Patent ID: 9113772
Filing Date: 2015-08-25
Classification: A47L

Abstract:
1. A hand operated sweeping mop applicator, comprising: a. a bottom plate having a given shape including at least a first lengthwise sidewall, a parallel oppositely disposed second lengthwise sidewall, a first transverse wall and an oppositely disposed second transverse wall, the bottom plate having a given thickness from a top surface of the bottom plate to a bottom surface of the bottom plate, the bottom plate including a first transverse opening adjacent to the first transverse wall and extending through the given thickness from the top surface of the bottom surface, a second transverse opening parallel to the first transverse opening, the second transverse opening adjacent to the second transverse wall and extending through the given thickness from the top surface to the bottom surface, a first center transverse opening extending from adjacent the first lengthwise sidewall to adjacent a center point of the bottom plate and extending through the given thickness from the top surface to the bottom surface, an aligned second center transverse opening extending from adjacent the second lengthwise sidewall to adjacent the center point of the bottom plate and extending through the given thickness from the top surface to the bottom surface, a center wall separating the first center transverse opening from the second center transverse opening and extending through the given thickness from the top surface to the bottom surface, a first offset opening extending from adjacent a first side of the first and second center transverse openings and from the top surface to partially into the given thickness, a first spring retaining member extends from an aligned location in the bottom plate from the bottom surface into the first offset opening and having a pair of openings separated by a center wall to retain an end of a first spring, a second offset opening extending from adjacent a second side of the first and second center transverse openings from the top surface and partially into the given thickness, a second spring retaining member extending from an aligned location in the bottom plate from the bottom surface into the second offset opening and having a pair of openings separated by a center wall to retain an end of a second spring, four spaced apart posts are positioned 90 degrees apart in a circular configuration with two spaced apart posts adjacent the first lengthwise sidewall respectively to the left of the first offset opening and to the right of the second offset opening, and two spaced apart posts are adjacent the second lengthwise sidewall and are respectively to the right of the second offset opening and to the left of the first offset opening, each post extending perpendicularly to the top surface for a given height respectively embedded into the bottom plate and extending through the bottom plate given thickness from the top surface to the bottom surface; b. a top plate approximately the same size as the bottom plate, the top plate having a first lengthwise sidewall, a parallel oppositely disposed second lengthwise sidewall, a first transverse wall and an oppositely disposed second transverse wall, the top plate having a given thickness from its top surface to its bottom surface, a first transverse affixation member adjacent the first transverse wall and extending for a distance perpendicular to the bottom surface and terminating in a bottom affixation surface which retains a first affixation member, a second transverse affixation member is adjacent to the second transverse wall and extending for a distance perpendicular to the bottom surface and terminating in a bottom affixation surface which retains a second affixation member, a first yoke retaining member positioned on the top surface to one side of the location where the first and second transverse affixation members are located on the bottom surface, the first yoke retaining member affixed to and extending perpendicular to the top surface and supporting an interior dowel which extends toward the center point of the top plate, a second yoke retaining member positioned on the top surface at an opposite side of the location where the first and second transverse affixation members are located on the bottom surface, the second yoke retaining member is affixed to and extending perpendicular to the top surface and supports an interior dowel member, the first and second yoke members are parallel and aligned with each other and are affixed to the top surface with the respective dowels aligned with each other, a first transverse affixation member extending from adjacent the first lengthwise sidewall to adjacent to a center point of the top plate and extending perpendicular to the bottom surface by a given distance and terminates in a bottom affixation surface which retains an affixation member, an aligned second transverse affixation member extending from adjacent the second lengthwise sidewall to adjacent to the center point of the top plate and extending perpendicular to the bottom surface by a given distance, and terminates in a bottom affixation surface which retains an affixation member which preferably is a hook member of a hook and loop fastener, the first and second transverse affixation members are spaced apart by a given distance, four openings are positioned 90 degrees apart in a circular configuration, two spaced apart openings are adjacent the first lengthwise sidewall and two spaced apart openings are adjacent the second lengthwise sidewall, the openings extend through the given thickness of the top plate and extending from the top surface to the bottom surface, respective spaced apart openings in the top plate match a shape of the posts in the bottom plate; c. a first retaining force spring is fastened at one end to the first spring retaining member of the bottom plate and affixed at its opposite end to the spring retaining member of the first yoke retaining member of the top plate, a second retaining force spring is fastened at one end to the second spring retaining member of the bottom plate and affixed at its opposite end to a spring retaining member of the second yoke retaining member, the four posts on the bottom plate are respectively aligned with the four openings of the top plate and when the top plate and bottom plate are pressed together by action of the first retaining force spring and second retaining force spring, a respective post extends through a respective opening, the first transverse affixation member with the first affixation member of the top plate are aligned with and extend through the first transverse opening in the bottom plate, the second transverse affixation member and second affixation member are aligned with and extend through the second transverse opening in the bottom plate, the first central transverse affixation member and first center affixation member of the top plate extend through the first center transverse opening in the bottom plate, the second central transverse affixation member and the second center affixation member of the top plate extend through the second center transverse opening in the bottom plate; d. a cleaning cloth is retained against the bottom surface of the bottom plate by the two first and two second affixation members and by the two central affixation members by respective fasteners, so that when the top plate and bottom plate are retained together by the retaining force springs, the cloth is retained, and when a pushing force overcomes the retaining force of the retaining force springs, the bottom plate is caused to move away from the top plate and thereby cause the cloth to be pushed away from the first and second affixation members and first and second central affixation members so that the cloth falls away from the bottom surface of the bottom plate so it can be discarded; e. a shotgun mechanism permits the top plate and the bottom plate to be retained together so that the cloth is retained against the bottom surface of the bottom plate, and a downward pushing force on the shotgun mechanism overcomes and forces a separation of the bottom plate from the top plate to cause the separation of each affixation member from the cloth; f. the shotgun mechanism is built into the mop handle, an upper portion of the shotgun mechanism includes an upper section which is elongated so that it can be grasped, a stopping ring which surrounds a lower portion of the upper section of the mop handle, the mop handle includes an elongated shaft having a given length extending from the stopping ring to its proximal end, the elongated shaft has a transverse opening extending through the elongated shaft at a location adjacent the proximal end of the elongated shaft, an elongated covering member surrounds a portion of the elongated shaft for a given length extending from the stopping ring to approximately a midi-length length of the elongated shaft, the covering member has a multiplicity of spaced apart exterior elongated ribs running the entire length of the covering member, a retention compression spring surrounds a portion of the remaining length of the elongated shaft from the lower proximal end of the covering member to above the transverse opening adjacent the proximal end of the elongated shaft so that the transverse opening remains exposed, the lower portion of the shotgun mechanism has a housing member having an upper section extending for a portion of the length of the covering member with a gap between an upper surface of the section and the stopping ring to exposing a portion of the multiplicity of ribs on the covering member, the section having a given length and having an interior surface having a multiplicity of spaced apart receiving shafts respectively aligned with to receive a respective one of the multiplicity of ribs from the covering member when the housing member is placed over and around the shaft and the covering member, the upper surface of upper section has a ring, in action, the outer housing through a pulling force from the retention compression spring moves along the gap until it is stopped by the stopping ring, the mating ribs with the shafts prevents rotation of the housing member, the housing member has a widened lower section with four feet with openings to respectively receive a post when the entire housing member is placed over the cylindrical metal shaft and the cylindrical covering member with the pulling force separating the four feet from the four posts, a yoke engaging assembly includes an upper collar having a transverse opening, the upper collar is inserted into an interior of the widened lower section and surrounds a lower section of the metal shaft so the transverse opening in the upper collar and the transverse opening in the metal shaft are aligned and retained in place by a clip having a partial exterior section and a shaft, the shaft is inserted through the aligned openings and the partial section surrounds an exterior of the elongated metal shaft, the yoke engaging assembly is thereby retained onto the elongated metal shaft so that the retention compression spring is compressed between the proximal end of the covering member and the upper rim of upper collar, the upper collar extends to a member which is rotatably connected to a section having an interior opening which is rotatably retained between and by dowel members of the yoke retaining members; and g. when the shotgun is activated, a downward pushing force on the shotgun housing overcomes the retaining force of the retention force spring and causes a respective foot from the shotgun housing to respectively retain a post and pushing down on the posts, causes a separation of the bottom plate from the top plate so that the engagement of the cloth affixation members is released and the cloth falls away, and when the downward force is released, the springs between the top plate and the bottom plate cause the two plates to be retained together when the housing member is pulled upwardly around a portion of the covering member and a portion of the elongated shaft until it reaches the stopping ring and the feet of the housing are removed from the posts thereby releasing the top plate so that force springs between the top plate and the bottom plate force the bottom plate to rest against the top cloth, and when the pushing force on the housing is released, the spring within the shotgun mechanism forces the housing back into place so that feet are respectively disengaged onto respective posts and the bottom plate is once again retained against the top plate to facilitate retention of another cloth, the upward pulling force on the housing from the retaining compression spring forces a return of the housing against the stopping ring having the effect of a shotgun.