Hand wash and dump sink assembly

Abstract

A wash sink and dump sink assembly comprising: A combination sink, comprising of a housing structure with two full length side walls, a full length back wall, a floor, a shorter front wall and four supporting legs; a drainage means situated at the floor of the housing structure; a faucet located at the head of the back wall of the housing structure; and a tray structure resting on pegs inserted into the side walls of the housing structure.

Claims

1. A wash sink and dump sink assembly comprising: a. a combination sink, comprising of a housing structure with two full length side walls, a full length back wall, a floor, a shorter front wall and four supporting legs; b. a drainage means situated at the floor of the housing structure; c. a faucet located at a head of the back wall of the housing structure; and d. a tray structure, dividing the combination sink into a top zone and a bottom zone, resting on removable pegs inserted into the side walls of the housing structure, the tray structure being removable, wherein the tray structure comprises of a back wall, two side walls, a downward inclining floor, the downward inclining floor extending away from the full length back wall and towards the shorter front wall, and a backward recessed portion located at a front extremity of the downward inclining floor, wherein the downward inclining floor allows used water to flow into the bottom zone of the combination sink, further wherein the backward recessed portion is configured to ensure that all of the used water from the top zone, in which the tray structure rests, flows into the bottom zone.

2. The wash and dump sink assembly of claim 1, wherein the side walls of the tray structure comprise slots on which the tray structure rests on the pegs.

3. The wash and dump sink assembly of claim 1, wherein the downward inclining floor of the tray structure is non-porous.

4. The wash and dump sink assembly of claim 1, wherein the downward inclining floor of the tray structure is configured to prevent accumulation of standing water.

5. The wash and dump sink assembly of claim 1, wherein the tray structure is dishwasher safe.

6. The wash and dump sink assembly of claim 1, wherein the tray structure is made of non-corrosive material.

7. The wash and dump sink assembly of claim 1, wherein the top zone is configured exclusively for hand washing.

8. The wash and dump sink assembly of claim 1, wherein the bottom zone is configured for dumping wet waste.

9. The wash and dump sink assembly of claim 1, wherein the tray structure is configured to prevent back splash between the top zone and the bottom zone.

10. The wash and dump sink assembly of claim 1, wherein an automatic sensor controls water flow from the faucet.

11. The wash and dump sink assembly of claim 1, further comprising a tray holder affixed to the shorter front wall.

12. The wash and dump sink assembly of claim 1 wherein water from the faucet is capable of being used to melt dumped ice in the bottom zone.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) Various exemplary embodiments of the methods of this invention will be described in detail with reference to the following figures, wherein:

(2) FIG. 1 is a front, perspective view of a preferred embodiment of a combination sink of this invention.

(3) FIG. 2 is front perspective view of the removable tray in one embodiment of the invention.

(4) FIG. 3 is a front perspective view of the combination sink without the removable tray.

(5) FIG. 4 is a side cross sectional view of the first embodiment of the combination sink taken along lines 4-4 of FIG. 1.

DETAILED DESCRIPTION

(6) Embodiments of the present invention are described more fully below with reference to the accompanying drawings, which form a part hereof, and which show exemplary embodiments for practicing the invention. However, embodiments may be implemented in many different forms and should not be construed as limited to the embodiments set forth herein; rather these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art. The following detailed description is, therefore, not to be taken in the limiting sense.

(7) Referring now to the embodiment illustrated in FIG. 1, the figure illustrates a combination sink, 100, comprising a main housing 105, further comprising a full height back wall, 110, two side walls, 115 and 120, that meet a shorter front wall, 125, and a solid floor 130 with a drain 135. A faucet 140 that supplies hot and cold water is mounted at the top of the back wall, 110. An automatic sensor, foot pedals, knee pedals, or conventional handles may control the water flow from the faucet (not shown).

(8) A preferred removable tray structure, 150, sits inside of the main housing 105. It rests on a plurality of pins, rails, ledges, rods (or any combination of these), 145, that are preferably affixed to the sidewalls 115, 120 of the main housing 100. The removable tray 150 comprises of a back wall, 155, two sidewalls, 165 and a solid floor, 170, with a downward incline (to be discussed further in the following figures). The removable tray, 150, divides the main structure into 2 distinct zones: a top zone, 175, exclusively for hand washing, which may also be referred to as the hand wash zone, and a bottom zone, 180, exclusively for dumping wet waste, which also may be referred to as the dump zone. The downward incline of the removable tray, 150, directs water used for hand washing to flow into the bottom zone, which also helps to melt ice that has accumulated in the bottom zone (along with other wet waste). The housing, 105, further rests on four supportive legs, 185. In another embodiment of the invention the combination sink, 100, may be mounted directly to a wall, versus being supported on four supportive legs, 185.

(9) The combination sink, creates a scenario where gray water is recycled to help melt potable ice discarded from finished beverage serving vessels. Every time a user washes their hands in the top zone, 175, (hand wash zone), gray water flows into the bottom zone, 180, (dump zone) to melt discarded ice. This drastically decreases the ice that accumulates in dump sinks, which also decreases the water used for melting it. Bartenders often leave hot water running in order to melt ice in dump sinks, which is wasteful and costly. This helps to save water by continuously using gray water to melt ice throughout a shift.

(10) The removable tray structure, 150, can be removed from the top zone, 175, and placed in an automatic glass washer or dishwasher to be washed and sanitized. The removable tray structure is also preferably made of non-corrosive material that can easily be placed in a dishwasher and not be damaged. The convenient design of such structure makes the likelihood of regularly washing of the sink more likely.

(11) The design of the combination sink also clearly suggests to users where to wash one's hands, and where to dump wet waste, making best practices automatic. The design, therefore, creates an overall improvement in sanitation for the foodservice industry at large. In addition, for user convenience, paper towel and soap dispensers (not displayed) may be connected to the top of the main housing, 105.

(12) Referring now to FIG. 2, a front perspective view of the removable tray structure, 250 is displayed. As stated earlier, the removable tray structure 250, has a back wall, 255, two side walls, 260 and 265, as well as a solid downward inclining floor, 270. In some embodiments (not shown) the forward tilt of the removable tray may also be adjustable. The downward incline may be adjustable for angles of inclination between 25-45 degrees.

(13) The side walls, 260 and 265 further comprise slots 290. These slots, 290, allow the removable tray, 250 to rest on top of pins/nails/rods on the top zone of the combination sink, allowing the removable tray, 250, to be resting snugly, so as to ensure such tray stays in place during the hand washing/rinsing process. Further, the removable tray, 250, has a downward inclining or downward inclining floor, 270, to ensure that all the water that is being utilized is emptying into the bottom zone of the combination sink. Further, the downward inclining floor, 270, has a backward recessed portion, 295, at the edge of the floor, to ensure all the water from the tray flows to the bottom zone below. Moreover, the downward inclining floor is also smooth and non-porous to ensure the maximum flow of water into the lower zone.

(14) Furthermore, the downward incline of the floor, 270, also prevents users from placing vessels on top of it to fill them with water, as users know intuitively that the downward pitch does not provide a level surface for facilitating this. As such, they are deterred from the unsanitary practice of placing vessels in sinks to fill them with water. The downward incline also suggests to users that they dump wet waste below it in the Dump Zone, or the bottom portion of the combination sink, 100, as dumping in the Hand Wash Zone would eventually cause the wet waste to fall into the Dump Zone naturally due to gravity. This design element directs the user to dump in the Dump Zone instead of the Hand Wash Zone—this sanitary practice becomes automatic through suggestive design. The downward incline also directs gray water produced from hand washing into the Dump Zone below to melt leftover ice from patrons' beverages, resulting in a more economical use of water.

(15) Furthermore, the removable tray, 250, is a dishwasher safe component of the invention and can be washed, rinsed, and sanitized in an automatic dish washing machine. This allows the tray, 250 to provide a sanitary surface over which users can wash their hands. The removable aspect makes the sanitary practice of washing and sanitizing the surfaces surrounding a hand washing area convenient, and therefore, more likely. This is in stark contrast to a typical hand wash sink, which may not be properly washed and sanitized for weeks—even months—due to inconvenience and laziness.

(16) The removable tray, 250 also physically divides the combination sink into two zones, the hand wash zone and the dump zone, thus acting as a physical barrier between the Hand Wash Zone and the Dump Zone. During hand washing, the removable tray, 250, prevents gray water from making direct contact with the wet waste below. This direct contact between the gray water and the wet waste risks the possibility of splash back that could contaminate the user's hands. The downward incline of the removable tray, 250, directs gray water away from the hands, and down into the Dump Zone. Conversely, when users dump wet waste into the Dump Zone, the Hand Wash Component acts as a physical barrier that prevents water from splashing upward and into the Hand Wash Zone. The Hand Wash Component effectively separates the act of hand washing and dumping by design.

(17) FIG. 3 is a front perspective view of the combination sink, 300, without the removable tray. The housing, 305 consisting of a full height back wall, 310, 2 side walls, 315 and 320, that meet a shorter front wall, 325, and a solid floor 330 with a drain 335. A faucet 340 that supplies hot and cold water is mounted near the top extremity of the back wall, 310. An automatic sensor, foot pedals, knee pedals, or conventional handles may control the water flow from the faucet. Furthermore, pegs, nails, or rods 345 upon which the removable tray can rest may either be bored into the side walls, 315, 320, or only borings may be present in the sidewalls, into which such pegs, nails or rods can be inserted into to allow the removable tray to rest upon. The housing, 305, further rests on four supportive legs, 385, which provide it with stability. In further embodiments of the invention the removable tray may be adjustable with regards to its angle of inclination. This may be possible by having various holes or slots in the side walls 315 and 320, into which the pegs, nails or rods 345, can be inserted into.

(18) As indicated above, the removable tray divides the combination sink into two zones, and without such a tray structure, water from the faucet, 340, simply drops on the floor, 330 and goes down the drain, 335. Furthermore, there would be nothing to distinguish between the wash and dump zones, and this may create sanitary issues. Since most health codes require the placement of at least one hand wash sink and one dump sink in every bar, not having the removable tray would defeat this purpose.

(19) Furthermore, this embodiment of the invention allows the main housing, 305, to comprise of a tray holder, or clip 398, attached to the front wall, 325. Such a tray holder, 398, allows a server or bartender to place a standard tray in the clip or holder, allowing them to dump the contents, of used beverage vessels, into the dump zone, with 2 hands.

(20) FIG. 4 is a cross-sectional view of one embodiment of the invention along lines 4-4 of FIG. 1, depicting the downward incline of the removable tray as well as the flow of water. The main housing, 405, of the combination sink, 400, comprises of the side wall, 415, into which pegs, nails, or rods 445 can be bored into. These pegs, nails or rods 445 allow the removable tray, 450 to rest on top of them for a snug, tight and stable fit. The removable tray, 450 divides the combination sink into two zones, a top hand washing zone, 475 and a bottom dump zone, 480. Water from the faucet 440, flows down the downward incline of the removable tray, 450, and into the dump zone 480. From there-on any dirty water flows down the drain, 435 and out. The legs, 485, provide the combination-sink with additional support and stability.

(21) The gray water from the hand washing process further helps melt potable ice discarded from finished beverage serving vessels. Every time a user washes their hands in the top zone, 475, the dirty water water flows into the bottom zone, 480, to melt discarded ice. This drastically decreases the ice that accumulates in dump sinks, which also decreases the water used for melting it. This helps to save water by continuously using gray water to melt ice throughout a shift.

(22) It will be understood from a reading of the detailed description of the preferred embodiments, the objects of the invention and the appended claims that further modifications of the present invention may be made consistent with the scope of the subject matter as taught by the present invention which is to be broadly construed in view of the claims appended hereto. Further while particular details of construction of various components of the apparatus are disclosed herein, various alternative arrangements may be employed. Other modifications and changes in construction of the various components of this invention may also be modified within the spirit and scope of the invention as recited in the appended claims.