Source: http://patents.com/us-9707582.html
Timestamp: 2018-11-13 07:52:36
Document Index: 152519751

Matched Legal Cases: ['art 6', 'art 6', 'art 6', 'art 6', 'art 6', 'art 6']

US Patent # 9,707,582. Spray dispenser for plural components - Patents.com
United States Patent 9,707,582
Brugger July 18, 2017
Spray dispenser for plural components
For creating a simplified and cost effective spray dispenser for plural components, in particular for an adjustable dispenser having a compact design, wherein outlet openings are provided at a respective supply channel each having a pump unit for each component, it is proposed to form the respective supply channel (4a, 4b) as straight element at manufacturing (FIG. 8), especially by injection molding and then bend it into a curved form on assembly (FIG. 9) in the spray dispenser (1).
Family ID: 1000002710762
13/892,146
US 20140061239 A1 Mar 6, 2014
May 12, 2012 [DE] 20 2012 004 644 U
Current CPC Class: B05B 11/3085 (20130101); B05B 11/3083 (20130101); B05B 11/3084 (20130101); B65D 81/32 (20130101); B65D 83/00 (20130101)
Current International Class: B67D 7/70 (20100101); B05B 11/00 (20060101); B65D 83/00 (20060101); B65D 81/32 (20060101)
Field of Search: ;222/135,144.5,321.1,134,137,309,267,282,283,287,144 ;251/353
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1. An adjustable spray dispenser for plural components with mutually adjacent outlet openings for the components, wherein the outlet openings are provided at a respective supply channel each having a pump unit for each component, wherein a pump head is disposed between the pump unit for each component and the respective supply channel wherein each respective supply channel is straight at manufacturing and is bent along a length thereof on assembly such that the supply channel is in a curved mounting position so as to place the outlet openings close together and oriented in parallel to each other in the spray dispenser, wherein each supply channel has a masking plate having a detent for a locking arrangement with an arched bracket for defining the supply channel in the curved mounting position and wherein each supply channel and adjacent components, namely the masking plate, the detent and the arched bracket are formed as an injection-molded, integral, single-piece part together with the respective pump head.
2. The spray dispenser according to claim 1, wherein each of the supply channels comprises an integrally formed spring web.
3. The spray dispenser according to claim 1, wherein the pump head has a radial projection and wherein the radial projection is opposite to a stepped or coiled adjuster part in a concentric arrangement.
4. The spray dispenser according to claim 3, wherein the adjuster part is located between the pump units and pump heads.
5. The spray dispenser according to claim 3, wherein the adjuster part has a knurling on a periphery and an actuating push-button being essentially flush thereto.
The invention relates to a spray dispenser for plural components, in particular for an adjustable dispenser, according to the features of the preamble of claim 1.
Spray dispensers are often used for cosmetics, such as perfumes to which a care component is added, wherein the outlet openings for the two (or more) components are close together, so that the spray cones overlap, thus mixing the product on application f. i. to the skin. A disadvantage is that the supply ducts are relatively complicated to produce with its two (or more) subtle channels. Further, the outlet openings should be aligned as parallel as possible to allow a high degree of overlap of the spray cones for mixing. However, the pump units are symmetrically arranged and spaced a few centimeters, such that for a parallel alignment of the outlet openings, the feed channels must be bent. This complicates the production in addition, as the fine passages are not very precisely shaped and the molded part is hard to demold, unless particularly complicated molds are used.
Thus, the invention is directed to a spray dispenser for multiple components, avoiding the mentioned disadvantages, in particular to create a simple, cost-effective and compact design.
This object is achieved by means of a spray dispenser having the features of claim 1. Advantageous embodiments are the subject of dependent claims.
The proposed design of the supply channels offers a precise formation of the fine passages of the respective feed channels on manufacturing by injection molding or a similar production technology. Further, easy demolding (out of the mold) is achieved, even with a simple tool structure. In addition, a close arrangement of the outlets and their parallel orientation is possible, which leads not only to a compact design, but also a good overlap of the spray cones and thus mixing results. The assembly of the initially straight feed channel to the bent position can be done very simple, in particular with a notch and an arched bracket.
Preferably, the outlet openings are disposed on slides or masks which are produced together with the respective pump head and the adjoining components and in one piece as injection-molded part, so that manufacturing advantages coincide with inexpensive manufacture.
Further, a radial projection can be provided at each pump head, which in turn is preferably manufactured as an integral molded part. This respective projection is arranged below an adjuster part to press on the corresponding pump unit when operating a push button. This can be done simultaneously so that a mixing ratio of two components is 1:1. The operation can also be effected by different height positioning of the protrusion and/or of the adjustment to a time lag, so that different mixing conditions result, as described in DE 20 2009 014 316. The adjuster part is preferably disposed between the pumping units, so that a particularly compact design of the spray dispenser is achieved. This is supported by the (nearly) flush arrangement of the adjuster part in the actuating button.
An embodiment of the spray dispenser is described by reference to the drawings, showing:
FIG. 1 is a front view of a spray dispenser;
FIG. 2 is a side view of the spray dispenser;
FIG. 3 is a sectional view taken along the section line A-A in FIG. 2;
FIG. 4 is a perspective view of the spray dispenser;
FIG. 6 is another plan view without operating knob;
FIG. 7 is a detailed rear view;
FIG. 8 four views of a supply channel in straight manufacturing state, and
FIG. 9 four views of the supply channel in curved mounting condition.
FIG. 1 shows a spray dispenser 1 in front view as used for applying two-component products, for example cosmetic products consisting of two or more components. These components are extracted from cartridges 1a, only shown schematically, and are pumped by a respective pump unit 1b, wherein the two components pass through separate feed ducts or supply channels 4a and 4b (cf. FIG. 4) to outlet openings 3a and 3b. These are arranged adjacent to each other and preferably oriented in parallel to one another in order to achieve an overlap of the spray cones, when an actuator, here a sleeve-shaped press button 7 is pressed. The actuating stroke of about 1 cm can be derived from a window around the outlet openings 3a and 3a in FIG. 1.
FIG. 2 is a side view, being rotated 90.degree. with reference to FIG. 1, wherein further to the push button 7 an inserted adjuster part 6 is visible (cf. FIG. 4). FIG. 3 is a sectional view taken along the section line A-A in FIG. 2. This shows the arrangement of the cartridges 1a for the two components and the two pump units 1b which are enclosed by the push button 7. This results in a compact design and easy assembly.
FIG. 4 shows a perspective view, wherein the pushbutton 7 is removed or not mounted. The component out of the front cartridge 1a is supplied from the pump unit 1b and the pump head 1c via the feed or supply channel 4a to the outlet opening 3a. In an analogue way the second component (here out of the rear cartridge) is conveyed via the supply channel 4b to the outlet opening 3b, which is arranged together with the other discharge opening at a slide or masking plate 4d. The outlet openings 3a, 3b may also comprise additional spray inserts in order to achieve an intensive mixing of the components by means of superimposed spray cones. This perspective view shows the compact arrangement of the adjuster part 6 between the two pump units 1b and the plugged-on pump heads 1c as well as the knurling on the periphery of the adjuster part 6. By rotating this adjuster member 6 about the vertical axis, the mixing ratio of the components can be changed, f. i. starting from a 50:50 to a 70:30 mixture ratio. This can be achieved in a simple and ergonomic manner, as the adjuster 6 is inserted into the actuating push button 7 largely aligned or flush, as shown in FIG. 5.
FIG. 6 shows a plan view, again without the press button 7 in order to illustrate the course of the supply channels 4a and 4b to the corresponding outlet openings 3a and 3b. Here again, the compact arrangement of the adjuster part 6 is shown, whereas FIG. 7 (above) is a corresponding rear view in order to explain the function of the adjuster part 6. This element has in the lower region, directed to the pump units 1b, stepped extensions which are preferably arranged concentrically, each cooperating with a projection 5 at the pump head 1c. Here the left-hand projection 5 is longer in the radial direction and acts together with the internal "stepped ring" while the right projection 5 is shorter and cooperates with the outer "stepped ring" of the adjuster part 6. When these "stepped rings" are rotated around the vertical axis, a time-delayed actuation of the pump units 1b results (on or during pressing of the push button 7), and thus a different mixing ratio (except for the central position with simultaneous pumping operation).
FIG. 8 and FIG. 9 illustrate the design of the supply channels 4a, 4b, wherein FIG. 8 shows the supply channel 4b in the production state, while FIG. 9 is the assembly or installation condition thereof. The reference numbers are analogous, and this also applies to the supply channel 4a. The outlet opening 3b and the projection 5 can be seen in the upper left-hand drawing. At the right hand, rotated 90.degree., a spring web 4c is shown below the supply channel 4b (cf. perspective view below) and being integrally formed, in particular by injection molding. The same applies to the masking plate 4b, which also has a detent 4f, as shown in the left plan view thereof. Thus, on manufacturing the supply channel 4b is linear and thus easily demolded and can be bent towards an arched bracket 4e to be locked by the detent 4f (cf. analogous representation in FIG. 9, bottom left). Thus, the elements of FIG. 8 and FIG. 9 form an integral, inexpensive part, preferably injection-molded, to be easily assembled.
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