JP3788783B2 - Spray equipment - Google Patents

Description

【００３５】
式中、ｎは２０〜９９ｍｏｌ％、好ましくは４０〜９０ｍｏｌ％であり、ｍは１〜８０ｍｏｌ％、好ましくは５〜４０ｍｏｌ％であり、Ｒ₁はＨまたはＣＨ₃を表し、ｙは０または１を意味し、Ｒ₂は−ＣＨ₂−ＣＨＯＨ−ＣＨ₂−またはＣ_xＨ_2xで、ｘ＝２〜１８であり、Ｒ₃は炭素原子が１〜４個の低アルキル基を表し、好ましくはメチルまたはエチルであり、あるいは、
【００３６】
【化２】

【００３７】
Ｒ₄は炭素原子が１〜４個の低アルキル基を意味し、好ましくはメチルまたはエチルであり、Ｘ^-はＣｌ、Ｂｒ、Ｉ、１／２ＳＯ₄、ＨＳＯ₄、およびＣＨ₃ＳＯ₃から成る群より選択される。ポリマーは、フランス特許第２，０７７，１４３、および同第２，３９３，５７３に記載の工程によって調製することができる。 本明細書で使用するのに好ましい四級化ビニルピロリドン／ジアルキルアミノアルキルアクリレートまたはメタクリレートコポリマーは、分子量が、１，０００〜１，０００，０００、好ましくは１０，０００〜５００，０００、より好ましくは１０，０００〜１００，０００である。
【００３８】
このようなビニルピロリドン／ジアルキルアミノアルキルアクリレートまたはメタクリレートコポリマーは、ＩＳＰコーポレーション（ISP Corporation）（米国ニューヨーク州ニューヨーク、およびカナダ、モントリオール）から商品名コポリマー（copolymer）８４５（登録商標）、ガフクァット（Gafquat）７３４（登録商標）、またはガフクァット（Gafquat）７５５（登録商標）、あるいは、ＢＡＳＦから商品名ルビクァット（Luviquat）（登録商標）として市販されている。
本明細書で最も好ましいのは、ＢＡＳＦから市販されているビニルピロリドンと、ジメチルアミノエチメタクリレート（ポリクアテルニウム−１１）の四級化コポリマーである。
【００３９】
他の好ましいポリマーは、例えばレイリー（Reilly）から入手可能な、ポリビニルピリジンＮ−オキシド（ＰＶＮＯ）ポリマーである。好ましいＰＶＮＯポリマーは、平均分子量が、１０００〜２００００００、より好ましくは５０００〜５０００００、最も好ましくは１５０００〜５００００である。
平均分子量の範囲は、バース（Barth）・Ｈ・Ｇおよびメイス（Mays）・Ｊ・Ｗの化学分析（Chemical Analysis）第１１３巻、「ポリマーの特性化の近代的方法（Modern Methods of Polymer Characterization）」に記載の光散乱によって決定した。
【００４０】
洗浄組成物が、例えば、汚れの再付着防止成分、界面活性剤、粘土、キレート化剤、酵素、ハイドロトープ（hydrotope）、イオン、泡抑制剤、溶媒、緩衝液、増粘剤、ラジカルスカベンジャー、汚れ懸濁ポリマー、顔料、染料、防腐剤、殺菌剤、光沢剤、ＵＶ保護剤、錆止めおよび／または香料を含めて、洗浄性組成物の他の従来の成分を含むことが好ましい。界面活性剤は、特に好ましい成分である。
【図面の簡単な説明】
【図１】 スプレー装置の斜視図である。
【図２】 スプレー装置の正面図である。
【図３】 スプレー装置の平面図である。
【図４】 図３のＡ−Ａを通るスプレー装置の断面図である。
【図５】 図３のＡ−Ａを通るスプレーヘッドの断面図である。
【図６】 スプレー装置の分解組立図である。[0001]
(Industrial application fields)
The present invention relates to a spray device including a container, a spray head, and a water purifier. In an alternative embodiment, the present invention relates to a container comprising a water purifier and suitable for use with a spray device. It is preferred that the water purifier is placed inside the container and cooperates with the spray head. The water purifier is preferably a filter, and preferably a layered bed of ion exchange resin. In another preferred embodiment, the container comprises a hydrophilic surface modified cleaning composition. It is preferred that the spray device also comprises means for connecting to the hose and can be used, for example, for cleaning automobiles, outside surfaces of windows, etc.
[0002]
(Background of the Invention)
Products for cleaning hard surfaces are widely sold in the market. These products are used for two purposes. The first purpose is to clean the soil from the surface, and the second purpose is to have an aesthetically pleasing finish, for example a surface that is free of water spots and / or shine. However, many products available on the market require rinsing with water after use. Usually, when the surface water dries, a water mark, a smear, or a spot of water remains. These water marks are the ones left behind by the evaporation of water from the surface and subsequent attachment of minerals present as solids dissolved in water, such as calcium ions, magnesium ions, sodium ions, and their salts. It is possible that there is a possibility that there may be deposits of soil carried by water or residues from cleaning products such as soap scum. One prior art method of solving this problem is to clean the surface with a cleaning composition that finishes the surface to be hydrophobic. As a result, most of the water is quickly removed from the surface during the cleaning process, and the rest forms discrete droplets or balls on the surface due to hydrophobic interactions. However, the Applicant has noticed that the surface dries quickly, but also leaves a noticeable water drop or mark known as a water mark. This problem becomes particularly apparent when cleaning ceramic, steel, plastic, glass, or colored surfaces. A means to solve this problem, known in the art, is to dry the surface using a cloth or chamois before water marks are formed. However, this drying process is time consuming and requires considerable physical effort.
[0003]
WO 97/48927 describes a process for cleaning the outer surface of a window using means for preparing a spray gun and water purification. First, the window is cleaned with a cleaning composition and then rinsed with clean water. Although using this spray gun may initially solve the problem of leaving water marks on the dry surface, the applicants have found that the spray gun has a short life span and is inefficient. I noticed that the user had to change the ion exchange resin cartridge every time I used it. Furthermore, the cleaning composition described in WO 97/48927 makes the treated surface hydrophobic. Accordingly, it is an object of the present invention to provide a spray device and container comprising a new water purifier with improved performance relative to the water purifier described in WO 97/48927.
[0004]
In another aspect of the invention, the water purifier is placed inside the cavity of the container. In other embodiments, the container is suitably attached to a spray head to form the spray device described in the present invention. The benefit of placing the water purifier inside the container is that it is easy to assemble the spray device, so that the user can access the water supply and drainage port of the means for removing the cleaning composition from the water purifier and the container, Allows quick and accurate adjustment to the valve system in the spray head. A further benefit of placing the water purifier inside the container cavity is that the user cannot touch it. Therefore, since a satisfactory performance cannot be obtained if the spray device is used without using the water purifier, the user does not want to use the spray device without the water purifier. Furthermore, since the water purifier cannot be reused, the water purifier is replaced at the same time when the user reliably replaces the cleaning composition by placing the water purifier inside the container. For this reason, the container comprising the cleaning composition and the water purifier can be used as an integrated recharge unit.
[0005]
In another aspect of the invention, a container suitable for use as a component of a spray device comprising a water purifier and a composition capable of rendering the surface to be treated hydrophilic is described. Applicants have found that a detersive composition that renders the surface hydrophilic rather than hydrophobic provides improved cleaning performance and can be more easily rinsed from the treated surface.
[0006]
(Summary of Invention)
According to the present invention, there is provided a handheld spray device comprising a container (1), a spray head (11), and a water purifier (30), wherein the water purifier is placed inside the cavity of the container. The
In a further aspect of the present invention there is provided a hand-held spray device comprising a container (1), a spray head (11) and a water purifier (30), the water purifier comprising a layered ion exchange bed. .
Yet another aspect of the present invention comprises a container (1), a water purifier (30), and a spray head (11) that facilitates compliance with three or more step cleaning and rinsing processes. A spray device is provided comprising an integrated delivery system designed to do so.
[0007]
In a further aspect of the present invention there is provided a container (1) comprising a water purifier (30) adapted for use with a spray device according to any of the preceding claims and placed inside its cavity.
In yet another aspect of the present invention, there is provided a container (1) comprising a water purifier (30) and a detersive composition designed to render the treated surface hydrophilic and comprising a hydrophilic surface modifying component. .
In a further aspect of the present invention there is also provided a container (1) comprising a water purifier (30) comprising a layered bed of ion exchange resin.
[0008]
(Detailed description of the invention)
The spray device of the present invention is a hard surface such as ceramic, porcelain, enamel, vinyl, no wax vinyl, linoleum, melamine, glass, any plastic, plasticized wood, metal, especially steel and chrome steel, varnished or sealed It can be used to clean surfaces, floors, walls, tiles, windows, and especially automotive exterior surfaces such as painted surfaces, plastic surfaces, glass surfaces, finish coatings, and the like.
[0009]
In a preferred embodiment, the spray device is a hose end venturi system, and therefore it may be preferred that the spray device comprises means for attachment to a conventional garden hose. Optionally, extension fittings can be used to reach high windows or car roofs that are not easily accessible. It is also preferred that the spray device comprises a valve system designed to ensure that the user adheres to a cleaning and rinsing process involving a washing step, an unpurified water rinsing step and a purified water rinsing step. . More preferably, the process includes a rinsing step with unpurified water to pre-wet the surface prior to the cleaning step. The valve system also preferably incorporates a switching system, such as a rotary dial, that allows the user to choose between cleaning, rinsing with unpurified water, and rinsing with purified water. When cleaning is set up, the valve system is set so that water can enter the device from the hose through the water inlet, mix with the cleaning composition in the mixing chamber, and then spray it onto the surface to be cleaned. . The apparatus creates a vacuum by passing water over the top of a means for removing the detersive composition from the container (eg, a dip tube extending into the detersive composition stored in the container) More preferably is a venturi-type system that removes the detersive composition from the container. Thereafter, the cleaning composition and water are sprayed onto the surface to be cleaned. When the switch is moved to the rinse setting, the valve will re-direct the water that has been taken in a different direction from the cleaning composition or water purifier, spray the water onto the surface, and clean the cleaning composition from the surface. Rinse. The switching system can then be brought to the rinse setting position with purified water, allowing water to pass through the purification system before spraying onto the surface. Since the water purifier removes ions and other impurities from the water for rinsing, no water marks or residues remain on the surface sprayed with purified water after drying.
[0010]
container
Although the container 1 of the present invention comprises at least one compartment, it will be envisioned that the container may comprise more than one compartment, preferably even 2, 3, or 4 compartments. The container can be substantially rigid, flexible, or foldable. The container can be made of plastic, glass, metal or alloy, or a combination thereof. More preferably, the container, including all elements of the container, is made of plastic, more preferably a thermoplastic material. Examples of preferred thermoplastic materials include polypropylene (PP), polyethylene (PE), high density polyethylene (HDPE), polyethylene terephthalate (PET), or combinations thereof.
The container 1 is preferably substantially rigid and comprises a top surface 6, a bottom surface 7 and a peripheral side surface 8 that define an internal cavity. It is preferred that the bottom surface 8 of the container comprises a “push-up” that lifts the container surface in contact with the detersive composition, for example, tilts or bends to aid container stability.
[0011]
The container 1 is preferably provided with at least one vent hole. The vent hole serves at least two functions. That is, it functions to release gas generated from the cleaning composition during storage and to balance the pressure in the container after the cleaning composition is taken out. If provided with a vent hole, the vent hole can be at any suitable location on the container wall, but preferably the vent hole is provided on the top surface of the container and is within a plate (described in detail below). It is more preferable to prepare for. In a preferred embodiment, the vent hole is covered, but it is more preferable to provide a check valve. In either case, the cover or valve prevents the composition from flowing through the vent but does not prevent the gas from escaping.
[0012]
In a preferred embodiment, the container comprises a neck portion 2 that defines an opening and provides a mounting position for the spray head. The neck portion 2 can be in any position on any wall of the container, but is preferably on the top surface. The neck can be any suitable shape, but is preferably substantially cylindrical. In one embodiment, the neck portion comprises at least one screw screw or threaded collar 13 that can cooperate with a spray screw screw. In other embodiments, the spray head can be attached to the neck by a groove or protrusion means on the neck that engages at least one corresponding protrusion or groove of the spray head in a removable or non-removable manner. . When the neck portion is provided, the neck portion can be made of any of the materials listed above, but the neck portion is preferably a rigid body. In a preferred embodiment, the container comprises a sealing means such as a cap that cooperates with the neck portion of the container. Alternatively, the sealing means may comprise a plate that is inserted into the neck portion of the container.
[0013]
Optionally, the container comprises at least one gripping means 5. The gripping means 5 can be a handle, for example. The handle may be integral with multiple compartments and / or may be an extension of multiple compartments. Alternatively, the grip means 5 may include a region of the container surface that is deformed so as to be easily gripped by the user. An example of this second embodiment could be a container surface texture that increases friction, for example.
The aforementioned steps used to make the container 1 depend on the size, shape and material of the container to be made. When the container is a rigid body, a suitable manufacturing process can be appropriately selected by those skilled in the art. Such steps include, but are not limited to, blow molding, injection molding, injection blow molding, or extrusion blow molding. If the container is flexible and / or malleable, a suitable manufacturing process can again be selected by those skilled in the art. However, such processes include, but are not limited to, blow molding, extrusion blow molding, and injection molding. In the latter case, the bag, sachet, or pouch can also be manufactured by a forming and sealing process with the rigid neck sealed or integrated at one end of the bag, sachet, or pouch.
[0014]
Spray head
The spray head 11 has several parts such as means 12 for connecting to a hose, attachment means 13 for attaching the spray head to the container, means 15 for removing the cleaning composition from the container, from the spray device A valve system suitable for controlling the water flow, as well as means 25 for operating the valve system, at least one spray nozzle 21 and an operating switch or trigger 24 are preferably provided.
In a particularly preferred embodiment, the spray head 11 is a hand-held hose end spray head and therefore also comprises means 12 for attaching the spray head to the hose. Such attachment means may comprise any conventional known attachment that is commercially available. Preferred attachment means 12 include a threaded hose coupling or a quick release snap fitting.
[0015]
The spray head 11 may be attached to the container using any suitable means such as, for example, a snap fitting, a screw, a bayonet, or a threaded collar fitting. It is preferred that the spray head fits into a threaded collar 13 comprising a screw thread that cooperates with a screw thread on the neck of the container. Alternatively, the spray head may be attached to the container using an interlock or “lock & key” system that allows the valve system in the container and spray head to be easily mated. In a preferred embodiment of the invention, the spray head is attached to the container using both a “key and keyhole” system and a screw collar. In other alternative embodiments, the plate 3 may be inserted into the neck of the container or between the container and the spray head. The plate 3 may be useful as a sealing means to cover the container, holding the cleaning composition in the container until needed and preventing damage to the spray head mechanism. Where the plate 3 is provided, it is preferred that the plate provides a cooperating surface of the “key and keyhole” system, and if it comprises that surface, it cooperates with the surface of the spray head 14. Therefore, in this embodiment, it is also preferable to use the above-described collar mounting system 13 for mounting the spray head to the container.
[0016]
The spray head 11 includes means for removing the cleaning composition from the container 15. The spray head 11 is preferably provided with or attached to a dip tube 15 extending into the cleaning composition. In this embodiment, a vacuum is created by the passage of water taken from a hose passing over the top of the dip tube, which draws the detersive composition from the container and delivers it to the spray head. In a particularly preferred embodiment, the plate 3 can be used to suspend the dip tube 15 inside the container cavity. Alternatively, the captured water can be flowed into the container, mixed with the detersive composition, and then drained out of the container through the same or another opening in the container. Alternatively, the container may be pressurized to extrude the cleaning composition from the container. In this latter embodiment, it is preferred that the container does not have a vent hole.
[0017]
The valve system comprises any system that allows the user to select various settings on the device. It is preferred that the valve system allows the user to easily comply with a defined washing and rinsing process, including at least a washing step, a rinsing step with unpurified water, and a rinsing step with purified water.
[0018]
It is preferred that the valve system comprises three channels that guide the taken water to a means for removing the detersive composition, a water purifier, or directly to the spray nozzle. The valve system has a first flow path 18 that leads the taken water to a means for taking out the detersive composition, a second flow path 19 that leads the taken water directly to the second spray nozzle, and a water purifier for the taken water. It is preferable to provide the 3rd flow path 20 led to. In a preferred embodiment, the valve system includes a rotatable valve core 16 that includes a first flow path 18, a second flow path 19, and a third flow path 20 and is placed in a valve housing 17. The valve core 16 can be selectively rotated so that the first flow path 18 matches the water taken in with the means for taking out the cleaning composition from the container 15, such as the dip tube 15. The pressure of water passing over the dip tube opening creates a vacuum. By vacuum, the detersive composition is sent from the container to the spray head where it is mixed with the water taken up. Next, a mixture of the cleaning composition and water is sprayed from the spray nozzle 21. The valve core 16 can then be rotated to set the second flow path 19 in line with the water that has been taken in when setting the rinsing water that has not been purified. Finally, the valve core 16 can be rotated to match the water that has taken in the third flow path 20 and the water purifier 30. At the time of this water setting for rinsing, the water passes through the water purifier 30 to produce water for rinsing, which is then sprayed through the spray nozzle 23.
[0019]
In an alternative embodiment, the entire valve system, the core 16 and the housing 17 are rotated so that when setting up the wash, between the water taken in and the dip tube, rinsing with clean water and rinsing with unpurified water. At the time of setting, a flow path is provided between the water taken in and the water purifier. The spray head is preferably provided with means for operating a valve system such as a switching dial or switch 25.
[0020]
The spray nozzle defines an orifice from which unpurified water, purified water, and / or a cleaning composition is sprayed. In an alternative embodiment, the spray head comprises two or more spray nozzles for water, water purification, or cleaning compositions alone or in combination. Most preferably, the spray head 11 comprises three spray nozzles: a detersive composition 21, unpurified water 22, and purified water 23. The spray nozzle can further be fitted with a fitting that allows the user to change the spray pattern of the fluid sprayed from the device. Thus, the user can select a fine mist spray, a powerful directing spray, or any pattern in between. Any such fixture known in the prior art that is suitable to accomplish this function can be used herein. It is important and preferred that the spray nozzle can provide the second benefit of controlling the speed of fluid passing through the device. As a result of such control, the amount of detersive composition sprayed can be controlled to ensure that the correct amount of composition is used for each wash. Controlling the flow rate also means that the residence time of water entering the water purifier can be controlled, so that optimized filtration, preferably less than 2 gallons per minute, is possible. Is more preferable.
[0021]
The spray head 11 is also provided with an operation switch 24. When the switch is in the "on" position, the valve is opened to allow water to flow into the apparatus, and when in the "off" position, the valve is returned to its original state. It is preferable to block the flow of incoming water. The valve can be opened electrically, but is preferably opened mechanically. Thus, in a particularly preferred embodiment, the switch comprises a trigger 35, a spring and a plunger 34. The user applies pressure to the trigger 35, which then compresses the spring and pushes the plunger 34 to open the valve. When the pressure is removed from the trigger 35, the spring restores the plunger 34 to its original position and closes the valve. In a preferred embodiment, the switch also includes a lock system 29 that can maintain the switch and valve in the open position until the lock is released.
[0022]
In a preferred embodiment, the spray device, more preferably the spray head 11, comprises a visual indicator that indicates to the user that the device is in various stages of the cleaning or rinsing process. For example, the indicator may emit a signal when spraying the cleaning composition from the device, but it is more preferred that the indicator emit a signal when spraying clean water for rinsing. The visual indicator comprises a light source that becomes bright during operation of a predetermined step or steps. In a preferred embodiment, the visual indicator is the difference in the spray pattern of the fluid exiting the device between a non-clean water spray for rinsing and a clean water spray for rinsing. This is achieved by using different spray nozzles for each of the unpurified water for rinsing and the rinse water settings for rinsing.
[0023]
The aforementioned valve system and spray nozzle are placed in a watertight body. The body can be made using any suitable material, but is preferably plastic, more preferably made of a thermoplastic material, and is preferably rigid. Examples of preferred thermoplastic materials include polypropylene (PP), polyethylene (PE), high density polyethylene (HDPE), polyethylene terephthalate (PET), or combinations thereof. In a preferred embodiment, the body comprises a left segment 27 and a right segment 28 that fit over the left and right sides of the valve system to form an opening for the spray nozzle. The two body segments are then attached together using any suitable means, preferably the segments are screwed together. The spray head 11 is also preferably provided with a handle 26 so that the user can easily grip it. Where the handle 26 is provided, it preferably forms part of the body and incorporates the operation switch 24 and lock 29.
[0024]
Water purifier
The spray device of the present invention also includes a water purifier 30 that is placed in a container cavity in one embodiment. It is preferred that the water purifier 30 is a filter and includes any known filtration material. In a preferred embodiment, the purification material is an ion exchange resin. More preferably, the purification material is a mixture of several ion exchange resins, most preferably a layer of various ion exchange resins. The ion exchange resin is selected from the group consisting of strong acid cation (SAC), strong base anion (SBA), weak acid cation (WAC), and weak base anion (WBA) ion exchange resins. Strong acid or strong base ion exchange resins contain strong acid or strong base functionality. A strong acid or a strong base has a functionality of pKa or pKb greater than 2.5, respectively. The functionality of a weak acid or weak base is defined by a pKa or pKb of less than 2.5, respectively. It may be preferred that the water purifier comprises a random mixture of strongly acidic or strongly basic ion exchange resins. However, in one particularly preferred embodiment, the water purifier comprises a continuous bed design, preferably in this order, of three different ion exchange resins: a weakly acidic, a strongly acidic, and a weakly basic ion exchange resin.
[0025]
SAC ion exchange resin means a resin that filters all cations, including calcium, magnesium, and sodium. Examples of SAC ion exchange resins include, but are not limited to, Rohm and Haas IRN 77, 1500H, and Purlite C100H.
By SBA ion exchange resin is meant a resin that filters all anions, including sulfates, chlorides, carbonates, bicarbonates, and silicates. Examples of SBA ion exchange resins include, but are not limited to, Rohm and Haas 4400OH, and Purlite A400OH.
[0026]
By WAC ion exchange resin is meant a resin that selectively filters hardness ions, as well as other polyvalent and monovalent cations, related to alkalinity. Examples of WAC ion exchange resins include, but are not limited to, Rohm and Haas IRC86, and Purlite C104.
WBA ion exchange resin means a resin that selectively filters strong acid anions such as sulfates and chlorides. Examples of WBA ion exchange resins include, but are not limited to, Rohm and Haas IRA 67, and Purlite A830.
[0027]
In a preferred embodiment, small particle size resin beads are used for higher ion exchange rates. The small particle size resin beads preferably mean beads having a diameter of less than 1.0 mm, more preferably less than 0.6 mm, and most preferably less than 0.4 mm. Small particle size resin beads are believed to provide improved efficiency, since small particle size resins have a fast ion exchange rate. The faster the exchange rate, the more the ion exchange capacity is utilized. In a further preferred embodiment, the filter volume dose is 100 inches. ^Three Suitable for use in handheld devices. In a further preferred embodiment, the volumetric volume of the filter is at least 4 inches. ^Three More preferably at least 6 and most preferably at least 8 in. ^Three It is.
[0028]
In a particularly preferred embodiment, the water purifier comprises a visual indicator that indicates a loss of water purification capacity. In a preferred embodiment, at least one type of resin in the water purifier provides a visual indication. In a particularly preferred embodiment, the visual indicator is given by a change in the color of the resin. Indicators commonly used for acid / base titration can also be used to indicate a loss of resin exchange capacity. Many indicators can be prepared in the form of an indicator by treating the ionic resin with a 0.1% solution of the indicator in 95% ethanol as it is an ion in nature. Typical indicators used include phenolphthalein, thymol blue, and bromocresol green. The indicator color change mechanism in the resin is basically the same as the mechanism in solution during acid / base titration. For example, water trapped in a SAC matrix is inherently very acidic due to hydrogen ions. When hydrogen ions are exchanged and removed, the pH rises slowly. Ultimately, this pH change induces a color change. For example, the transition range of thymol blue is between pH 1.2 and 2.8. Commercially available resins that change color when exhausted include Purolite MB400IND (blue during regeneration, habit when exhausted) and MB400QR (colorless during regeneration, red when exhausted). Many resin manufacturers also dye resins when there is a specific application requirement.
[0029]
In one embodiment of the invention, the water purifier 30 is placed inside the cavity of the container. The water purifier can be placed anywhere within the container. In one embodiment, the water purifier can be placed very proximal from the side 8 of the container or can be attached to the side 8. Alternatively, the water purifier 30 can be molded into the side 8 of the container. In another embodiment, the water purifier 30 can be placed in the neck portion 2 of the container 1 sandwiched between the container neck portion 2 and the spray head 11. In a preferred embodiment of the present invention, the water purifier 30 is suspended inside the container from the plate 3 fixed in the neck orifice of the container 1, and the dip tube 15 can also be suspended from the plate. In this embodiment, the plate 3 provides a cooperating surface for realizing the aforementioned key and keyhole system. The water purification material usually contains small particles of ion exchange resin and must therefore be supported on the support structure or adhered to the inside of the canister 31. In this embodiment, the structure or canister is then suspended from the plate.
[0030]
The water purifier can be any size or shape suitable for this purpose. In a preferred embodiment, the water purifier is sized and shaped to be placed inside the container. In a particularly preferred embodiment, the water purifier is suspended inside the container cavity, wherein the water purifier is substantially cylindrical in shape. In a further preferred embodiment, the water purifier occupies 50% or less of the volume of the container.
The taken water is passed through one end 32 of the water purifier and then collected at the opposite end 33 where the purified water is then sent to the spray head for use in a rinsing step with purified water. In a preferred embodiment, the taken water is initially directed distally to the end of the water purifier, distal from the plate, and moved upward through the water purification material where there is a hole at the proximal end within the plate. Through the valve system and then to the spray nozzle.
[0031]
Detergency composition
The aforementioned containers are designed to store the cleaning composition. In one embodiment of the invention, the container comprises a water purifier and a detergency composition that can render the treated surface hydrophilic. In order to achieve a hydrophilic surface, the composition includes a hydrophilic surface modifying component.
The hydrophilic surface modifying component is preferably a polymer that adheres to the cleaned surface during the cleaning process. The polymer is preferably selected from the group consisting of homo or copolymers and preferably comprises at least one hydrophobic or cationic moiety and at least one hydrophilic moiety. It is preferred that the hydrophobic moiety is an aromatic, C8-18 linear or molecular carbon chain, vinyl imidazole, or propoxy group. The cationic moiety contains a positively charged group or has a positive dipole. The hydrophilic portion can be selected from any portion that forms a hydrogen-bondable dipole. Suitable examples of such hydrophilic moieties include vinyl pyrrolidone, carboxylic acids such as acrylic acid, methacrylic acid, maleic acid, and ethoxyl groups.
[0032]
In a preferred embodiment, the polymer is selected from the group consisting of copolymers of polyvinyl pyrrolidone. A particularly preferred copolymer of polyvinylpyrrolidone is N-vinylimidazole N-vinylpyrrolidone (PVPVI) polymer, commercially available from BASF, for example under the trade name Luvitec VP155K18P. Preferred PVPVI polymers have an average molecular weight of 1,000 to 5,000,000, more preferably 5,000 to 2,000,000, still more preferably 5,000 to 500,000, most preferably 5,000 to 15,000. Preferred PVPVI polymers contain at least 55%, preferably at least 60% N-vinylimidazole monomer. Alternatively, another suitable polymer can be quaternized PVPVI, such as, for example, a compound sold by BASF under the trade name Luvitec Quat 73W.
[0033]
Other vinylpyrrolidone copolymers suitable for use in the compositions of the present invention are quaternized vinylpyrrolidone / dialkylaminoalkyl acrylate or methacrylate copolymers. A quaternized vinylpyrrolidone / dialkylaminoalkyl acrylate or methacrylate copolymer suitable for use in the composition of the present invention follows the formula:
[0034]
[Chemical 1]

[0035]
In the formula, n is 20 to 99 mol%, preferably 40 to 90 mol%, m is 1 to 80 mol%, preferably 5 to 40 mol%, R ₁ Is H or CH _Three Y represents 0 or 1, R ₂ Is -CH ₂ -CHOH-CH ₂ -Or C _x H _2x X = 2-18 and R _Three Represents a lower alkyl group of 1 to 4 carbon atoms, preferably methyl or ethyl, or
[0036]
[Chemical 2]

[0037]
R _Four Means a lower alkyl group having 1 to 4 carbon atoms, preferably methyl or ethyl, and X ^- Is Cl, Br, I, 1 / 2SO _Four , HSO _Four , And CH _Three SO _Three Selected from the group consisting of The polymer can be prepared by the processes described in French Patents 2,077,143 and 2,393,573. Preferred quaternized vinylpyrrolidone / dialkylaminoalkyl acrylate or methacrylate copolymers for use herein have a molecular weight of 1,000 to 1,000,000, preferably 10,000 to 500,000, more preferably 10,000 to 100,000.
[0038]
Such vinyl pyrrolidone / dialkylaminoalkyl acrylate or methacrylate copolymers are commercially available from ISP Corporation (New York, NY, and Montreal, Canada) under the trade name copolymer 845®, Gafquat 734. (Registered trademark), Gafquat 755 (registered trademark), or commercially available from BASF under the trade name Luviquat (registered trademark).
Most preferred herein is a quaternized copolymer of vinyl pyrrolidone and dimethylaminoethyl methacrylate (polyquaternium-11) commercially available from BASF.
[0039]
Another preferred polymer is polyvinyl pyridine N-oxide (PVNO) polymer, for example, available from Reilly. Preferred PVNO polymers have an average molecular weight of 1000 to 2000000, more preferably 5000 to 500000, and most preferably 15000 to 50000.
Average molecular weight ranges are Barth, H, G and Mays, J, W, Chemical Analysis, Vol. 113, “Modern Methods of Polymer Characterization”. As determined by light scattering.
[0040]
The cleaning composition may be, for example, a soil redeposition inhibitor, surfactant, clay, chelating agent, enzyme, hydrotope, ion, foam inhibitor, solvent, buffer, thickener, radical scavenger, It is preferred to include other conventional ingredients of the cleaning composition, including soil suspension polymers, pigments, dyes, preservatives, bactericides, brighteners, UV protectants, rust inhibitors and / or fragrances. A surfactant is a particularly preferred component.
[Brief description of the drawings]
FIG. 1 is a perspective view of a spray device.
FIG. 2 is a front view of the spray device.
FIG. 3 is a plan view of the spray device.
4 is a cross-sectional view of the spray device through AA in FIG. 3;
FIG. 5 is a cross-sectional view of the spray head through AA in FIG. 3;
FIG. 6 is an exploded view of the spray device.

Claims (22)

Comprising a container (1), a water purifier (30), and a spray head (11), said spray head designed to facilitate compliance with three or more separate step cleaning and rinsing processes; A handheld spray device characterized by comprising an integral valve system,
  The spray head (11) defines a water inlet, means (12) for connecting to a hose, attachment means for attaching the spray head to the container, and means for removing the cleaning composition from the container ( 15), a valve system suitable for controlling the water flow through the spray device, and at least one spray nozzle;
  The valve system is
(A) a first flow path (18) that combines a water supply opening and a means for taking out the cleaning composition from the container;
(B) a second flow path (19) for combining the water supply port and the spray nozzle;
(C) A hand-held spray device including at least three flow paths including a water supply port and a third flow path (20) for combining the water purifier. The hand-held spray device according to claim 1, characterized in that it comprises a container (1), a spray head (11) and a water purifier (30), the water purifier being placed inside the cavity of the container. The spray device according to claim 1 or 2, wherein the water purifier (30) contains an ion exchange resin. The spray device according to any one of claims 1 to 3, wherein the water purifier (30) includes a layered floor structure of an ion exchange resin. The spray device according to any of claims 1 to 4, wherein the water purifier (30) comprises two or more ion exchange resins selected from the group consisting of strong acids, weak acids, strong bases, and weak bases. The spray device according to any of the preceding claims, wherein the water purifier (30) comprises a layered floor structure of weakly acidic resin, then strongly acidic resin and finally weakly basic resin. The spray device according to any one of claims 1 to 6, comprising two or more containers. The spray device according to claim 1, wherein the attachment means comprises an interlock surface designed to cooperate with a corresponding interlock surface of the container. 9. The spray head interlocking surface (14) and the container interlocking surface (3) are designed to mate the container opening and the water purifier opening by corresponding holes in the spray head. The spray device as described. 10. A spray device according to claim 8 or 9, wherein the corresponding surface of the container comprises a plate (3) inserted into the opening of the container. 11. A spray device according to any of claims 1 to 10, wherein the means (15) for removing the cleaning composition from the container comprises a tube attached to the spray head and extending into the cavity of the container. The spray device according to claim 1, comprising at least three spray nozzles (21, 22, 23). 13. A spray device according to claims 1 to 12, wherein the spray nozzle has a diameter such that the flow rate through the water purifier is 7.57 liters per minute (= 2 gallons). 14. A spray device according to claim 1-13, wherein the valve system comprises a stationary valve housing, a rotatable valve core positioned within the valve housing, and means for rotating the valve core. The spray device according to any one of claims 1 to 14, wherein the container (1) contains a cleaning composition containing a hydrophilic surface modifying component. 16. A spray device according to claim 15, wherein the hydrophilic surface modifying component is selected from the group consisting of homo- or copolymers, and preferably comprises at least one hydrophobic or cationic moiety and at least one hydrophilic moiety. Cleaning the surface using the spray device according to claim 1 ,
(A) rotating the valve to the first flow path (18) and passing the taken water through the valve and across the opening of the means for removing the cleaning composition to the first spray nozzle When,
(B) rotating the valve to match the second flow path (19) and passing the taken water through the valve to the second spray nozzle;
(C) rotating the valve to match the third flow path (20) and passing the taken water through the valve and sending it to the third spray nozzle through the water purifier. The process of claim 17, wherein the step (b) is performed both before and after the step (a). 19. Process according to claim 17 or 18, wherein the spray device shows a visual indicator when step (c) is effective. The process of claim 19, wherein the visual indicator is a spray pattern difference between step (b) and step (c). Use of a spray device according to any of the preceding claims for cleaning the outer surface of a motor vehicle. A container (1) comprising a water purifier (30) placed inside the cavity and adapted for use with a spray device according to any of the preceding claims.

Images