초록 ▼

A method for extruding and depositing a slurry or mortar onto a selected work surface uses a mortar gun assembly with a chamber for receiving mortar from a remote supply hopper and an extruder configured to selectively apply a bead or ribbon of mortar of selected thickness onto the work surface. The

A method for extruding and depositing a slurry or mortar onto a selected work surface uses a mortar gun assembly with a chamber for receiving mortar from a remote supply hopper and an extruder configured to selectively apply a bead or ribbon of mortar of selected thickness onto the work surface. The mortar gun assembly provides mortar from the hopper under pressure and the user selectively applies mortar by controlling a rotating port valve between the hopper and the mortar gun chamber. The rotating port valve provides a “rest state” in which the mortar is not sent to the mortar gun, but is instead re-circulated by the pump back to the hopper so un-dispensed mortar is kept moving and cannot dry or set.

대표청구항 ▼

1. A mortar gun assembly comprising: a chamber connected at an inlet end to a supply hose to receive fluid material from a remote supply;an extruder at an outlet end of the chamber, said extruder configured to apply the fluid material as a bead or ribbon of selected thickness to a substrate;a pump c

1. A mortar gun assembly comprising: a chamber connected at an inlet end to a supply hose to receive fluid material from a remote supply;an extruder at an outlet end of the chamber, said extruder configured to apply the fluid material as a bead or ribbon of selected thickness to a substrate;a pump connected to the supply hose to deliver fluid material from the remote supply to the chamber under pressure;a rotating port valve connected in the supply hose to regulate the flow of said fluid material to the chamber;a handle secured to the top of the chamber to allow a user to manipulate the mortar gun; anda manually operable on/off switch on said handle for controlling said rotatable port valve;wherein said rotatable port valve has a first, or active, state in which the fluid material is pumped from the remote supply to the mortar gun chamber to be extruded onto a substrate through said extruder, and a second, or rest, state in which the fluid material is not sent to the mortar gun, but is instead re-circulated to the supply,wherein said rotatable port valve comprises(a) an annular main body having side and bottom walls and a top cover that is secured to the body by suitable fasteners;(b) first, second and third ports spaced around and extending through the annular body and forming an inlet and two outlet ports;(c) a cylindrical, rotatable valve body rotatably nested in a central opening of the annular main body, and(d) passageways through said rotatable valve body for connecting said inlet passageway selectively to one of said outlet ports in said valve active state to supply said fluid material to said mortar gun and to the other of said outlet ports in said rest state to recirculate said fluid material. 2. The mortar gun assembly of claim 1, wherein said passageways through said rotatable valve body comprise a generally Y-shaped through passageway extending approximately diametrically across the valve body. 3. The mortar gun assembly of claim 2, wherein said rotatable valve body is formed by upper and lower portions which are aligned by alignment pins and secured together by suitable fasteners. 4. The mortar gun assembly of claim 1, further including a central axial shaft on said rotatable valve body, said shaft extending through said top cover; a pivot arm having an inner end fixedly connected to said shaft; andan outer end of said pivot arm being connected to a drive shaft of an actuator operable in response to activation of said trigger to turn said rotatable valve body between said active and rest positions. 5. The mortar gun assembly of claim 1, wherein said chamber and handle are constructed of steel. 6. The mortar gun assembly of claim 1, wherein said handle is tubular. 7. The mortar gun assembly of claim 1, wherein said rotatable port valve has water supply grooves to lubricate the rotating port valve outer surface. 8. A mortar extrusion and deposition system for extruding and depositing or applying mortar upon a selected surface, comprising: a mortar gun having chamber connected at an inlet end to a supply hose to receive a fluid mortar material from a remote supply;an extruder at an outlet end of the chamber, said extruder configured to apply the fluid material as a bead or ribbon of selected thickness to a substrate's selected surface;a pump connected to the supply hose to continuously deliver pressurized fluid material from the remote supply to the chamber;a rotating port valve connected in the supply hose to selectively regulate the flow of said pressurized fluid material to said chamber when a selected portion of said fluid material is being deposited upon said selected surface; said rotating port valve also being connected to a recirculation hose which is also connected to the remote supply;a handle secured to the top of the chamber to allow a user to manipulate the mortar gun;a manually operable control on said handle for controlling said rotatable port valve; andwherein rotating port valve automatically recirculates any undeposited portion of said pressurized fluid material back to said remote supply via said recirculation hose;wherein said rotatable port valve comprisesan annular main body having side and bottom walls and a top cover that is secured to the body by suitable fasteners;first, second and third ports spaced around and extending through the annular body and forming an inlet and two outlet ports;a cylindrical, rotatable valve body rotatably nested in a central opening of the annular main body; andpassageways through said rotatable valve body for connecting said inlet passageway selectively to one of said outlet ports in said valve active state to supply said fluid material to said mortar gun and to the other of said outlet ports in said rest state to recirculate said fluid material;wherein said passageways through said rotatable valve body comprise a generally Y-shaped through passageway extending approximately diametrically across the valve body. 9. The mortar extrusion and deposition system of claim 8, wherein said rotatable valve body is formed b u er and lower portions which are aligned by alignment pins and secured together by suitable fasteners. 10. The mortar extrusion and deposition system of claim 9, further including: a central axial shaft on said rotatable valve body, said shaft extending through said top cover;a pivot arm having an inner end fixedly connected to said shaft; andan outer end of said pivot arm being connected to a drive shaft of an actuator operable in response to activation of said trigger to turn said rotatable valve body between said active and rest positions. 11. The mortar extrusion and deposition system of claim 10, further including a lubrication water conduit connected to said valve body and to source of low-pressure fresh lubrication water, wherein said rotatable valve body upper portion and said rotatable valve body lower portion define a valve body lubrication space there between and said fresh lubrication water flows into said valve body, through said valve body lubrication space and then is mixed with said undeposited portion of said pressurized fluid material flowing back to said remote supply via said recirculation hose. 12. The mortar extrusion and deposition system of claim 8, wherein said chamber and handle are constructed of steel. 13. The mortar extrusion and deposition system of claim 8, wherein said handle is tubular. 14. The mortar extrusion and deposition system of claim 8, wherein said rotatable port valve has water supply grooves to lubricate the rotating port valve outer surface.