  is disposed proximally between the air tube  810  and the vacuum assembly  802  to clean the air before it is pulled through the vacuum assembly  802 . The vacuum assembly  802  is regulated by a control assembly and sensors  814  and  816 , which are disposed proximally to the entryway of a trash tube  818 . The vacuum assembly  802  may be supplied with power by an AC cord commonly referred to in the art as a “pigtail.” It is also contemplated that the vacuum assembly  802  may be powered by a fuel cell, battery, or the like. In the preferred embodiment, the trash tube  818  operationally engages with the trash receptacle  808  on a horizontal plane established by the trash receptacle  808 . It is contemplated that the trash tube angle may vary. For instance, the angle between the trash tube  818 , and the horizontal plane established by the trash receptacle  808  may be between 0 and 10 degrees. 
   To reduce noxious odors, a trash receptacle lid assembly  820  remains closed unless trash is placed in the trash tube  818 . The trash receptacle lid assembly  820  includes a beveled lift apparatus  822  that is flexible and retracts in an accordion-like manner when the vacuum assembly  802  is operating. Since the beveled lift apparatus  822  is coupled with the casing  804 , the vacuum assembly  802  creates an area of low pressure inside the beveled lift apparatus  822 , which allows for its retraction. The vacuum assembly  802  also creates an area of low pressure inside the housing  804 , which allows for the trash to be sucked through the trash tube  818  and, eventually, the trash receptacle  808 . To prevent the trash from missing the trash receptacle  808 , a deflector flap  824  hangs from the trash receptacle lid assembly  820  on the opposite side from the trash tube  818 . The deflector flap  824  rests inside the trash receptacle  808  when the trash receptacle lid assembly  820  is in the closed position. 
   To further explain how the portable VTIR  800  operates, first trash is placed in the trash tube  818  where sensors  814  and  816  trigger the vacuum assembly  802  to begin operating inside the casing  804 . This creates a vacuum in the portable housing  806  that both lifts the trash receptacle lid assembly  820  from the trash receptacle  808  and sucks the trash through the trash tube  818 . Next, the trash is projected into the portable housing  806  and ricochets off the deflector flap  824  into the trash receptacle  808 . The portable housing  806  is also equipped with a door  826  that makes maintaining the portable VTIR  800  convenient. It is also contemplated that the present embodiment may be coupled with the housing  102 ,  502 , or  602  of the VTIR  100 , such that an amusement park or zoo could use the present embodiment in an aesthetically pleasing manner. To explain, maintenance employees of the zoo or amusement park could simply roll the portable VTIR  800  into the housing  102 ,  502 , or  602 , which would prepare the housing for accepting trash. The portable VTIR  800  could couple with the housing  102 ,  502 , or  602  through a variety of means. For instance, it is contemplated that the trash tube  102  could couple directly with the trash tube  818  of the portable VTIR. It is also contemplated that the trash tube  818  could couple directly with the gate  103 , preparing the housing  102 ,  502 , or  602  for accepting trash. 
   Referring now to  FIG. 9 , a method of collecting garbage is shown. The first step  910  establishes a VTIR similar to those described in the previous  FIGS. 1 through 8 . In step  920  a VTIR similar to that shown in  FIGS. 1 through 8 , identifies a user in need of garbage collection. Identification may occur through use of the gate monitoring assembly. The gate monitoring assembly is coupled to the control assembly and activation of the gate monitoring assembly instructs the control assembly that trash is being inserted into the VTIR. 
   Alternatively, identification may occur through the use of a proximity assembly similar to that discussed in  FIG. 6 . The proximity assembly may be coupled with an interactive module assembly similar to that shown and described in  FIG. 6 . The interactive module assembly may include the audio module and/or the video module. Using the interactive module assembly, the VTIR may initiate interaction. For example, the proximity assembly may determine that a passerby, a possible user, is within a certain distance and activate the audio module, which may query the passerby, “Are you looking to get rid of your garbage?” It is understood that the query identified in this passage is merely exemplary and that a variety of statements, questions, comments, and the like, may be utilized. If the passerby does have unwanted garbage they may now become a user of the vacuum trash insertion receptacle by placing garbage within. 
   The VTIR, in step  930 , accepts the garbage provided by the user through the trash tube. The trash tube is coupled with the housing and provides the gate through which trash is inserted by the user. The trash tube is further coupled with the vacuum assembly and the trash receptacle assembly. The VTIR includes the gate monitoring assembly, which provides information to the control assembly and is coupled to the vacuum assembly. When the gate monitoring assembly indicates that trash has been inserted through the gate, into the trash tube, the control assembly activates the vacuum assembly, which provides vacuum suction to the trash tube and transports the garbage received through the trash tube and into the trash receptacle assembly. 
   In the exemplary embodiments, the methods disclosed may be implemented as sets of instructions or software readable by a device. Further, it is understood that the specific order or hierarchy of steps in the methods disclosed are examples of exemplary approaches. Based upon design preferences, it is understood that the specific order or hierarchy of steps in the method can be rearranged while remaining within the scope and spirit of the present invention. The accompanying method claims present elements of the various steps in a sample order, and are not necessarily meant to be limited to the specific order or hierarchy presented. 
   It is believed that the VTIR of the present invention and many of its attendant advantages will be understood by the forgoing description. It is also believed that it will be apparent that various changes may be made in the form, construction, and arrangement of the components thereof without departing from the scope and spirit of the invention or without sacrificing all of its material advantages. The form herein before described being merely an explanatory embodiment thereof. It is the intention of the following claims to encompass and include such changes.