The present invention relates to a texture sprayer pump unit or system as described below. It is adapted to deliver a semi-solid texture material in the form of a slurry from an onboard tank to a hand-held texture spray gun for application to a building surface, such as a wall or ceiling.
The present invention includes a texture spray pump assembly having a frame carrying a texture material pump, and a texture material tank located and supported by the frame and manually separable from the frame, the tank including a tank outlet connected to the texture material pump when the tank is received on the frame, wherein the tank has a valve that closes when the tank is separated from the frame. The valve may be a duckbill type valve.
The valve apparatus may also include at least one, and preferably a pair of helper springs urging the slit aperture closed. Each helper spring may include a crossbar located adjacent the slit aperture.
In another aspect, the present invention may be seen to include a texture spray pump assembly having a frame carrying a texture material pump, and a texture material tank having at least one relatively longer side and at least one relatively shorter side, the tank located and supported by the frame; wherein the frame may be oriented to a first position wherein the tank is positioned in an upright condition with the at least one relatively longer side oriented generally horizontally for holding texture material during spraying operation and further wherein the frame may be oriented to a second position wherein the tank is positioned to a second position for storage with the at least one relatively longer side oriented generally vertically. In this aspect, the texture spray pump assembly may further include a secondary handle attached to the frame and supporting the assembly on a generally flat surface with the frame in the second position.
The present invention is a texture spray pump unit or system 10 which may be seen in
The transfer pump 12 and tank 14 are located within the frame 20, adjacent to each other and with the pump 12 below the tank 14 so as to allow gravity to feed the transfer pump 12 with the semi-solid texture material held in the tank 14. Included with the tank 14 is a cover or lid 32 which closes the material opening at the top of the tank and functions to keep the texture material free of foreign matter as well as extending the working time of the texture material before it “skins” or begins to “dry out” by slowing down the evaporation of water from the texture material, keeping it moist longer than would be the case without a cover. The tank 14 may also include “molded-in” handles 34 and 36 for lifting the tank 14 out of the frame 20.
The tank outlet 40 includes a valve 42 which automatically closes the tank outlet 40 when the tank 14 is removed from the frame 20 and disengaged from the transfer pump inlet tube 44 to prevent the semi-solid texture material from flowing out of the tank 14 in the event that the tank is removed from the remainder of the unit 10 while still containing texture material. The valve 42 is preferably a duck bill type self closing valve, shown in
It is to be understood that, as the tank 14 is received on frame 20, mating portions 28 on the frame 20 align tank 14 by nesting with mating portions 30 on the tank 14 to position tank outlet 40 in alignment with the inlet tube 44, thus providing positive engagement of the valve 42 with the inlet tube 44. It may thus be seen that the tank 14 can be installed in and removed from the frame 20 (with coupling and decoupling between the tank outlet 40 and pump inlet tube 44) without the use of tools.
Referring most particularly to
As shown in
In the operation of the texture spray unit 10, texture material is placed in the tank 14 through the opening in the top of the tank, and the cover 32 is placed on the tank, closing the opening. The unit 10 is started, causing the air source or compressor 18 to run, operating the pump 12 and providing compressed air and texture material (separately) to the texture spray gun 16. As the gun 16 is triggered, air and texture material is emitted from the gun 16 to apply the texture material to a surface to be coated. Pump 12 is preferably an air driven diaphragm type pump, capable of operating with a stalled output condition, which occurs when the gun trigger is released, stopping material emission from the gun 16.
It is to be understood that the pump 12 may be a conventional air driven diaphragm pump, as is available from Wagner Colora Srl in Italy, with contact information as follows:—via Fermi, 3—20040—Burago Molgora—MI—tel 39 039 62502.1—fax 39 039 6851800—info@wagnercolora.com. The compressor 18 may be a conventional 2 hp air compressor providing 8 CFM @ 45 psi, for the first embodiment, and 3 CFM @ 45 psi for the second embodiment.
Referring now to
In this embodiment, unit 100 has a pump 120, a tank 140, and an air source 180. Air source 180 may be a single head or piston air compressor. Tank 140 may have molded in graduations 142 to indicate the quantity of texture material remaining in tank 140. Unit 100 has a frame 200, a pair of wheels 220, and a primary handle 240, each similar to that of unit 10. However, secondary handle 260 differs from handle 26 in that the position of handle 260 is relocated, so that unit 100 can be tilted up by 90 degrees (as shown in
Referring now most particularly to
Referring now to
In operation, the cross bars of the springs 422 hold the slit aperture 54 in duckbill valve 42 closed in the absence of the pump inlet tube 440. This eliminates leakage that might otherwise occur due to any “memory” (i.e., partially inelastic behavior) of the slit aperture 54 remaining partially open after the tube 440 is withdrawn.
It may be noted that the angle of the planar straight section 430 and crossbar 424 is more acute than the angle of the angled faces 56 and 58 of the duckbill valve 42. This difference provides for a biasing force by the helper springs 422 acting against the duckbill valve 42 once the springs 422 are assembled to the valve 42 with the valve assembly 422 in the closed position as shown in
Although a duckbill type check valve is shown in the embodiments described herein, it is to be understood that other types of check valves may be used as alternatives, while still remaining within the scope of the present invention. For example, and not by way of limitation, flapper valves or reed valves may be substituted for the duckbill valve, if desired.
The invention is not to be taken as limited to all of the details thereof as modifications and variations thereof may be made without departing from the spirit or scope of the invention.
This application claims the benefit of U.S. Provisional Application 60/804,519, filed Jun. 12, 2006, the entire contents of which are hereby expressly incorporated by reference.
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/US2007/070894 | 6/11/2007 | WO | 00 | 12/11/2008 |
Publishing Document | Publishing Date | Country | Kind |
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WO2007/146884 | 12/21/2007 | WO | A |
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