Field of the Invention
The present invention relates to trigger sprayer devices and more particularly to trigger sprayer devices made entirely, or substantially, from a plastic material.
State of the Art
Trigger sprayers, trigger sprayer devices, and trigger actuated pump sprayers are well known and their use is commonplace in many households and businesses. Typically, a trigger sprayer includes a pump chamber whose volume is varied by movement of a piston within the pump chamber. The piston is typically biased by a spring and is attached to a trigger lever. Actuation of the trigger lever moves the piston within the pump chamber and compresses the spring; this is sometimes referred to as the pump stroke or pressure pump stroke. Release of the trigger lever releases the force on the spring and the spring pushes the piston back to a resting position; which is sometimes called the suction stroke or return stroke. A typical trigger sprayer also includes an inlet valve and an outlet valve. During the pump stroke, product in the pump chamber is pressurized and upon reaching a certain pressure the outlet valve is opened, allowing the product in the pump chamber to escape through the outlet valve. During the return stroke, the outlet valve is shut and the inlet valve is opened. The return of the piston caused by the spring force draws product through the inlet valve into the pump chamber. A typical trigger sprayer will also include a dip-tube for delivering product to the trigger sprayer inlet valve, and an orifice for dispersing the product exiting the outlet valve. The orifice may be attached to or included in a nozzle which is part of the trigger sprayer.
Many different types of trigger sprayers are available in the market and alternative trigger sprayer features abound. However, customers are always looking for cheaper and better features and trigger sprayers. In order to reduce costs, part counts are reduced and assembly processes are simplified. In addition, cheaper materials and fewer materials are used to reduce the costs associated with trigger sprayers.
Most trigger sprayers include metal parts. For instance, the spring used to bias the piston in a pump chamber is typically made of steel. Ball valves using steel balls are also typically used as inlet and outlet valves for trigger sprayers. Metal springs and balls can be costly. In addition, metal in the flow path of a product can present compatibility issues with product flowing through the trigger sprayer. The use of steel balls for valves also adds components to the trigger sprayer, increasing the complexity of assembly and sourcing. The use of metal also hinders the recyclability of a trigger sprayer because many of the available recycling services do not accept mixed-component products for recycling.
Therefore, it may be desirable to develop trigger sprayers made of a single material and to design trigger sprayers which may be more effectively assembled and produced.
According to certain embodiments of the invention, a trigger sprayer may include a valve body, a tube retainer positioned in the valve body, a trigger attached to or configured to fit with the valve body and a shroud. The trigger may include an integral trigger lever and biasing member or spring. When actuated, the trigger lever stresses the biasing member which may move within the shroud. The biasing member may be configured to return the trigger lever to a non-actuated position when force on the trigger lever is released.
According to various embodiments of the invention, the trigger may work with the shroud to impart a bias force on a piston through the trigger in order to return the piston to a beginning position and to fill a pump chamber.
In some embodiments of the invention, an inlet valve and an outlet valve may be molded with a tube retainer or as a singular piece such that the valves allow fluid or product to move from a container into a pump chamber and out of the pump chamber to be dispersed by a trigger sprayer.
While the specification concludes with claims particularly pointing out and distinctly claiming particular embodiments of the present invention, various embodiments of the invention can be more readily understood and appreciated by one of ordinary skill in the art from the following descriptions of various embodiments of the invention when read in conjunction with the accompanying drawings in which:
According to various embodiments of the invention, a trigger sprayer may be made from a single plastic material or multiple plastic materials and may include a valve body, a piston, an inlet valve, an outlet valve, and a trigger and spring combination. For instance, all of the components of the trigger sprayer may be made from polypropylene. A trigger sprayer according to various embodiments of the invention may also include any one or more of a shroud, a nozzle, a closure, a gasket, and a dip-tube. Trigger sprayers according to various embodiments of the invention may be fixed, removeably secured, or in communication with a container or product source containing a product to be dispensed by the trigger sprayer.
Components of a trigger sprayer according to various embodiments of the invention are illustrated in
A cross-sectional side view of an assembled trigger sprayer 100 using the components illustrated in
According to other embodiments of the invention, a trigger sprayer 200 may include different components for attaching the trigger sprayer 200 to a container, such as a bayonet system. For example, a trigger sprayer 200 incorporating a bayonet system as a closure mechanism is illustrated in
A cross-sectional side view of an assembled trigger sprayer 200 using the components illustrated in
An alternative version of a trigger sprayer 300 according to embodiments of the invention is illustrated in
A cross-sectional side view of an assembled trigger sprayer 300 using the components illustrated in
Similarly, a bayonet version of a trigger sprayer 400 may incorporate a tube retainer 310 and ball 312 as illustrated in
A cross-sectional side view of an assembled trigger sprayer 400 using the components illustrated in
According to various embodiments of the invention, a trigger sprayer may include a valve body, a tube retainer, a piston 140, a trigger 150, and a shroud 130. A valve body may include a valve body 120 as illustrated in
A tube retainer 110 according to various embodiments of the invention is illustrated in
A tube retainer 110 may include a tube receptacle 115 having an exterior wall 117. The tube receptacle 115 may be cylindrical and may include features for retaining a dip-tube 102 within a portion of the tube receptacle 115. For example, as illustrated in the cross-sectional view of the tube receptacle 115 in
A plug seal 113 may encompass at least a portion of one end of the tube retainer 110 as illustrated in
A tube retainer 110 according to embodiments of the invention may include two integral valves: an inlet valve 111 and an outlet valve 112. The inlet valve 111 and outlet valve 112 may be molded with the tube retainer 110, thereby reducing the part count of the trigger sprayer 100. According to embodiments of the invention, the inlet valve 111 and outlet valve 112 may be conical in shape. Other shapes and configurations of the inlet valve 111 and outlet valve 112 may also be used as desired. The inlet valve 111 and outlet valve 112 may also be pliable or moveable such that pressure asserted against a lower surface of either the inlet valve 111 or outlet valve 112 may move the material of the respective valve.
One or more inlet passages 119 may also be molded into the tube retainer between the exterior wall 117 and the interior of the tube receptacle 115. An inlet passage 119 may be positioned between the inlet valve 111 and the plug seal 113 of the tube retainer 110. The inlet passage may allow a product or fluid to pass from within the tube receptacle 115 through the tube retainer 110 wall and into a portion of a trigger sprayer 100. As illustrated in
According to other embodiments of the invention, a tube retainer 310 may include any conventional tube retainer 310 and ball 312 which acts as a check valve in the trigger sprayer as illustrated in
Other tube retainer designs may also be incorporated with various embodiments of the invention as needed. Alternatively, embodiments of the invention may also include conventional trigger sprayer valving means and fluid flow means for delivering a product or fluid into and through a trigger sprayer.
A valve body according to embodiments of the invention may be configured for closure systems as illustrated in
A cross-sectional view of a valve body 120 according to embodiments of the invention is illustrated in
According to embodiments of the invention, a tube retainer 110 may be fitted with or secured in the valve body 120. For example, the exterior wall 117 of the tube retainer 110 may be configured to fit within the tube retainer opening 121 of the valve body 120. Once in position, a snap ring 127 or other feature may hold the tube retainer 110 in the valve body 120. Other methods for retaining a tube retainer 110 in the valve body 120 may also be used. When seated or secured in the valve body 120, the fluid passageway 123 may be positioned between the inlet valve 111 and outlet valve 112 of the tube retainer 110.
A piston 140 may be mounted or moveably positioned within the piston opening 122 of the valve body 120. When mounted in the valve body 120, space in the piston opening 122 between the piston 140 and the valve body 120 may form a pump chamber 142. Movement of the piston 140 within the piston opening 122 may vary the volume of the pump chamber 142 and may act to push and pull a product or fluid into and out of the pump chamber 142.
A nozzle 160 or a nozzle 360 and nozzle insert 362 may be attached to an end of the valve body 120 which end may include spin mechanic features 126.
In some embodiments of the invention, the valve body 120 may also include features to secure a shroud 130 to the valve body 120 or which improve the fit between the valve body 120 and a shroud 130 mounted on or secured to the valve body 120. For example, rails 129 on a valve body such as the valve body 120 and valve body 220 illustrated in
Other valve body 120 designs may also be incorporated with various embodiments of the invention as needed. Alternatively, embodiments of the invention may also include conventional trigger sprayer valve body configurations.
A nozzle 160 according to embodiments of the invention is illustrated in
A piston 140 according to embodiments of the invention is illustrated in
A piston 140 according to embodiments of the invention may include one or more arms 145 for connection to a trigger 150. For example, the piston 140 illustrated in
According to embodiments of the invention, a piston 140 having two arms 145 may be advantageous because the presence of two arms 145 allows the piston 140 to be molded without the use of side actions and provides improved cooling of the piston 140 in the mold which allows for a reduced part production or cavitation time. Thus, the piston 140 illustrated in
A piston 140 may also include one or more piston flanges 147 which may provide improved sealing between the piston 140 and an interior of the valve body 120 piston opening 122. The one or more flanges 147 may also assist with the venting of the trigger sprayer 100.
Alternative or conventional piston 140 designs may also be used with embodiments of the invention and different features and methods for attaching the piston 140 to a trigger 150 may be used.
A trigger 150 according to embodiments of the invention is illustrated in
According to embodiments of the invention, a trigger 150 may include one or more piston attachment features 159. As illustrated, piston attachment features 159 may include arced clips or features configured to mate with a snap attachment or other feature of a piston arm 145. The snap attachments of the piston arms 145 illustrated in
A trigger 150 may include one or more posts 157 which may be configured to mate with a hole or other feature on a valve body 120. For example, the one or more posts 157 may fit into holes in a valve body 120 such that the trigger 150 is supported or secured to the valve body 120 by the mating of the one or more posts 157 with the valve body 120. Other connection means may also be used to help secure a trigger 150 to a valve body 120.
The window in the trigger 150 between the trigger lever 152 and the biasing member 154 may allow easy molding of the trigger 150. For instance, the illustrated trigger 150 may be molded in a single action mold, which may reduce complicated molding and molding costs.
A biasing member 154 according to embodiments of the invention is molded or is integral with the trigger lever 152. The biasing member 154 may act as a spring when attached to or when working in conjunction with any one or more of a valve body 120 and shroud 130. The shape of the biasing member 154 may be altered to achieve a desired force or spring force for actuation of a trigger 150. For example, the biasing member 154 illustrated in
A slot 155 in the biasing member 154 may aid in the function of the biasing member 154. The slot 155 may be configured to alter a biasing force provided by the biasing member 154 during actuation of a trigger 150. The slot 155 may also facilitate the assembly of a trigger 150. For example, the trigger 150 illustrated in
A bias wing 156 may be attached to or an integral part of a trigger 150. As illustrated in
In other embodiments of the invention, the trigger lever 152 may include a loop or other feature which may allow a user to assist with the return of the trigger lever 152 to a starting position in the event that the biasing member 154 is damaged, worn out, or breaks. A loop or other feature may also assist with the return of a trigger lever 152 during normal actuation as desired.
A shroud according to embodiments of the invention is illustrated in
According to embodiments of the invention, a shroud 130 may include one or more valve body attachments 132. A valve body attachment 132 may mate with a feature on a valve body 120 to help secure the shroud 130 to the valve body 120. Any desired combination of valve body attachments 132 may be used with a shroud 130 to secure the shroud 130 to a valve body 120.
A shroud 130 may also include one or more valve body ribs 134. A valve body rib 134 may mate with or help secure a valve body 120 to the shroud 130 during assembly. A valve body rib 134 may also help guide a shroud 130 onto a valve body 120, or a valve body 120 into a shroud 130, during assembly processes. According to some embodiments of the invention, a valve body rib 134 may provide extra contact between the valve body 120 and the shroud 130 whereby noises generated by the movement and flexing of the trigger sprayer 100 during actuation are reduced or minimized.
In some embodiments of the invention, a shroud 130 may include one or more windows 136. A window 136 may be configured to allow a user to see movement of the biasing member 154 through the shroud 130 during actuation of the trigger 150. In some embodiments, the biasing member 154 and shroud 130 may be different colors, thereby highlighting any movement of the biasing member 154 against the shroud 130. The presence of one or more windows 136 may also reduce the weight of the shroud 130 and thereby reduce the cost of the shroud 130. Windows 136 may also be positioned or used to facilitate assembly of a trigger 150.
A shroud 130 may also include one or more supports 139 within the shroud 130. The one or more supports 139 may mate with or contact a valve body 120 and may provide support for the shroud 130 and the trigger 150. For example, the support 139 illustrated in
In some embodiments of the invention, one or more slots 155 in the bias member 154 may be positioned such that the one or more supports 139 fit through the one or more slots 155 to contact the valve body 120. The positioning of the one or more slots 155 and the one or more bias members 154 may facilitate the assembly of a trigger sprayer 100 or the biasing of the biasing member 154 of the trigger 150 during actuation of the trigger sprayer 100.
As illustrated in the cross-sectional view of shroud 130 in
According to embodiments of the invention, the bias member guide 138 and interaction with the bias wing 156 or other portion of the biasing member 154 of the trigger 150 may be engineered to provide particular characteristics of the biasing member 154. Further, the use of a sliding biasing member 154, or free floating biasing member 154, may allow alterations in the design of a trigger sprayer 100.
In still other embodiments of the invention, the bias member guide 138 may facilitate the assembly of a trigger sprayer 100. For instance, as a shroud 130 is assembled to a valve body 120 and trigger 150 combination, the bias member guide 138 may direct or move the bias wing 156 into a proper position within the shroud 130 to allow actuation of the trigger sprayer 100 as desired.
According to embodiments of the invention, a trigger sprayer 100 may be assembled by inserting a tube retainer 110 into a valve body 120. A piston 140 may be assembled in the valve body 120 and a trigger 150 assembled to the valve body 120 such that the piston 140 is also attached to the trigger 150. A shroud 130 may be assembled to the valve body 120 and a bias wing 156 of the trigger 150 may follow a bias member guide 138 to the proper location within the shroud 130.
According to embodiments of the invention, the biasing member 154 of the trigger 150 may move freely within the shroud 130 along the bias member guide 138. In this manner, the bias member 154 is not attached to the valve body 120 but is free floating within the trigger sprayer 100. In addition, the bias member 154 may act against the shroud 130 rather than against the valve body 120 to move a piston 140 and fill a pump chamber 142.
According to embodiments of the invention, a trigger sprayer 100 or trigger sprayer 200 having a tube retainer 110 with both an inlet valve 111 and an outlet valve 112 as illustrated in
Repeat actuation of the trigger lever 152 again biases the bias member 154. At the same time, piston 140 is moved into the valve body 120, thereby decreasing the volume of the pump chamber 142. As the volume of the pump chamber 142 is reduced, product or fluid in the pump chamber 142 escapes through the fluid passageway 123. Fluid pressure on the backside of inlet valve 111 presses the inlet valve 111 against the walls of the valve body 120, which may prevent fluid or product from returning through the inlet valve 111. As pressure builds, the outlet valve 112 flexes, allowing fluid or product to escape around the outlet valve 112 and into the discharge passageway 124. Fluid in the discharge passageway 124 is then released through the nozzle 160 with a particular spray pattern caused by the nozzle 160 and valve body 120 or nozzle 360 and nozzle insert 362.
As the trigger lever 152 is released, the piston 140 is again pulled away from the valve body 120 causing a pressure change. This pressure change closes the outlet valve 112 and begins to draw fluid or product back into the pump chamber 142 through the inlet valve 111 and fluid passageway 123.
According to various embodiments of the invention, all of the components of a trigger sprayer may be molded from a single type of material, such as from a resin or plastic material. According to some embodiments of the invention, all of the components of a trigger sprayer may be molded using a polypropylene material. Other plastics and materials may be used as desired.
Having thus described certain particular embodiments of the invention, it is understood that the invention defined by the appended claims is not to be limited by particular details set forth in the above description, as many apparent variations thereof are contemplated. Rather, the invention is limited only be the appended claims, which include within their scope all equivalent devices or methods which operate according to the principles of the invention as described.
This application is a National Phase application of PCT Application PCT/US2010/31970, entitled “TRIGGER SPRAYERS AND METHODS FOR MAKING THE SAME,” filed 22 Apr. 2010, which claims the benefit of U.S. Provisional Application No. 61/172,119, entitled “TRIGGER SPRAYERS AND METHODS FOR MAKING THE SAME,” filed 23 Apr. 2009, each of which are incorporated herein by reference in their entirety.
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/US2010/031970 | 4/22/2010 | WO | 00 | 10/14/2011 |
Publishing Document | Publishing Date | Country | Kind |
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WO2010/124040 | 10/28/2010 | WO | A |
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Number | Date | Country | |
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20120032004 A1 | Feb 2012 | US |
Number | Date | Country | |
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61172119 | Apr 2009 | US |