The present application relates to a waste disposal device and, more particularly but not exclusively, to a waste disposal device for the disposal of odorous waste, such as diapers.
Waste disposal devices having odor-concealing systems are well known. Such waste disposal devices typically comprise a bag that is closed off by given mechanisms, to conceal the odors within the bag. U.S. Pat. No. 6,817,164 (Mauffette et al.) and U.S. Pat. No. 7,406,814 (Morand) propose such odor-concealing systems. However, it is desired to provide a waste disposal device that is simple in construction, and that may have the option of being opened by a pedal.
It is therefore an aim of the present disclosure to provide a novel waste disposal device.
Therefore, in accordance with the present application, there is provided a waste disposal device comprising: a container having an opening at a top end, the container defining an inner cavity accessible through the opening, for receiving a bag opened at the opening of the container and having a closed end in the inner cavity; a lid pivotable to close/open access to the opening; and an actuation mechanism having an interface actuated by a user, the actuation mechanism comprising a linkage connected to the interface to open/close the lid, and a single pair of jaws connected to the linkage to move between a clamped position in which the jaws close off a portion of the bag passing therebetween, and an opened position in which the jaws are separated to allow waste to reach the closed end of the bag under the pair of jaws, the jaws and the lid being concurrently actuated by a single degree of actuation on the interface, by which the lid moves from opened to closed while the jaws move from the clamped position to the opened position and back to the clamped position.
Further in accordance with the present application, there is provided a method for the disposal of a waste object in a waste disposal device comprising a container with an opening at a top end closed by a lid, a bag opened at the opening and having a closed end positioned inside the container, jaws closing off a portion of the bag passing therebetween, and a pedal mechanism for opening/closing the lid and actuating at least one of the jaws, the method comprising: opening the lid as a result of a pressure applied on the pedal; receiving a waste object in the bag on top of the jaws; closing the lid as a result of a release of the pressure applied on the pedal; separating the jaws for the waste object to fall under the jaws in the closed end of the bag during the release of the pressure; and bringing the jaws against one another with the bag therebetween and the waste object captive in the closed end of the bag below the jaws during the release of the pressure.
Referring to the drawings and more particularly to
The container 12 forms the structure of the device 10, and accommodates and conceals the tubular bag containing waste. The container 12 is not limited to the shape illustrated in the Figs. Any suitable geometry is considered as well.
The lid assembly 13 opens and closes a top opening of the container 12, through which the waste is thrown into the bag of the device 10.
The actuation mechanism 14 is manually actuated to open and close the lid assembly 13, and to move a pair of jaws that close off the bag to seal odors therein. The jaws may be arranged to have the bag closed when the lid of the lid assembly 13 is opened.
Referring to
A shoulder 23 inside the container 12 defines a seat for the cassette 11, in such a way that the tubular bag projects into an inner cavity of the container 12. According to an embodiment, the seat 23 has a specific geometry, requiring the cassette 11 to be inserted in the proper orientation. Any other suitable configuration may be used to support the cassette 11. For instance, the cassette 11 may have its own shoulder to be self-supported on a periphery of the opening 22.
An upper annular rim 24 bounds the opening 22, and is the interface between the lid assembly 13 and the container 12. Support arm 25 may be provided to project from a top of the container 12 (e.g., from a bottom of the seat 23 or rim 24) into the inner cavity of the container 12, and supports components of the actuation mechanism 14, as is described hereinafter.
Complementary hinge portions 26 are positioned on a rear side of the base portion 20 and top portion 21 of the container 12, so as to allow pivoting motion of the top portion 21 with respect to the base portion 20 for accessing an interior of the container 12.
Still referring to
A lid 31 is pivotally connected to the annular base 30 by hinge 32. Therefore, the lid 31 may pivot between an opened position, as shown in
The actuation mechanism 14 consists of linkages (i.e., links and joints) interfaced by a user with a pedal 40. The pedal 40 is pivotally connected to the base portion 20 of the container 12. A front portion of the pedal 40 projects outwardly from a front side of the container 12, and is close to the ground, whereby a user may simply press on the exposed portion of the pedal 40. The device 10 may be provided with alternative interfaces, like a hand lever or the like.
A first link 41 is connected to a rear portion of the pedal 40, inside the container 12. A joint 42 interconnects the first link 41 to a second link 50, and transmits forces from one to another. The links 41 and 50 may be connected to structural components in the container 12, so as to be restricted to translational movement (i.e., up and down). Accordingly, by pressing downwardly on the front portion of the pedal 40, the links 41 and 50 move upwardly. The subsequent release of the pedal 40 causes the links 41 and 50 to move downwardly.
Referring to
Referring to
In addition to transmitting motion of the pedal 40 to the lid 31, the second link 50 actuates jaws that seal the bag closed. The second link 50 has a jaw-opening interface 52 (
The actuation mechanism 14 further comprises a pair of jaws 60. Each jaw 60 has a generally horizontal bar 60A, with the bars 60A of the jaws 60 being normally one against the other in a clamping position, as shown in
The jaws 60 each have a pair of pivot heads 61. The pivot heads 61 are generally circular in shape, and may have teeth 63 on their periphery. The teeth 63 are sized to mesh with the teeth 63 of the adjacent pivot head 61. The intermeshed teeth 63 ensure the concurrent motion of the jaws 60, between and to the positions illustrated in
On a side of the jaws 60, pivots 63 project so as to connect with the support arm 25, as best shown in
Referring to
Referring to
The jaws 60 may have configurations other than those described above. For instance, the jaws 60 may be mounted to the container 12 so as to translate, as opposed to rotate. In such a case, the jaws 60 would be supported by rails, and biased toward one another. Moreover, pivots, pivot holes, may be integral with the jaws 60, or separated therefrom. It is also considered to have a single one of the jaws 60 move to perform the clamping motion with the other jaw 60 being fixed. Although the embodiments described herein refer to a pair of jaws 60, a single movable jaw 60 may abut against a structural surface of the container or against any other part of the device 10. However, this structural surface is referred to as a jaw throughout the description and in the claims.
Referring to
Guide clearance slots 72 are positioned above the pivots 71 to allow the interaction between the guiding slots 54 and the follower pins 66, as described above. The follower pins 66 thread through the guide clearance slots 72 to be received in the guiding slots 54 of the second link 50. The guide clearance slots 72 are wide enough to allow the lateral movement of the follower pins 66, as caused by the follower pins 66 following the movement of the guiding slots 54.
Pin clearance slot 73 is defined in the support arm 70, to allow the interaction between the blocking pins 55 and the seating slots 65, as described above. The follower pins 66 thread through the guide clearance slots 72 to be received in the guiding slots 54 of the second link 50. The length of the pin clearance slot 73 is determined as a function of the course of the blocking pins 55 defined by the translational movement of the second link 50, as actuated by the pedal 40.
Referring to
Another spring 81 is also positioned in the cavity of the jaw-opening interface 52. Opposed ends of the spring 81 are respectively connected to a post 82 in the interface 52 and a post 83 in the support arm 70. The post 83 in the support arm 70 projects through the straight slot 53, into the cavity of the jaw-opening interface 52. The spring 81 biases the posts 82 and 83 toward one another, thereby pulling the second link 50 downwardly. The spring 81 therefore helps in closing the lid 31 of the device 10 (with the work of gravity as described hereinafter), and in maintaining the lid 31 shut, with the second link 50 pulled all the way down such that the blocking pins 55 are in a resting position in a bottom of the seating slots 65, with each bottom forming an obround end to ensure the jaws 60 are against one another.
Referring concurrently to
The device 10′ also differs from the device 10 in that the second link 50 of the device 10′ has a by-pass mechanism in additional straight slot portions 56′ in the guiding slots 54. According to one embodiment, the by-pass mechanisms comprise a blocking unit such as ramps 57′ positioned in the straight slot portions 56′. Other blocking units may be used for the by-pass mechanisms as alternatives to the ramps 57′, such as pivoting mechanisms or the like.
Initially, the follower pins 66 (
When the pedal 40 is released, the second link 50 moves downwardly with respect to the follower pins 66. The ends of the ramps 57′ will prevent the follower pins 66 from entering the straight slot portions 56′. Rather, the follower pins 66 reach the outward bend in the guiding slots 54, as shown by B in
Additionally, springs 90 may be used to bias the second link 50 to its downward position, in the normal closed state of the device 10′. The springs 90 may interconnect the second link 50 to the container 12, or may be positioned at any other suitable location in the device 10′ to bias the second link 50 downwardly.
Now that the components of the devices 10 and 10′ have been detailed, a sequence of operation of the devices 10 and 10′ is described.
Referring to
Referring to
Referring to
It is pointed out that the guiding slots 54 may be positioned in the second link 50 in such a way that the clamping motion of the jaws 60 occurs when the lid 31 is almost closed, or even closed. In another embodiment, the clamping motion of the jaws 60 occurs when the lid 31 is still at least partially open, such that the lid 31 stays open if a waste object is caught between the jaws 60, for instance because the bag is full.
When pressure is applied on the pedal 40, the opening sequence of the lid 31 is the reverse of the closing sequence, and therefore is illustrated by
It is pointed out that the opening sequence of the lid (
Domestic priority is claimed on U.S. Provisional Patent Applications No. 61/230,203, filed on Jul. 31, 2009, No. 61/239,867, filed on Sep. 4, 2009, and No. 61/311,490, filed on Mar. 8, 2010, the entireties of which are incorporated herein by reference.
Number | Date | Country | |
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61230203 | Jul 2009 | US | |
61239867 | Sep 2009 | US | |
61311490 | Mar 2010 | US |