| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 101 | Hosing pad | EP86306138.8 | 1986-08-08 | EP0218330A1 | 1987-04-15 | Williams, Davina Mary; Williams, John Richard |
There is disclosed a hosing pad (1), preferably for the treatment of swellings on an animal's leg. The hosing pad (1) comprises a hollow member (6) adapted to be secured to a region of the body to be treated, the hosing pad (1) including an inlet (5) for attachment to a water supply and a plurality of outlets (7) from which water is discharged from the hollow member (6) onto the region to be treated. The hosing pad (1) may further include a layer of an absorbent material (8) as an intermediate layer between the hollow member (6) and the region to be treated. |
||||||
| 102 | Method of a cattle foot-bath system | US13136475 | 2011-08-01 | US09010277B2 | 2015-04-21 | John W. Eakin |
| A method for a cattle foot-bath system, specifically adapted to mix and charge foot-bath troughs with repeatably precise quantities of chemical treatments. The system administers a concentrated medicinal agent, such as a bactericide, a fungicide, or a viruscide, for the treatment of cattle feet, and includes a day-tank feed valve, which may be a three-way or interlocked valve, for controlling an infeed flow of the concentrated medicinal agent fed into a day tank, which may be mounted to a portable tote-tank containing the concentrated medicinal agent. A day-tank drain valve controls an outlet flow of the concentrated medicinal agent drained from the day-tank, and the day-tank holds a set quantity of the concentrated medicinal agent. A footbath then receives a quantity of dilution water and the set quantity of the concentrated medicinal agent from the day-tank. | ||||||
| 103 | TEAT APPLICATION DEVICE | US13498047 | 2010-09-28 | US20120174873A1 | 2012-07-12 | Richard James Hiley |
| The present invention relates to an application device for treating the teats of milk producing animals with a liquid. The device comprises a dip cup with a fluid supply conduit having an outlet through which liquid is conveyed, wherein the cross-sectional sectional area of the outlet is larger than the cross-sectional area of fluid supply conduit. In a further embodiment, a baffle is provided to deflect the treatment liquid is a desired direction around the inside of the cup. In a still further embodiment the invention a fluid supply conduit is defined at least in part by the external wall of the dip cup. | ||||||
| 104 | Using Aqueous Oxygenation to Improve Animal Health & Wellness | US13407604 | 2012-02-28 | US20120156309A1 | 2012-06-21 | C. Edward Eckert |
| Dispersing gas in a liquid provides a mixture of saturated, supersaturated or hypersaturated solution to provide a suspension of bubbles containing gas therein into which animal tissue is immersed for health or wellness treatment. A two-phase mixture is provided with dissolved gas as a suspension of microbubbles. Methods for making, maintaining, and using the two-phase mixture are provided. Gas molecules may be introduced into a liquid at high velocity under elevated pressure to form a supersaturated solution that retains the gas, preferably oxygen, in solution when exposed to ambient conditions. | ||||||
| 105 | METHOD OF A CATTLE FOOT-BATH SYSTEM | US13136475 | 2011-08-01 | US20110290196A1 | 2011-12-01 | John W. Eakin |
| A method for a cattle foot-bath system, specifically adapted to mix and charge foot-bath troughs with repeatably precise quantities of chemical treatments. The system administers a concentrated medicinal agent, such as a bactericide, a fungicide, or a viruscide, for the treatment of cattle feet, and includes a day-tank feed valve, which may be a three-way or interlocked valve, for controlling an infeed flow of the concentrated medicinal agent fed into a day tank, which may be mounted to a portable tote-tank containing the concentrated medicinal agent. A day-tank drain valve controls an outlet flow of the concentrated medicinal agent drained from the day-tank, and the day-tank holds a set quantity of the concentrated medicinal agent. A footbath then receives a quantity of dilution water and the set quantity of the concentrated medicinal agent from the day-tank. | ||||||
| 106 | MOBILE HORSE EXERCISE AND HYDROTHERAPY SYSTEM | US12696278 | 2010-01-29 | US20110185979A1 | 2011-08-04 | Mark A. Dunagan |
| An apparatus in the form of a mobile system for delivery and administration of exercise, conditioning, and hydrotherapeutic massage of horses, including thoroughbred race horses, comprising a tank containing a pool of water, a self-contained, mobile structure for holding the pool of water, a self-contained, mobile reservoir or reserve tank for quickly filling the tank containing the pool of water, a system for transfer of water from the reserve tank into the tank containing a pool of water and vice versa, a plurality of current inducing jets, a plurality of water massage jets, a lift device for raising or lowering the horse into the pool, an outlet for rapidly discharging the contents of the filled tank containing the pool of water and pumps of a sufficient power to induce a current within the tank. | ||||||
| 107 | Cattle foot-bath system | US12313601 | 2008-11-21 | US07987820B2 | 2011-08-02 | John W. Eakin |
| A cattle foot-bath system, specifically adapted to mix and charge foot-bath troughs with repeatably precise quantities of chemical treatments. The system administers a concentrated medicinal agent, such as a bactericide, a fungicide, or a viruscide, for the treatment of cattle feet, and includes a day-tank feed valve, which may be a three-way or interlocked valve, for controlling an infeed flow of the concentrated medicinal agent fed into a day tank, which may be mounted to a portable tote-tank containing the concentrated medicinal agent. A day-tank drain valve controls an outlet flow of the concentrated medicinal agent drained from the day-tank, and the day-tank holds a set quantity of the concentrated medicinal agent. A footbath then receives a quantity of dilution water and the set quantity of the concentrated medicinal agent from the day-tank. | ||||||
| 108 | Livestock footbath system | US11528290 | 2006-09-27 | US07798104B2 | 2010-09-21 | Parimal G. Rajkondawar; William S. Nelson; Alexander P. Kobryn; Shawn R. Eckhardt |
| A footbath system for livestock includes a water and/or chemical containment tank, a footbath pan with a drainage exit door, non-turbulent flow, and a multiple branch system. | ||||||
| 109 | Hoof bath system | US12658758 | 2010-02-12 | US20100218731A1 | 2010-09-02 | Kevin L. Torgerson; Robert L. Buck; Nathan Hedlund; Sue Mendell; Randal D. Stevenson; Charles D. Gradle; Alejandro O. Dee; Jeffrey S. Hanson; Glenn Gingrich |
| The present invention is directed to methods for applying bovine foot and hoof treatment compositions having two or more specific and complimentary antimicrobial components in a hoof bath just prior to use to work more effectively. These antimicrobial components may include antimicrobial inorganic salts of certain heavy metals, cationic agents, peroxides, aldehydes, fatty acids, iodines or other suitable compounds effective in the killing of microorganisms. | ||||||
| 110 | APPARATUS AND METHOD FOR TREATING NON-HUMAN MAMMALS | US12440768 | 2007-09-10 | US20090314217A1 | 2009-12-24 | Gary Oscar Hurwitz; André Hugo Smith; Louwrens Jakobus Briel; Rensia De Wet |
| Apparatus for treating non-human quadruped mammals includes an enclosure having an interior within which the body of a mammal can be located. The enclosure has an opening through which the head of the mammal can pass so that the mammal's head can be located outside the enclosure when the mammal's body is inside the enclosure. The enclosure is sized to allow the mammal to stand normally on its four legs inside the enclosure during treatment, or to lie down inside the enclosure during treatment. The apparatus further includes a steam generator and an ozone generator or supply arranged to feed steam and ozone into the enclosure. | ||||||
| 111 | Hoof Bath System | US12086507 | 2006-12-14 | US20090283053A1 | 2009-11-19 | Kevin L. Torgerson; Robert L. Buck; Nathan Hedlund; Sue Mendell; Randal D. Stevenson; Charles D. Gradle; Alejandro O. Dee; Jeffrey S. Hanson; Glenn Gingrich |
| The present invention is directed to methods for applying bovine foot and hoof treatment compositions having two or more specific and complimentary antimicrobial components in a hoof bath just prior to use to work more effectively. These antimicrobial components may include antimicrobial inorganic salts of certain heavy metals, cationic agents, peroxides, aldehydes, fatty acids, iodines or other suitable compounds effective in the killing of microorganisms. The invention also relates to a foot bath system for delivery, retention, and drainage of foot bath chemicals and waste material. | ||||||
| 112 | Animal self-carried hydrating system | US11066682 | 2005-02-25 | US07497186B2 | 2009-03-03 | Patricia Dorton; Charlene Stuart |
| An animal self-carried hydrating system comprises an animal harness, a fluid container for holding the fluid, and a fluid dispensing mechanism. The animal harness is securable on the animal by a fastening system. The animal harness has a fluid pocket for holding the fluid container. The fluid dispensing mechanism is attached to the fluid container, in fluid communication with the fluid in the fluid container. The fluid dispensing mechanism is such that it can dispense fluid from the fluid container to the animal while the fluid container is in the fluid pocket. | ||||||
| 113 | Applicator And Plant For Treating The Teats Of Milking Animals | US11575739 | 2005-09-21 | US20080011241A1 | 2008-01-17 | Felice Farina; Francesco Gennari |
| The invention relates to an applicator (1) for treating the teats of milking animals, comprising a handgrip body (2), a cup (3) and connecting means (5) for the connection to a line supplying a pressurized gas, further comprising connecting means (6) for the connection to a line providing a liquid detergent and/or a disinfectant product, and delivery means (7, 8, 9, 10) adapted to fill said cup (3) with a foam produced by mixing said product with said gas. A plant for the use of a plurality of such applicators (1) is also discloses, featuring a product line (30) and a compressed air line (31) fitted with joints (34) for the connecting means (5, 6) of the applicators (1). | ||||||
| 114 | Hoof bath system | US11300616 | 2005-12-14 | US20070074672A1 | 2007-04-05 | Kevin Torgerson; Robert Buck; Nathan Hedlund; Sue Mendell; Randal Stevenson; Charles Gradle; Alejandro Dee; Jeffrey Hanson; Glenn Gingrich |
| The present invention is directed to methods for applying bovine foot and hoof treatment compositions having two or more specific and complimentary antimicrobial components in a hoof bath just prior to use to work more effectively. These antimicrobial components may include antimicrobial inorganic salts of certain heavy metals, cationic agents, peroxides, aldehydes, fatty acids, iodines or other suitable compounds effective in the killing of microorganisms. | ||||||
| 115 | Pour-on application method and devices | US10398111 | 2001-10-30 | US07140325B2 | 2006-11-28 | Lionel Barry Lowe; James Terenc Rothwell; Kristina Clare Hacket |
| The present invention relates to a device for applying a liquid pesticidal formulation to an external surface of a domestic animal, the device comprising an inlet and a plurality of spaced apart outlets, wherein the device is adapted such that when the middle of the device is positioned substantially above the spine of the animal, at least one outlet is positioned substantially above each flank of the animal. The invention also relates to a method for the treatment or prophylaxis of parasitic infestations, including ectoparasitic and/or endoparasitic infestations, of domestic animals comprising topically administering to said animal a pour-on pesticidal formulation to a region of the external surface of an animal extending from one flank to the opposing flank. | ||||||
| 116 | Method and device at a dairy farm | US10518899 | 2003-07-04 | US20050223998A1 | 2005-10-13 | Epke Bosma; Nils Holmertz; Lars Wase; Lars Gullander |
| The present invention refers to a method of disinfecting or sterilizing at least a portion of any of a resting, a milking, or a feeding station (3, 24, 26) provided with an animal identification device (18) and located in an area (1), in which milking animals are allowed to move. Each of the animals visiting the resting, the milking, or the feeding station is identified and is admitted to enter the station depending on the identification. The inventive method comprises the steps of retrieving information regarding the health of each of the animals entering the station; and automatically disinfecting or sterilizing the portion of the station only if the information retrieved reveals that an animal entering the station has an infection that is capable of being transmitted to other animals. The disinfection or the sterilization is performed after that said infectious milking animal has left the station. | ||||||
| 117 | Animal self-carried hydrating system | US11066682 | 2005-02-25 | US20050217609A1 | 2005-10-06 | Patricia Dorton; Charlene Stuart |
| An animal self-carried hydrating system comprises an animal harness, a fluid container for holding the fluid, and a fluid dispensing mechanism. The animal harness is securable on the animal by a fastening system. The animal harness has a fluid pocket for holding the fluid container. The fluid dispensing mechanism is attached to the fluid container, in fluid communication with the fluid in the fluid container. The fluid dispensing mechanism is such that it can dispense fluid from the fluid container to the animal while the fluid container is in the fluid pocket. | ||||||
| 118 | Vehicle for transporting an equine hydrotherapy spa | US10902020 | 2004-07-30 | US20050034680A1 | 2005-02-17 | Jonathan Tunnell |
| A wheeled vehicle comprising a load carrying platform mounted above the wheels, a bath, bath moving means, and at least one fluid tank, in which at least a portion of the fluid tank is disposed below the load carrying platform, in which the bath moving means are adapted to move the bath between a first position on the load carrying platform, and a second position on the ground adjacent the vehicle, and in which fluid contained in the fluid tank can be placed in the bath when the bath is in the second position. | ||||||
| 119 | Animal Hydrotherapy pool | US10242387 | 2002-09-11 | US20030051677A1 | 2003-03-20 | Bradley Russell Smith; Catherine Elizabeth Smith |
| An animal hydrotherapy pool is described comprising a container for water having nozzle means in a wall of the container directing in use one or more jets of water into the water in the container. An extension to a wall of the container forms a housing in which is located pump means adapted to re-circulate water to and from the container via the nozzle means. Pump control means is also located in the housing thereby to be accessible in use to a person controlling an animal using the pool. A second pump draws water from near the surface of the water in the pool through a skimmer, and returns the water to the pool via a water treatment path. The latter comprises a heater, a sand filter, and an ozonator, and as described, all the water treatment devices are incorporated in the housing extension. In a preferred arrangement the return path from the second pump is divided into two parallel paths, both returning water to the pool, the ozonator is located in one of the two paths, which returns only a small fraction of the total volume of water which is returned to the pool by the second pump, and water not diverted through the path containing the ozonator is returned to the pool via the sand filter and heater. The flow rate through the ozonator path is adjustable, typically in the range 10-30% of the water drawn from the pool by the second pump, and for this purpose the path containing the ozonator includes an adjustable flow restrictor. The volume water flow through the nozzles is adjustable and a control panel is provided with controls enabling regulation of the water flow to the nozzles, control of the heater, and control of the percentage of water returned to the pool via the ozonator. The control panel also includes a control by which the second pump can be operated to backwash empty the pool. | ||||||
| 120 | Cage for automatically cleaning birds | US401936 | 1995-03-09 | US5553568A | 1996-09-10 | Bruno Verschuere; Jean-Pierre Jacques |
| A method and device for cleaning a bird whose plumage has been soiled by pollution are provided, in which the bird is placed in a cage and the bird, with the exception of its head, is subjected to the action of jets of cleaning and rinsing liquid issuing from a plurality of nozzles rotating inside a tank in which said cage is placed. | ||||||
QQ群二维码
意见反馈
意见反馈