An adaptable walk behind spreader for dispersing particulate material in different spread patterns. The walk behind spreader includes a spread control assembly configured to control flow of particulate material through first, second and third exit openings and onto a dispersing mechanism. The spread control assembly includes a first spread control member and a second spread control member. Movement of the first and second spread control members selectively inhibits the flow of particulate material through at least a portion of the exit openings, thereby altering the spread pattern of the particulate material dispersed from the spreader.
A broadcast spreader and methods of using the same. One method includes dispersing particulate material using a broadcast spreader having a hopper and an impeller by placing the spreader in a first configuration where a first set of through openings proximate a bottom portion of the hopper permit the particulate material to pass therethrough and fall onto the impeller to thereby be distributed in a first spread pattern, and shifting the spreader into a second configuration where a second set of through openings proximate the bottom portion of the hopper permit the particulate material to pass therethrough and fall onto the impeller to thereby be distributed in a second spread pattern. The first set of through openings includes a different number of through openings than the second set of through openings, and the first spread pattern is different than the second spread pattern.
A broadcast spreader broadly comprising a frame, a hopper, an impeller, a set of wheels, and an electric hub motor. The hopper is supported by the frame and configured to hold a particulate material. The impeller is rotatably connected below the hopper and is configured to receive the particulate material from the hopper and spread the particulate material over a surface. The wheels are rotatably connected to the frame for traversing the surface. The electric hub motor is at least partially positioned in one of the wheels and configured to drivably engage the one of the wheels to propel the hopper along the surface.
A01C 17/00 - Fertiliseurs ou semoirs à roues centrifugeuses
B60L 50/60 - Propulsion électrique par source d'énergie intérieure au véhicule utilisant de la puissance de propulsion fournie par des batteries ou des piles à combustible utilisant de l'énergie fournie par des batteries
B60L 15/20 - Procédés, circuits ou dispositifs pour commander la propulsion des véhicules à traction électrique, p.ex. commande de la vitesse des moteurs de traction en vue de réaliser des performances désirées; Adaptation sur les véhicules à traction électrique de l'installation de commande à distance à partir d'un endroit fixe, de différents endroits du véhicule ou de différents véhicules d'un même train pour la commande du véhicule ou de son moteur en vue de réaliser des performances désirées, p.ex. vitesse, couple, variation programmée de la vitesse
A broadcast spreader and methods of using the same. One method includes dispersing particulate material using a broadcast spreader having a hopper and an impeller by placing the spreader in a first configuration where a first set of through openings proximate a bottom portion of the hopper permit the particulate material to pass therethrough and fall onto the impeller to thereby be distributed in a first spread pattern, and shifting the spreader into a second configuration where a second set of through openings proximate the bottom portion of the hopper permit the particulate material to pass therethrough and fall onto the impeller to thereby be distributed in a second spread pattern. The first set of through openings includes a different number of through openings than the second set of through openings, and the first spread pattern is different than the second spread pattern.
Handheld spreaders and methods of operating the same. The spreader can include a cup to hold particulate material and having an open upper end, a scoop assembly provided proximate the open upper end of the cup and including a scoop for directing particulate material being dispersed from the cup, and a sifter assembly removably coupled to the scoop assembly for metering an amount of the particulate material being dispersed from the cup. When the sifter assembly is removed from the scoop assembly, the scoop remains attached to the cup to direct particulate material being provided into the cup via the open upper end. The method can include opening the cup by removing the sifter assembly from the scoop assembly, placing particulate material into an open interior of the cup, closing the cup by replacing the sifter assembly, and dispersing the particulate material through the sifter assembly.
E01H 10/00 - Amélioration de l'adhérence des surfaces de circulation verglacées ou glissantes, p.ex. en utilisant le sablage ou des produits provoquant le dégel
Systems and methods for managing spreading of particulate material over a surface by a spreader. One step of the method includes receiving a selection of a type of the spreader. An additional step includes receiving a selection of a type of the particulate material to be spread by the spreader. An additional step includes obtaining data indicative of a travel speed of the spreader, with the data being received from a sensor associated with the spreader. An additional step includes determining an operational attribute of the spreader. The determination is based on (i) the type of the spreader, (ii) the type of the particulate material, and (ii) the travel speed of the spreader. A further step includes presenting the operational attribute.
B05B 12/00 - Aménagements de commande de la distribution; Aménagements de réglage de l’aire de pulvérisation
A01C 17/00 - Fertiliseurs ou semoirs à roues centrifugeuses
E01H 10/00 - Amélioration de l'adhérence des surfaces de circulation verglacées ou glissantes, p.ex. en utilisant le sablage ou des produits provoquant le dégel
B05B 3/10 - Appareillages de pulvérisation ou d'arrosage avec des éléments de sortie mobiles ou des éléments déflecteurs mobiles avec des éléments rotatifs avec évacuation sur la presque totalité de la périphérie de l'élément rotatif
10.
DUAL-IMPELLER SPREADER WITH DUAL SHUT-OFF CONTROLS
A dual-impeller spreader capable of independently a flowrate of particulate material about two halves of the spreader's coverage area. The spreader includes a frame, a hopper, and wheels rotatably connected to the frame via an axle. A first impeller is fixed to a first impeller shaft rotatably coupled to the axle via a first gear train, and a second impeller is fixed to a second impeller shaft rotatably coupled to the axle via a second gear train. A first shut-off control selectively opens and closes a first set of hopper exit openings located above the first impeller, while a second shut-off control selectively opens and closes a second set of hopper exit openings located above the second impeller. The first shut-off control and the second shut-off control selectively open and close the respective openings independent of each other.
A01C 15/16 - Distributeurs d'engrais à système d'évacuation par expulsion de l'engrais, p.ex. par rouleaux
A01C 3/06 - Distributeurs d'engrais de ferme, p.ex. épandeurs de fumier
A01C 17/00 - Fertiliseurs ou semoirs à roues centrifugeuses
B05C 19/04 - Appareillages spécialement adaptés pour appliquer des matériaux en particules à des surfaces le matériau en particules étant projeté, versé ou répandu sur la surface de l'ouvrage
B65G 31/00 - Dispositifs mécaniques de projection d'objets ou matériaux solides
E01C 19/20 - Appareils pour répartir, p.ex. pour épandre, des matériaux granulaires ou pulvérulents, p.ex. du sable, du gravier, du sel, des liants secs
11.
Dual-impeller spreader with dual shut-off controls
A dual-impeller spreader capable of independently a flowrate of particulate material about two halves of the spreader's coverage area. The spreader includes a frame, a hopper, and wheels rotatably connected to the frame via an axle. A first impeller is fixed to a first impeller shaft rotatably coupled to the axle via a first gear train, and a second impeller is fixed to a second impeller shaft rotatably coupled to the axle via a second gear train. A first shut-off control selectively opens and closes a first set of hopper exit openings located above the first impeller, while a second shut-off control selectively opens and closes a second set of hopper exit openings located above the second impeller. The first shut-off control and the second shut-off control selectively open and close the respective openings independent of each other.
E01H 10/00 - Amélioration de l'adhérence des surfaces de circulation verglacées ou glissantes, p.ex. en utilisant le sablage ou des produits provoquant le dégel
B05B 3/10 - Appareillages de pulvérisation ou d'arrosage avec des éléments de sortie mobiles ou des éléments déflecteurs mobiles avec des éléments rotatifs avec évacuation sur la presque totalité de la périphérie de l'élément rotatif
B05B 12/00 - Aménagements de commande de la distribution; Aménagements de réglage de l’aire de pulvérisation
Mechanical spreaders for seed and dry lawn chemicals; Power-operated sprayers for insecticides Snow shovels; Hand operated spreaders for seed and dry lawn chemicals
A spread control assembly is provided that includes a spread control mechanism and a shut-off adjustment plate attached to a particulate dispersing apparatus. The shut-off adjustment plate includes multiple exit openings that facilitate the dispersing of particulate material. The spread control mechanism pivotally attaches to the shut-off adjustment plate and includes multiple paddles configured to cover at least one of the exit openings in the shut-off adjustment plate when the spread control mechanism is in an activated position.
A spread control assembly is provided that includes a spread control mechanism and a shut-off adjustment plate attached to a particulate dispersing apparatus. The shut-off adjustment plate includes multiple exit openings that facilitate the dispersing of particulate material. The spread control mechanism pivotally attaches to the shut-off adjustment plate and includes multiple paddles configured to cover at least one of the exit openings in the shut-off adjustment plate when the spread control mechanism is in an activated position.
B05B 15/00 - APPAREILLAGES DE PULVÉRISATION; APPAREILLAGES D'ATOMISATION; AJUTAGES OU BUSES - Parties constitutives des installations ou des appareillages de pulvérisation non prévus ailleurs; Accessoires
A spread control assembly is provided that includes a spread control mechanism and a shut-off adjustment plate attached to a particulate dispersing apparatus. The shut-off adjustment plate includes multiple exit openings that facilitate the dispersing of particulate material. The spread control mechanism pivotally attaches to the shut-off adjustment plate and includes multiple paddles configured to cover at least one of the exit openings in the shut-off adjustment plate when the spread control mechanism is in an activated position.
A system for dispersing different sized particulate material is provided that includes a hopper configured to contain particulate material and multiple interchangeable inserts that are removably attached to an inside of the hopper. Each of the multiple of interchangeable inserts have a distinct hole pattern to facilitate the flow of different sized particulate material from inside the hopper. A dispersing mechanism is provided that disperses the particulate material flowing through the distinct the hole patterns.
A motion-powered liquid sprayer that can increase the number of rotations of the pump relative to each rotation of the wheel or axle is provided. The sprayer can include a gearing assembly that employs gears to increase the number of pump revolutions as a function of the wheel or axle rotation. The sprayer can also include a gear pump that employs an over-capacity or enhanced gullet together with blow-by spacing to control consistent liquid flow relative to variable motional velocities. Further, the sprayer can include a vertically adjustable nozzle as well as a free reverse rotation wheel hub.
B05B 9/06 - Appareillages de pulvérisation pour débiter des liquides ou d'autres matériaux fluides, n'impliquant pas de mélange avec des gaz ou des vapeurs caractérisés par les moyens d'alimentation en liquide ou en autre matériau fluide comportant une pompe le débit étant fonction du mouvement d'un véhicule, p.ex. avec une pompe entraînée par une roue d'un véhicule
