Patent Publication Number: US-2019193892-A1

Title: Integrated at least two component system and method

Description:
FIELD OF INVENTION 
     The present invention can be used in many fields. However, the current embodiments generally are in the field of coloring hair, and more particularly is in the field of portable, disposable devices for coloring hair re-growth, particularly hair roots, and/or adding highlights and streaks, and methods for coloring hair using such devices. 
     SUMMARY OF INVENTION 
     The invention is an integrated at least two Component system which creates at least one New Mixture and then enables the application of said at least one New Mixture onto at least one Surface. 
     This system contains at least one first Component in a first sealed container and at least one second Component in a second sealed container that is contained within the first Component in the first sealed container. This system enables the mixing of these Components to produce a New Mixture, and then enables the application of this New Mixture to be applied on at least one Surface, and is accomplished via several embodiments described herein. 
     In at least one embodiment an integrated at least two Component system for applying a substance to at least one Surface is comprised of: (A) an outer container made from a flexible material and having a closed bottom and sides and an open top, and the outer container contains at least one first Component; (B) at least one breakable ampoule can be contained within the outer container, and the at least one breakable Ampoule can contain at least one second Component, and whereupon the rupturing, breaking, crushing, and/or squeezing of at least one breakable Ampoule can allow the mixing of at least one first Component with at least one second Component to form a New Mixture; (C) a rotatable applicator valve assembly comprising: a) an applicator subassembly for applying, the New Mixture comprising: i) an applicator nozzle outer first end containing an applicator tip enabling the New Mixture to pass from the interior of the rotatable applicator valve assembly through the applicator tip to the exterior ambient; ii) an applicator nozzle inner second end containing a rotatable first valve cylindrical plate containing a rotatable first valve cylindrical plate hole; b) a stationary second valve cylindrical plate attached to the open top while permitting rotation of the applicator subassembly, and the stationary second valve cylindrical plate contains a stationary second valve cylindrical plate hole, and the rotatable first valve cylindrical plate is capable of rotating when the applicator subassembly is rotated, and the rotatable first valve cylindrical plate hole is capable of aligning at a first aligning angle with the stationary second valve cylindrical plate hole producing a valve open position and allowing the New Mixture to pass from the interior of the outer container into the interior of the rotatable applicator valve assembly when external pressure and/or manual force is applied to the outer container and/or when pressure increases sufficiently within the interior of the outer container, and when the rotatable first valve cylindrical plate hole is not aligned with the stationary second valve cylindrical plate hole the New Mixture is blocked in at least one closed position and prevented from passing from the interior of the outer container into the interior of the rotatable applicator valve assembly; (D) a filter contained within the outer container or the rotatable applicator and valve assembly, and the filter is capable of preventing particulate material from passing from the outer container into the rotatable applicator valve assembly. 
     The filter can he at least one of in whole or in part made from foam, rubber, plastic, metal, screening, mesh, ceramic, cotton, fiberous material. 
     The applicator tip can be at least one of a brush, foam, sponge, a comb, hose, a nozzle, a membrane permitting material transfer and/or diffusion. a. tube or series of tubes. 
     The invention can also have at least one mixing ball and/or at least one other object or solid object within the interior of the outer container. 
     The invention can include at least one additional product and/or hair care product contained in the outer container and/or in at least one ampoule. 
     Applied external pressure and/or manual force and/or mixing can be generated by the act of squeezing, grasping, shaking, and/or other applied pressure, force, mixing the outer container using at least one hand, finger, or other body part alone or in connection with use of at least one tool or other physical object. 
     The opening at top of the at least one outer container may contain integral screw threads capable of mating with complimentary screw threads on attachable devices including but not limited to an attachable and removable rotatable applicator valve assembly to enable the rotatable applicator valve to attach to the open top. 
     The valve in at least one open position and/or at least one closed position can be designated and/or defined by at least one mechanical detent produced at the mating Surfaces of the rotatable first valve cylindrical plate and the stationary second valve cylindrical plate. 
     The Ampoule may further comprise of at least one of a breakable sealed glass container, a housing, at least one breakaway membrane, at least one puncturing and/or piercing edge and/or tooth to puncture at least one breakaway membrane when external pressure and/or manual force is applied to at least one location to the outer container. 
     One method for applying a New Mixture to at least one Surface is comprised of the following steps: A) squeezing the outer container to break an Ampoule contained within the outer container; B) squeezing and massaging the outer container to mix the second Component contained within the Ampoule with the first Component contained within the outer container to create the New Mixture; C) rotating a rotatable applicator valve assembly from at least one closed position to an open position to allow the New Mixture to flow out of the rotatable applicator valve assembly into the applicator tip contained within the rotatable applicator valve assembly. D) squeezing the outer container to force the New Mixture out of the outer container into the applicator tip, and applying the New Mixture to a chosen Surface or hair area; E) if there is any New Mixture remaining in the outer container, the rotatable applicator valve assembly can be rotated from the open position to at least one closed position to prevent any New Mixture from exiting and/or leaking out of the rotatable applicator valve assembly. 
     In at least one second embodiment the filter(s) are secured around the Arnpoule(s). The invention can be an integrated at least two Component system for applying a substance to at least one Surface comprising: (A) an outer container made from a flexible material and having a closed bottom and sides and an open top, and the outer container can contain at least one first Component; (B) at least one breakable Ampoule contained within the outer container, wherein at least one breakable Ampoule contains at least one second Component, whereupon the rupturing and/or breaking and/or crushing and/or squeezing of at least one breakable Ampoule allows mixing of at least one first Component with at least one second Component to form at least one New Mixture; (C) a rotatable applicator valve assembly comprising: a) an applicator subassembly for applying the New Mixture comprising: i) an applicator nozzle outer first end containing an applicator tip enabling the New Mixture to pass from the interior of the rotatable applicator valve assembly through the applicator tip to the exterior ambient; ii) an applicator nozzle inner second end containing a rotatable first valve cylindrical plate containing a rotatable first valve cylindrical plate hole; b) a stationary second valve cylindrical plate attached to the open top while permitting rotation of the applicator subassembly, and the stationary second valve cylindrical plate contains a stationary second valve cylindrical plate hole, and the rotatable first valve cylindrical plate being capable of rotating when the applicator subassembly is rotated, and the rotatable first valve cylindrical plate hole is capable of aligning at a first angle with the stationary second valve cylindrical plate hole to produce a valve open position and thus allowing the New Mixture to pass from the interior of the outer container into the interior of the rotatable applicator valve assembly when external pressure and/or manual force is applied to the outer container and/or when pressure increases sufficiently within the interior of the outer container, and when the rotatable first valve cylindrical plate hole is not aligned with the stationary second valve cylindrical plate hole the New Mixture is blocked in at least one closed position and prevented from passing from the interior of the outer container into the interior of the rotatable applicator valve assembly; (D) a filter surrounding and/or encasing the at least one breakable Ampoule, and the filter is capable of preventing particulate material from passing from the outer container into the rotatable applicator valve assembly. 
     The filter can be at least one of in whole or in part foam rubber, plastic, metal, screening, mesh, cotton, ceramic, fiberous material. 
     The applicator tip can be at least one of a brush, foam, sponge, a comb, a nozzle, a membrane permitting material transfer and/or diffusion, a tube or and/or series of tubes. At least one mixing ball and/or solid object can be contained within the interior of the outer container. 
     The invention can also have at least one additional hair care product contained in the outer container and/or in at least one breakable Ampoule. 
     The external pressure and/or manual force and/or mixing can be generated by the act of squeezing and/or shaking the outer container with at least one human hand, finger or other area, and/or tool. 
     The open top can contain integral screw threads capable of mating with complimentary screw threads on the rotatable applicator valve to enable the rotatable applicator valve (or other device) to attach to the open top. 
     The valve open position and/or at least one dosed position can be designated and/or defined by at least one mechanical &amp;tent produced at the mating Surfaces of or between the rotatable first valve cylindrical plate and the stationary second valve cylindrical plate. 
     The Ampoule can further comprise of at least one of a breakable sealed glass container, a housing, at least one breakaway membrane, at least one puncturing and/or piercing edge and/or tooth to puncture said at least one breakaway membrane when said external pressure and/or manual force is applied to at least one location to the outer container. 
     A method for the second embodiment described above for applying a New Mixture to at least one Surface can comprise the following steps: A) squeezing the outer container to break an Ampoule contained within the outer container; B) squeezing and massaging the outer container to mix the second Component contained within the Ampoule with the first Component contained within the outer container to create the New Mixture; (ii) rotating a rotatable applicator valve assembly from a at least one closed position to an open position to allow the New Mixture to flow out of the rotatable applicator valve assembly into the applicator tip contained within the rotatable applicator valve assembly. D) squeezing the outer container to force the New Mixture out of the outer container into the applicator tip, and applying the New Mixture to at least one Surface and/or chosen hair area; E) if there is any New Mixture remaining in the outer container, rotating the rotatable applicator valve assembly from the open position to at least one closed position to prevent any New Mixture from exiting and/or leaking out of the rotatable applicator valve assembly. 
     A third embodiment of the invention can have a puncture flexible vessel (or Ampoule) and lance system. An integrated at least two Component system for applying a substance to at least one Surface can comprise: (A) an outer container made from a flexible material and having a closed bottom and sides and an open top, and the outer container can contain at least one first Component; (B) a rotatable applicator valve assembly comprising: a) an applicator subassembly for applying a New Mixture comprising: i) an applicator nozzle outer first end containing an applicator tip enabling the New Mixture to pass from the interior of the rotatable applicator valve assembly through the applicator tip to the exterior ambient; an applicator nozzle inner second end containing a rotatable first valve cylindrical plate containing a rotatable first valve cylindrical plate hole; b) a stationary second valve cylindrical plate attached to the open top while permitting rotation of the applicator subassembly, and the stationary second valve cylindrical plate can contain a second valve cylindrical plate hole, the rotatable first valve cylindrical plate being capable of rotating when the applicator subassembly is rotated, and the rotatable first valve cylindrical plate hole is capable of aligning at a first aligning angle with the stationary second valve cylindrical plate he producing a valve open position to allow the New Mixture to pass from the interior of the outer container into the interior of the rotatable applicator valve assembly when external pressure and/or manual force is applied to the outer container and/or when pressure increases sufficiently within the interior of the outer container, and when the rotatable first valve cylindrical plate hole is not aligned with the stationary second valve cylindrical plate hole the New Mixture is blocked and prevented from passing from the interior of the outer container into the interior of the rotatable applicator valve assembly; 
     In this embodiment there are two possible second Component dispensing systems, the first second Component dispensing system being (C 1 ) a flexible vessel with a rupture membrane affixed to one end, and the flexible vessel is contained within the outer container and affixed to the stationary second valve cylindrical plate, and the flexible vessel contains at least one second Component, whereupon the rupturing of the rupture membrane allows mixing of at east one second Component with at least one first Component to form the New Mixture, and the rupture membrane can be ruptured via the axial movement of a puncture lance caused to axially translate as a result of the rotation of the rotatable first valve cylindrical plate relative to the stationary second valve cylindrical plate using a lead screw and a rotation-arresting spline, and the rupturing occurring at a rupture position at a second aligning angle, and the second aligning angle being in at least one valve closed position to prevent material from entering the rotatable applicator valve assembly, and a mixing position at a third aligning angle between the rotatable first valve cylindrical plate relative to the stationary second valve cylindrical plate and the third aligning angle being in at least one valve closed position to prevent material from entering the rotatable applicator valve assembly and retraction of the puncture lance to allow free passage of at least one second Component from the flexible vessel into the interior of the outer container, The second second Component dispensing system being (C 2 ) a rigid containment and release vessel comprising an inner rotating cylinder with an inner rotating cylinder interior compartment and a shaft attachment to the rotatable first valve cylindrical plate and an outer stationary cylinder affixed to the stationary second valve cylindrical plate, and the outer stationary cylinder can contain at least two outer release slots; the inner rotating cylinder can contain at least two inner release slots; the rigid containment and release vessel can be contained below the stationary second valve cylindrical plate and within the the outer container, and the rigid containment and release vessel can contain within the inner rotating cylinder interior compartment at least one second Component, the rigid containment and release vessel being capable of being set to at least one closed position at a second aligning angle wherein at least one second Component contained within the inner rotating cylinder interior compartment cannot escape the inner rotating cylinder interior compartment and at least one first Component and/or the New Mixture contained within the outer container cannot enter the rotatable applicator valve assembly and the rigid containment and release vessel being capable of being set to a mixing position at a third aligning angle wherein at least two outer release slots and at least two inner release slots are aligned and at least one second Component can pass out of the inner rotating cylinder interior compartment and mix with at least one first Component contained within the outer container when external pressure and/or massaging and/or squeezing and/or manual force is applied to the outer container to create the New Mixture and the New Mixture is contained within the outer container and cannot enter the rotatable applicator valve assembly and the rigid containment and release vessel being capable of being set to a valve open position at a first aligning angle wherein at least two outer release slots and at least two inner release slots are aligned and at least one second Component can pass out of the inner rotating cylinder interior compartment and mix with at least one first Component contained within the outer container to create and/or continue to create the New Mixture and the New Mixture contained within the outer container and can enter the rotatable applicator valve assembly when external pressure and/or massaging and/or squeezing and/or manual force is applied to the oiiier container and/or when pressure increases sufficiently within the interior of the outer container. The filter can be at least one of in whole or in part foam, rubber, plastic, metal, screening, mesh, cotton, ceramic, fiberous material. 
     The applicator tip can be at least one of a brush, foam, sponge, a comb, a nozzle, a membrane permitting material transfer and/or diffusion, a tube or and/or series of tubes. 
     The outer container can have at least one mixing ball and/or solid object with the interior of the outer container. 
     The invention can have at least one additional hair care product contained in the outer container and/or in or on at least one portion of the invention. 
     Mixing can occur through the application of external pressure and/or manual force and/or mixing can occur by the act of squeezing and/or shaking the outer container with at least one human hand. 
     The open top can contain integral screw threads capable of mating with complimentary screw threads on the rotatable applicator valve to enable the rotatable applicator valve to attach to the open top. 
     The valve open position and/or the rupture position can occur at a second aligning angle and/or mixing position at a third aligning angle can he designated and/or defined by at least one mechanical detent produced at the mating Surfaces of the rotatable first valve cylindrical plate and the stationary second valve cylindrical plate. 
     A method for the above described embodiment employing the first second Component dispensing system for applying a New Mixture to at least one Surface can comprise the following steps: A 1 ) rotating a rotatable applicator valve assembly from at least one closed position to a rupture position at a second aligning angle to rupture a rupture membrane on a. flexible vessel; B 1 ) rotating the rotatable applicator valve assembly from the rupture position at a second aligning angle to a mixing position at a third aligning angle; C 1 ) squeezing and/or massaging and/or shaking the outer container to mix the second Component contained within the flexible vessel with the first Component contained within the outer container to create the New Mixture; D 1 ) rotating the rotatable applicator valve assembly from the mixing position at a third. aligning angle to a valve open position at a first aligning angle to allow the New Mixture to flow out of the outer container and/or the rotatable applicator valve assembly into the applicator tip contained within the rotatable applicator valve assembly; E 1 ) squeezing the outer container to force the New Mixture out of the outer container into the applicator tip, and applying the New Mixture to at least one Surface and/or chosen hair area; F 1 ) if there is any New Mixture remaining in the outer container, rotating the rotatable applicator valve assembly from the valve open position at a first aligning angle to any closed position to prevent the New Mixture from exiting and/or leaking out of the rotatable applicator valve assembly; or employing the second second Component dispensing system for applying a New Mixture to at least one Surface, a method can comprise the following steps A 2 ) rotating a rotatable applicator valve assembly from at least one closed position to a mixing position at a second aligning angle; B 2 ) squeezing and/or massaging and/or shaking the outer container to mix the second Component contained within a rigid vessel with the first Component contained within the outer container to create the New Mixture; D 2 ) rotating the rotatable applicator valve assembly from the mixing position at a third aligning angle to a valve open position at a first aligning angle to allow the New Mixture to flow out of the outer container and/or the rotatable applicator valve assembly into the applicator tip contained within the rotatable applicator valve assembly; E 2 ) squeezing the outer container to force the New Mixture out of the outer container into the applicator tip, and applying the New Mixture to at least one Surface and/or chosen hair area; F 2 ) if there is any New Mixture remaining in the outer container, rotating the rotatable applicator valve assembly from the valve open position at a first aligning angle to any closed position to prevent the New Mixture from exiting and/or leaking out of the rotatable applicator valve assembly. 
     Although preferred embodiments of the present invention have been described herein it will be understood by those skilled in the art that the present invention should not be limited to the described preferred embodiments. Rather, various changes and modifications can be made within the spirit and scope of the present invention. 
     All of the material in this patent document issue subject to copyright protection under the copyright laws of the United States and other countries. The copyright owner has no objection to the facsimile reproduction by anyone of the patent document or the patent disclosure, as it appears in official governmental records but, otherwise, all other copyright rights whatsoever are reserved. 
    
    
     
       BRIEF DESCRIPTION OF DRAWINGS 
         FIG. 1  shows a cross-sectional representation of one embodiment of the invention. 
         FIG. 2  shows a cross-sectional representation of a valve in a closed position and the same valve in an open position. 
         FIG. 3  shows a cross-sectional representation of one embodiment of a Ampoule with a jacketed filter. 
         FIG. 4  shows a schematic representation of a bottom view of the rigid containment release vessel in the closed position, the mixing position, and the open position. 
     
    
    
     COMPONENTS 
     
         
           17  jacketed filter 
           18  open top contains integral screw threads 
           19  end 
           20  outer container 
           21  rotatable applicator valve assembly 
           22  applicator tip 
           23  ampoule 
           24  second component 
           25  first component 
           26  rotatable first valve cylindrical plate 
           27  rotatable first valve cylindrical plate hole 
           28  stationary second valve cylindrical plate 
           29  stationary second valve cylindrical plate hole 
           30  filter 
           31  at least one closed position 
           32  valve open position 
           33  New Mixture 
           34  interior portion of the rotatable applicator valve assembly 
           40  rigid containment and release vessel 
           41  inner rotating cylinder 
           42  IRCslot 1   
           43  IRCslot 2   
           44  inner rotating cylinder interior compartment 
           45  shaft attachment 
           46  outer stationary cylinder 
           47  OSCslot 1   
           48  OSCslot 2   
           60  at least one closed position at a second aligning angle (top valve closed, cylinder valve closed) 
           61  mixing position at a third aligning angle (top valve closed, cylinder valve open) 
           62  valve open position at a first aligning angle (top valve open, cylinder valve open) 
           76  flexible vessel—not shown in drawings 
           78  rupture membrane—not shown in drawings 
           80  puncture lance—not shown in drawings 
           82  lead screw—not shown in drawings 
           84  rotation-arresting spleen—not shown in drawings 
       
    
     DETAILED DESCRIPTION OF DRAWINGS 
       FIG. 1  shows a cross-sectional representation of one embodiment of the invention. Shown is the outer container  20 , which can be a flexible container that can be pressed, manipulate, and/or compressed by squeezing manually. At the bottom of the outer container  20  is the end  19  and at the top is located the open top contains integral screw threads  18  where the rotatable applicator valve assembly  21  attaches. Within the outer container  20  is located the first component  25  and within the first Component  25  is the Ampoule  23  in which is contained second Component  24 . When the outer container  20  is manually compressed it is possible to break and shatter the Ampoule  23 , thus releasing the second Component  24  into the colorant  25 . When squeezing by hand the outer container  20  the second Component  24  is mixed into the colorant  25  to produce a New Mixture  33 , not shown but described as the result of this mixing process. The rotatable applicator valve assembly  21  screws into and is locked within the open top contains integral screw threads  18 . The rotatable applicator valve assembly  21  is composed of a rotatable first valve cylindrical plate  26  containing a rotatable first valve cylindrical plate hole  27  and a stationary second valve cylindrical plate  28  containing a stationary second valve cylindrical plate hole  29 . At the top end of the rotatable applicator valve assembly  21  is the applicator tip  22  from which the New Mixture  33  emanates and is selectively applied to desired locations to color hair. Also show is filter  30 , which prevents particulate material from the breaking of Ampoule  23  from entering the rotatable applicator valve assembly  21 . 
       FIG. 2  shows a cross-sectional representation of a valve in at least one closed position  31  and the same valve in an valve open position  32 . At least one closed position  31  shows the rotatable first valve cylindrical plate hole  27  located in the rotatable first valve cylindrical plate  26  misaligned with the stationary second valve cylindrical plate hole  29  located in the stationary second valve cylindrical plate  28 , thus preventing New Mixture  33  from entering the interior portion of the rotatable applicator valve assembly  34  depicted in  FIG. 1 . This is a mirror image of the valve alignment position shown in  FIG. 1 , and shown for example of the valve theory operation only. Valve open position  32  shows the rotatable first valve cylindrical plate hole  27  located in the rotatable first valve cylindrical plate  26  aligned with the stationary second valve cylindrical plate hole  29  located in the stationary second valve cylindrical plate  28 , thus allowing New Mixture  33  to enter and fill the interior portion of the rotatable applicator valve assembly  34 , and subsequently saturate and exit the applicator tip  22  for application to selective portions of hair for coloring with the New Mixture  33 . There can also he detents (not shown) which can designate and/or define the various open and/or closed and/or other positions in other embodiments, and these detents can be produced at the mating Surfaces of the rotatable first valve cylindrical plate  26  and said stationary second valve cylindrical plate  28 . 
       FIG. 3  shows a cross-sectional representation of one embodiment of a Ampoule with a jacketed filter. Shown is the Ampoule  23  filled with second Component  24  as could be depicted in  FIG. 1 . However in this embodiment, the filter  30  of  FIG. 1  is omitted and replaced with a jacketed filter  17  located around the Ampoule  23 . 
       FIG. 4  shows a schematic representation of a bottom view of the rigid containment release vessel  40  in at least one closed position at a second aligning angle  60  or the closed position, the mixing position at a third aligning angle  61  or the mixing position, and the valve open position ata first aligning angle  62  or the open position. 
     A rigid containment and release vessel  40  is constructed from an inner rotating cylinder  41  and an outer stationary cylinder  46 . The outer stationary cylinder  46  is connected to stationary second valve cylindrical plate  28  and remains in a fixed position relative to the outer container  20  shown in  FIG. 1  but the outer container  20  is not shown in  FIG. 4  for clarity. The inner rotating cylinder  41  is connected via shaft attachment  45  to rotatable first valve cylindrical plate  26 . Rotatable first valve cylindrical plate  26  is located directly behind stationary second valve cylindrical plate  28 . Rotatable first valve cylindrical plate  26  has rotatable first valve cylindrical plate hole  27  which can either align. or misalign with stationary second valve cylindrical plate hole  29  located on the stationary second valve cylindrical plate  28 . 
     Inner rotating cylinder  41  has within the cylinder wall a pair of slots IRCslot 1   42  and IRCslot 2   43 , and these slots can either align or misalign with slots OSCslot 1   47  and OSCslot 2   48  located within the cylinder wall of outer stationary cylinder  46 . When the slots are aligned, the second Component  24  can pass through the slots and mix with first Component  25  located within outer container  20 . in this embodiment there are two simultaneous valve functions occurring: the passage or blockage of material between the inner rotating cylinder interior compartment  44  and the outer container  20  (depending on the orientation of slots IRCslot 1   42  and IRCslot 2   43  with slots OSCslot 1   47  and OSCslot 2   43 ) and the passage or blockage of material between the inner compartment  20  and the rotatable applicator valve assembly  21  (depending upon the relative positions of the rotatable first yalve cylindrical plate hole  27  and the stationary second valve cylindrical plate hole  29 . Both valves are operated simultaneously via the movement of rotatable first valve cylindrical plate  26  relative to stationary second valve cylindrical plate  28 . The three valve positions are elucidated as follows: 
     At least one closed position at a second aligning angle  60 , which could be considered the shipping position, shows slots IRCslot 1   42  and IRCslot 2   43  located on inner rotating cylinder  41  in a misaligned position relative to slots OSCslot 1   47  and OSCslot 2   48  located on outer stationary cylinder  46 , thus keeping second Component  24  trapped within the inner rotating cylinder interior compartment  44 . Simultaneously, rotatable first valve cylindrical plate hole  27  on rotatable first valve cylindrical plate  26  is misaligned with stationary second valve cylindrical plate hole  29  located on stationary second valve cylindrical plate  28 , thus preventing any material or New Mixture  33  from entering the rotatable applicator valve assembly  21 . 
     Next is shown mixing position at a third aligning angle  61 , where IRCslot 1   42  is aligned with OSCslot 1   47  and IRCslot 2   43  is aligned with OSCslot 2   48  and thus second Component  24  can now pass freely between the slots and can mix with first Component  25  to create New Mixture  33 , which can occur via the manual action of or force applied and/or squeezing and/or shaking of the outer container  20 . During this mixing function there is misalignment between rotatable first valve cylindrical plate hole  27  and stationary second valve cylindrical plate hole  29 , and thus no New Mixture  33  can pass through these two holes and enter the rotatable applicator valve assembly  21 . 
     Once mixing is complete, the rotatable applicator valve assembly  21  can be rotated to valve open position at a first aligning angle  62 . in this position, because the rotatable first valve cylindrical plate  26  has rotated 180 degrees, IRCslot 1   42  is aligned with OSCslot 2   48  and IRCslot 2   43  is aligned with OSCslot 1   47 , so the inner rotating cylinder interior compartment  44  is still open and residual concentration of the second Component  24  can continue to me mixed with the first Component  25  and New Mixture  33  can fill outer container  20 . And in this position rotatable first valve cylindrical plate hole  27  is aligned with stationary second valve cylindrical plate hole  29  and New Mixture can pass from the outer container  20  into the rotatable applicator valve assembly  21 , the applicator tip  22 , and New Mixture  33  can be applied to a Surface which can he hair or any other Surface. 
     DEFINITIONS 
     
         
         Ampoule—a sealed glass or plastic capsule or vessel containing a liquid, usually of certain measured quantity ready for use. 
         Component: A component can be at least one of in whole or in part a solid, liquid, gas, suspension, colorant, hair colorant, dye, ink, fluorescing material, adhesive, cement, glue, plastic, sculpting material to build up a surface three-dimensionally, plaster, rubber and/or synthetic rubber, a cleaning solution, medication, medicine, mixture, element, compound, formula, a catalyst, hydrogen peroxide, ammonia, a binder, accelerant, coagulant, and/or other known or unknown catalyst. 
         At least one first component: can be at least one component. 
         At least one second component: can be at least one component. 
         New Mixture: A new mixture can be a coloring mixture, a hair coloring mixture, semi-permanent hair coloring mixture, permanent hair coloring mixture, at least one first component mixed with at least one second component. 
         Surface: At least one surface is hair and/or a portion thereof, any surface and/or a portion thereof upon which a mixture and/or new mixture and/or component and/or material can be applied 
         Substance: A substance is at least one of at least one component, a mixture, a new mixture. 
         As used herein, the term “and/or,” when used in a list of two or more items, means that any one of the listed items can be employed by itself, or any combination of two or more of the listed items can be employed. For example, if a device is described as containing components A, B, and/or C, the composition can contain A alone; B alone; C alone; A and B in combination; A and C in combination; B and C in combination; or A, B, and C in combination.