A tamp having replaceable tamp plates which, when operatively coupled to a tamp handle, can rotate relative to the tamp handle, or a longitudinal axis of the tamp handle, when in use to better allow a tamp plate surface to conform to the material being tamped, while allowing the handle to be more ea
A tamp having replaceable tamp plates which, when operatively coupled to a tamp handle, can rotate relative to the tamp handle, or a longitudinal axis of the tamp handle, when in use to better allow a tamp plate surface to conform to the material being tamped, while allowing the handle to be more easily maintained in an orientation desired by the user and while reducing or absorbing shock. The tamp may also include “dead blow” material such as steel shot or the like to improve the inertia, efficiency and impact of the tamp as it is being utilized, while reducing recoil effects.
대표청구항▼
1. A tamper tool assembly comprising: a tamp head having a first surface and a second surface, and a receiver coupled to the first surface; andan elongated tamp handle provided in a cavity defined by the receiver and coupled to the receiver with a connection member provided through at least one rece
1. A tamper tool assembly comprising: a tamp head having a first surface and a second surface, and a receiver coupled to the first surface; andan elongated tamp handle provided in a cavity defined by the receiver and coupled to the receiver with a connection member provided through at least one receiver aperture defined in the receiver and at least one handle aperture defined in tamp handle;whereby the handle apertures and/or the receiver apertures are sized and/or shaped to maintain a sloppy fit with the connection member, the sloppy fit helping allow movement, rotation or articulation of the tamp head relative to the tamp handle in any direction. 2. The tamper tool assembly of claim 1, whereby the tamp handle defines a tamp handle cavity therein and flowable material is retained in the tamp handle cavity. 3. The tamper tool assembly of claim 2, whereby the flowable material is metal shot. 4. The tamper tool assembly of claim 1, whereby the tamp head is configured to move, rotate or articulate up to ten degrees relative to the tamp handle in response to impact of the tamp head with material being tamped. 5. The tamper tool assembly of claim 1, whereby the tamp handle is provided in the receiver cavity in a spaced relation to one or more cavity walls helping define the cavity, and attached to the receiver; whereby a dampening transition member is provided between the one or more cavity walls and the tamp handle; and whereby the spaced relation and the dampening transition member provided between the tamp handle and one or more cavity walls also allows the tamp head to move, rotate or articulate in any direction relative to the tamp handle. 6. A tamper tool assembly comprising: a tamp head having a first surface and a second surface, and a receiver coupled to the first surface; andan elongated tamp handle provided in a cavity defined by the receiver and coupled to the receiver with a connection member provided through one or more receiver apertures defined in the receiver and one or more handle apertures defined in tamp handle;whereby the handle apertures and/or the receiver apertures are sized and/or shaped to maintain a sloppy fit with the connection member, the sloppy fit helping allow the tamp handle to contact the tamp head before the connection member contacts the receiver apertures and handle apertures, in response to impact of the tamp head with material being tamped. 7. The tamper tool assembly of claim 6, whereby the sloppy fit also helps allow movement, rotation or articulation of the tamp head relative to the tamp handle in any direction. 8. The tamper tool assembly of claim 6, whereby the tamp handle defines a tamp handle cavity therein and flowable material is retained in the tamp handle cavity. 9. The tamper tool assembly of claim 8, whereby the flowable material is metal shot. 10. A tamper tool assembly comprising: a tamp head having a first surface and a second surface, and a receiver coupled to the first surface; andan elongated tamp handle provided in a cavity defined by the receiver and coupled to the receiver with a connection member provided through one or more receiver apertures defined in the receiver and one or more handle apertures defined in tamp handle;whereby an interior dimension of the handle apertures and/or the receiver apertures is oversized relative to a cross-sectional dimension of the connection pin to allow the tamp handle to contact the tamp head before the connection member contacts the receiver apertures and handle apertures, in response to impact of the tamp head with material being tamped. 11. The tamper tool assembly of claim 10, whereby the oversized interior dimension of the handle apertures and/or the receiver apertures relative to the cross-sectional dimension of the connection pin also helps allow movement, rotation or articulation of the tamp head relative to the tamp handle in any direction. 12. The tamper tool assembly of claim 10, whereby the tamp handle defines a tamp handle cavity therein and flowable material is retained in the tamp handle cavity. 13. The tamper tool assembly of claim 12, whereby the flowable material is metal shot.
Klinkhammer, John; Hendry, Jason, Door for controlling temperature and airflow distribution of a heating, ventilation, and air conditioning system in a vehicle.
Cozine Mark L. (5301 S. Coddington Ave. Lincoln NE 68523) Ferguson David G. (3035 Cable Ave. Lincoln NE 68502) Hansen Loren F. (1629 N. 73rd St. Lincoln NE 68505) Lamb Mark E. (6510 S. 41st St. Linco, Turf aerating apparatus with resilient handle mount.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.