The present disclosure relates generally to supplying water to poultry or like animals, and more particularly to an intermittent and automatic provision of fresh water to poultry.
Poultry drinking troughs are well known. Such devices may include a trough which is automatically supplied with water as the water level in the trough drops below a predetermined level. The problem with such automated devices is that they are overly complicated with several moving parts and the valve mechanisms are prone to sticking which can cause water to either cease flowing into the trough or overflow the trough. Either case is undesirable. Therefore, it would be advantageous to provide an intermittent and automatic drinker that is easy to assemble and reliable.
An animal drinker includes a base tray that is defined by an exterior drinking trough connected to an interior fluid reservoir by a passageway. The trough and the interior fluid reservoir are maintained at a consistent fluid level. An upper reservoir stores fluid above the interior reservoir and is in fluid communication therewith by an outlet positioned at the bottom. A buoyant float pan is positioned in the interior fluid reservoir of the base tray. A float stop is positioned between the float pan and the outlet of the upper reservoir to stop the flow of fluid from the upper reservoir to the interior fluid reservoir at a predetermined level.
The present disclosure is an animal drinker 100 as shown in
Referring to
Upper reservoir 106 is covered by a lid 113 and is moveable by a handle 114. Upper reservoir 106 has a sufficient volume to hold enough fluid to fill base tray 112 and, as a result, allow float pan 102 and float stop 104 to rise. In one embodiment, upper reservoir 106 defines the shape of a bucket or a container; however, it should be noted that upper reservoir 106 may define any other shape.
Upper reservoir 106 is removable from base tray 112. In a preferred embodiment, upper reservoir 106 is threadably attached to base tray 112 by a screw 118, a washer 120, and a nut 122. It should be noted that alternative methods known in the art for attaching upper reservoir 106 to base tray 112 are also suitable. For example, upper reservoir 106 may be fixedly attached to base tray 112 without the use of threads.
The bottom end of upper reservoir 106 is partially closed off, and has a connecting passageway or outlet 116 for fluid to exit upper reservoir 106 into base tray 112. In a preferred embodiment, there is one outlet 116, but alternative embodiments may contain two or more outlets 116. It should be noted that the size of outlet 116 may be adjusted according to the viscosity of the fluid and the desired flow rate of the fluid from upper reservoir 106 to base tray 112. The outlet 116 can be plugged with a plug 115 at the point of sale, which can be disposed after use. The bottom portion of outlet 116 is defined by a chamber 117 sized to receive float stop 104. This interaction will be more thoroughly discussed below.
Outlet assembly 140 can extend through the bottom of upper reservoir 106 with a threaded portion to receive a retaining ring 150. This allows access to cavity 146 so that float stop 103 can be inserted with sealing end 132 of float stop 104 inserted upright into cavity 146. Cavity 146 of outlet assembly 140 has a diameter slightly larger than a diameter of sealing end 132 of float stop 104, such that sealing end 132 of float stop 104 fits loosely within cavity 146 of outlet assembly 140 so that fluid can flow around sealing end 132 of float stop 104 into lower reservoir 108.
Retaining ring 150 can comprise a through hole 152 for extending member 130 of float stop 104 to at least partially extend out. This allows the buoyant float pan 102 to push float stop 104 upward as a fluid level in lower reservoir 108 of the base tray 112 rises. Since extending member 130 partially extends out of through hole 152 in retaining ring 150, float stop 104 is maintained in a generally upright position within cavity 146 of outlet assembly 140.
Float stop 104 can be made from any type of material provided it keeps float stop buoyant, such materials, include plastic, cork, and wood. Float stop 104 can be separate from float pan 102, or integrally combined with float pan 102.
Referring to
When outlet 144 of outlet assembly 140 is completely blocked by float stop 104, the fluid is prevented from moving from upper reservoir 106 through outlet 144 and around and out float stop 104. As a result, leakage or overflow of the fluid is prevented. In addition, the fluid inside upper reservoir 106 is preserved inside and used when necessary to fill trough 110 of base tray 112.
Referring to
To those skilled in the art to which this disclosure relates, many changes in construction and widely differing embodiments and applications will suggest themselves without departing from the spirit and scope of the disclosure. The disclosures and the descriptions herein are purely illustrative and are not intended to be in any sense limiting. Various aspects of the different embodiments can be combined in different combinations to create new embodiments within the scope of the invention.
Number | Name | Date | Kind |
---|---|---|---|
1692131 | Martin | Nov 1928 | A |
2844147 | Beachman | Jul 1958 | A |
3324834 | McKinstry | Jun 1967 | A |
3450103 | Davis | Jun 1969 | A |
3495617 | Lothar | Feb 1970 | A |
3667493 | Lindstrom | Jun 1972 | A |
4180015 | Dawson, Jr. | Dec 1979 | A |
4196699 | Leeming | Apr 1980 | A |
4659463 | Chandler | Apr 1987 | A |
7946249 | Colvin | May 2011 | B2 |
8826859 | Slinkard | Sep 2014 | B1 |
20060027179 | Welbourne | Feb 2006 | A1 |
20100162961 | Hove et al. | Jul 2010 | A1 |
20100224132 | Gauker et al. | Sep 2010 | A1 |
Number | Date | Country | |
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20200045940 A1 | Feb 2020 | US |