The present invention is related to portable liquid dispensing systems. In particular, the present invention relates to portable paint sprayers. Paint sprayers are well known and popular for use in painting surfaces, such as on architectural structures, furniture and the like. Airless paint sprayers provide the highest quality finish amongst common sprayer system due to their ability to finely atomize liquid paint. In particular, airless paint sprayers pressurize liquid paint and discharge the paint through small, shaped orifices known as spray tips. The paint leaves the spray tip as an atomized spray having a shape referred to as a pattern. Once the paint has left the spray tip the paint coats a surface. The spray tips may be removed by hand and replaced with a different spray tip that provides a different pattern.
It is, however, often desirable to paint some areas using a different device, such as a paint roller. However, switching from an airless paint sprayer to a paint roller would require an operator to provide a tray or other container to hold paint in which the roller could be dipped. Alternatively, if the paint roller is pressure-fed, a paint supply system for feeding paint to the paint roller is needed. In either case, an operator is required to provide more equipment if the operator desires to apply paint by means other than the paint sprayer.
In one embodiment, an apparatus supplies paint under pressure to a paint applicator. The apparatus comprises a handheld airless spray gun and a spray gun adapter. The handheld airless spray gun comprises a housing, a fluid pump having an outlet disposed within the housing, and a spray tip assembly fluidly connected to the outlet of the fluid pump and having a bore for receiving and holding a spray tip. The spray gun adapter is configured to be installed in the bore of the spray tip assembly. The spray gun adapter comprises an adapter body, an adapter bore, an adapter inlet, and an adapter outlet. The adapter body has a lower portion configured to fit in the spray tip bore of the spray tip assembly and an upper portion configured to extend out of the spray tip bore. The adapter bore extends into the adapter body from the upper portion toward the lower portion. The adapter inlet is in fluid communication with the adapter bore and located in a sidewall of the lower portion of the adapter body and positioned to be in fluid communication with the outlet of the fluid pump when the lower portion of the adapter body is located in the spray tip bore. The adapter outlet is in fluid communication with the adapter bore and located at the upper portion of the adapter.
In another embodiment, a spray gun adapter establishes fluid communication between a fluid pump of a handheld airless spray gun and an applicator accessory. The adapter comprises an adapter body, a head attached to the adapter body, and a protrusion. The adapter body comprises an upper portion, a cylindrical lower portion, a radial inlet located in a sidewall of the lower portion of the adapter body, and an adapter bore having a first diameter in fluid communication with the radial inlet. The head attached to the adapter body is attached at the upper portion of the adapter body. The head comprises an adapter outlet located in the upper portion of the adapter body and in fluid communication with the adapter bore and a handle extending from the upper portion of the adapter body. Fluid flowing from the adapter inlet to the adapter outlet makes a ninety degree turn after flowing through the adapter inlet to flow to the adapter inlet. The protrusion extends radially from the adapter body between the upper portion and the lower portion of the adapter body.
In a further embodiment, a method for dispensing fluid from an applicator accessory makes use of a handheld airless spray gun. The method comprises removing by hand a spray tip from a spray tip assembly connected to an outlet of a fluid pump within the handheld spray gun, installing a spray gun adapter in the spray tip assembly by hand so that the spray gun adapter is in fluid communication with the outlet of the fluid pump, connecting an accessory to the spray gun adapter, and dispensing fluid through the accessory using the handheld airless spray gun, wherein the spray gun adapter is configured to connect an accessory to the handheld airless spray gun to allow the handheld airless spray gun to dispense fluid through the accessory.
Spray gun 10 is an airless sprayer used in conjunction with a spray tip to produce a spray pattern in order to apply paint to a surface such as a wall. When used for spraying, spray gun 10 uses a pump to draw paint from a container and provides the paint under pressure to a spray tip. The paint is atomized by an outlet in the spray tip and deposited on the surface being painted.
Spray gun 10 can be used to supply paint to a paint applicator accessory such as a pressure-fed paint pad or roller (such as pressure-fed paint roller 16). This is accomplished by replacing the spray tip of the spray gun 10 with spray gun adapter 12 and connecting tubing 14 between spray gun adapter 12 and an inlet of pressure-fed paint roller 16. Spray gun adapter 12 is installed in spray gun 10 in place of the spray tip. The pump of spray gun 10 draws paint from a fluid container and provides it, under pressure, to spray gun adapter 12. Spray gun adapter 12 directs the fluid through tubing 14 and to pressure-fed paint roller 16 or another accessory.
Spray gun adapter 12 allows an operator to use spray gun 10 to provide paint to an accessory such as pressure-fed paint roller 16. This allows an operator to apply paint by both spraying and rolling without having to provide additional equipment when the operator wants to apply paint using roller 16.
Fluid container 22 is connected to housing 18 by container lid 32. Container lid 32 has threads that complement threads on fluid container 22 so that fluid container 22 can be connected to housing 18. Pressure relief valve 24 extends through an opening in a side of housing 18 and connects to the fluid pump disposed in housing 18. Opening pressure relief valve 24 allows pressure in spray gun 10 to be released to the atmosphere. Trigger 26 extends from integrated handle 30 of housing 18 and is connected to a switch disposed within housing 18. Battery 28 is connected to battery port 34.
When trigger 26 is depressed the switch disposed in housing 18 establishes an electrical connection between battery 28 and a drive element disposed within housing 18. The drive element includes an electric motor that drives the fluid pump disposed within housing 18. The fluid pump draws paint from fluid container 22 and pumps it to spray tip 38 where the paint is atomized. The spray gun 10 or other spray gun referenced herein can be configured in any manner or include any feature disclosed in U.S. Pat. No. 8,596,555, the entirety of which is hereby incorporated by reference.
Housing 18 includes integrated handle 30, container lid 32, battery port 34, ribs 62, and housing opening 64. Spray tip assembly 20 includes guard 36, spray tip 38, bore 40, and threaded connection 42. Fluid pump 44 includes threaded outlet 66 and bracket 68. Drive element 46 includes gearing 70, motor 71, and connection assembly 72. Switch 50 includes terminals 76A and 76B. Connection assembly 72 includes bracket 74.
Spray tip assembly 20 is connected to housing 18 by threaded connection 42 which connects to one end of cylindrical valve 48 which is threaded at both ends. Cylindrical valve 48 extends through housing opening 64 of housing 18 and connects to threaded outlet 66 of fluid pump 44. This establishes fluid communication between spray tip assembly 20 and fluid pump 44. Fluid container 22 is threaded and is connected to housing 18 by container lid 32 which is also threaded. Suction tube 54 is connected to fluid pump 44 and is positioned within fluid container 22 when fluid container 22 is connected to container lid 32. Return line 56 is connected to fluid pump 44 and is also disposed within fluid container 22 when fluid container 22 is connected to container lid 32.
Fluid pump 44 and drive element 46 are disposed within housing 18 and are supported by ribs 62. Drive element 46 is connected to fluid pump 44 by bracket 74 of connection assembly 72. Bracket 74 is connected to bracket 68 of fluid pump 44 by fastener 58. Motor 71 of drive element 46 rotates gearing 70. Gearing 70 of drive element 20 is connected to fluid pump 44 by a shaft. The shaft transfers power from gearing 70 of drive element 20 to drive fluid pump 44. This arrangement allows motor 71 to drive fluid pump 44. Pressure relief valve 24 is connected to fluid pump 44 and extends through a side opening in housing 18.
Trigger 26 is positioned in housing 18 so that it extends out of integrated handle 30. Trigger 26 is connected to switch 50 which is disposed within housing 18. Switch 50 is connected to drive element 46 by terminals 76A and connected to circuit board 52 by terminals 76B. Circuit board 52 is disposed inside housing 18 and is in contact with battery 28 which is connected to housing 18 at battery port 34. This arrangement allows electrical current to be supplied from battery 28 to drive element 46 to drive motor 71.
Guard 36 has an oval opening and is connected to spray tip assembly 20. Spray tip 38 is installed in bore 40 of spray tip assembly 20 and has an inlet and an outlet. Bore 40 is in fluid communication with threaded connection 42 and cylindrical valve 48. The inlet of spray tip 38 is in fluid communication with the outlet of spray tip 38. The outlet of spray tip 38 is positioned so that paint exiting the outlet of spray tip 38 passes through the circular opening of guard 36. In this manner, the paint is sprayed in a forward direction, with respect to the spray gun 10 and user, directly from the spray tip 38 while the spray tip 38 resides within the bore 40 of the spray gun 10. Clip 60 is connected to housing 18 and allows an operator to clip spray gun 10 to a belt.
When an operator is spraying a surface with handheld airless sprayer 10, the operator depresses trigger 26. The depression of trigger 26 allows current to flow from battery 26 through circuit board 52 to switch 50 and to drive element 46 through terminals 76A and 76B. The current powers motor 71 of drive element 46 which rotates gearing 70. Gearing 70 drives fluid pump 44 through a shaft connected to gearing 70 and fluid pump 44. Fluid pump 44 draws paint from fluid container 22 through suction tube 54 and provides the paint to cylindrical valve 48. Once a high enough pressure is reached, cylindrical valve 48 opens and paint passes through cylindrical valve 48 to threaded connection 42 of spray tip assembly 20. Paint then flows through spray tip assembly 20 to bore 40 where spray tip 38 is installed. Paint then flows from an inlet in spray tip 38 to an outlet in spray tip 38. The outlet of spray tip 38 is shaped so that the paint is atomized as it passes through the outlet. The paint leaves the outlet of spray tip 36 and passes through the circular opening of guard 36 and coats a surface as a spray. Pressure relief valve 24 can be opened. Opening pressure relief valve 24 connects fluid pump 44 to the atmosphere and releases pressure from fluid pump 44. Any fluid in fluid pump 44 that has not been sprayed may return to fluid container 22 through return line 56.
Spray gun 10 of
Adapter body 92 has diameter D1. In various embodiments, diameter D1 is greater than or equal to 0.921 centimeters (0.363 inches) and less than or equal to 0.933 (0.367 inches), however not all embodiments may be so limited. This size of diameter D1 allows adapter body 92 to be inserted into bore 40 of spray tip assembly 20. Adapter inlet 98 is located between upper portion 94 and lower portion 96 of adapter body 92. Adapter inlet 98 is a circular bore that extends radially through adapter body 92 and intersects adapter bore 100 so that adapter inlet 98 is in fluid communication with adapter bore 100. Adapter inlet 98 has a diameter D2. Diameter D2 is 0.508 centimeters (0.2 inches) in various embodiments, however other diameters can be realized. This diameter ensures that adapter inlet 98 aligns with a seal installed in spray tip assembly 20 while still allowing adequate paint flow through inlet 98. The radial center of adapter inlet 98 is located a distance L1 that extends from lower portion 96 toward upper portion 94 of adapter body 92. Distance L1 is 1.143 centimeters (0.450 inches) in various embodiments, however other lengths can be realized. Having adapter inlet 98 located a distance L1 away from lower portion 96 ensures that adapter inlet 98 is aligned with threaded outlet 66 of fluid pump 44. This alignment establishes fluid communication between threaded outlet 66 and adapter inlet 98.
Adapter bore 100 extends axially through adapter body 92 and extends from a point above lower portion 96 toward upper portion 94 of adapter body 92. Head 102 is connected to adapter body 98. Adapter protrusion 104 is connected to adapter body 92 and located between upper portion 94 and lower portion 96 of adapter body 92. Adapter protrusion 104 is also located below head 102 and is connected to adapter body 92.
Cavity 106 extends through head 102 to connect to adapter bore 100 to establish fluid communication between adapter bore 100 and head 102. Cavity 106 has cavity threads 117 to accept a threaded coupler of tubing 14 for connecting spray gun adapter 12 to tubing 14. Threading or other coupling means may alternatively be on the outside of the spray gun adapter 12 and tubing 14 (or a connector on the upstream end of the tubing 14) may fit around the threading or other coupling means of the spray gun adapter 12. In various embodiments, a non-threaded type of connection may be used to couple tubing 14 and spray gun adapter 12. Adapter outlet 108 is an axial outlet that extends through upper portion 94 of adapter body 92 and connects to cavity 106 so that adapter outlet 108 is in fluid communication with cavity 106. Adapter handle 110 extends from adapter body 92 above adapter protrusion 104.
Angled surface 112 of adapter protrusion 104 extends radially from and axially along adapter body 92. Angled surface 112 connects to axial surface 114 of adapter protrusion 104. Axial surface 114 extends axially along a distance L2. Distance L2 is 0.782 centimeters (0.308 inches) in various embodiments, however other lengths can be realized. Axial surface 114 connects to radial surface 116. Radial surface 116 extends radially from adapter body 92 to connect to axial surface 114. Radial surface 116 is located a distance L3 above lower portion 96 of adapter body 92. Distance L3 is greater than or equal to 2.103 centimeters (0.828 inches) and less than or equal to 2.118 centimeters (0.834 inches) in various embodiments, however other lengths can be realized. Radial surface 116 projects radially outward a distance L4 from the cylindrical portion of the adapter body 92. Distance L4 is greater than or equal to 0.162 centimeters (0.064 inches) and less than or equal to 0.175 centimeters (0.069 inches) in various embodiments, however other lengths can be realized. This length of radial surface 116 ensures that adapter protrusion 104 establishes a friction fit inside bore 40 of spray tip assembly 20. This prevents inadvertent removal of spray gun adapter 12.
Spray gun adapter 12 may be installed in bore 40 (shown in
A threaded coupler can be inserted into spray gun adapter 12 through adapter outlet 108. Tubing 14 connected to an accessory may then be pushed down over the coupler to establish a flow path between fluid pump 44 and an accessory such as pressure-fed paint roller 16 (shown in
It is noted that the spray tip 38 routes paint straight through the spray tip assembly 20 to spray atomized paint from the front of the spray gun 10. The spray gun adapter 12, when placed in the spray tip assembly 20 in place of the spray tip 38, redirects the flow of the paint to make a ninety degree, upwards turn out of the top of the spray tip assembly 20, in a non-atomized state, to a flexible tubing 14 which routes the paint flow to a handheld paint dispensing accessory.
The discussion accompanying
While the invention has been described with reference to exemplary embodiments, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted for elements thereof without departing from the scope of the invention. In addition, many modifications may be made to adapt a particular situation or material to the teachings of the invention without departing from the essential scope thereof. Therefore, it is intended that the invention not be limited to the particular embodiment(s) disclosed, but that the invention will include all embodiments falling within the scope of the appended claims.
This application is a continuation of U.S. application Ser. No. 15/571,142, filed Nov. 1, 2017, and entitled “PRESSURE-FED ACCESSORIES ADAPTER FOR AN AIRLESS SPRAY GUN,” which is a National Stage Application of PCT Application No. PCT/US2016/038377, which claims priority to U.S. Provisional Application No. 62/181,948 filed on Jun. 19, 2015, and entitled “PRESSURE-FED ACCESSORIES ADAPTER FOR AIRLESS SPRAY EQUIPMENT,” the entire contents of which are hereby incorporated by reference in their entirety.
Number | Date | Country | |
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62181948 | Jun 2015 | US |
Number | Date | Country | |
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Parent | 15571142 | Nov 2017 | US |
Child | 17350067 | US |