NL1015223C2 - Surface treatment device, especially for polishing shoes, applies a liquid containing separate components for giving good shine and distributing liquid over the surface - Google Patents

Abstract

The liquid applied to a surface contains at least one component for giving the surface a good shine and at least one component for distributing the liquid over the surface. A device for treating a surface, especially the upper surfaces of leather shoes, with a liquid, comprises a container (1) with a reservoir (9) for the liquid and a sponge (6) for receiving liquid from the reservoir and spreading it over the surface. The liquid contains at least one component for giving the surface a good shine and at least one component for distributing the liquid over the surface.

Description

Title: Device for working a surface, in particular of a leather surface, such as that of leather shoes.

The present invention relates to a device for working a surface, in particular of a leather surface, such as, for example, the top surface of leather shoes, with a liquid substance, provided with a container with a reservoir for this substance and with a spongy body, through which the substance contained within the reservoir herein can be spread on the surface.

Such a device is known in a form in which it is suitable for polishing and polishing shoes. The liquid substance is sucked up by the sponge-like body and the substance sucked up therein is applied to the surface to be processed when the sponge-like body is pressed and spread over it.

In order to make the surface to be treated shine, to protect, to make it more durable, to relax, to color, etc., the substance in the reservoir according to the invention comprises at least one leather-shining first component, as well as at least one second component having the substance spreading properties over the leather surface.

In a concrete embodiment, the first component consists of a polydimethylsilidone with a relatively high viscosity, preferably greater than 5000 mm2sec1, in particular greater than 10000 mm2sec * 1, and the second component, whether or not amino-functional, polydimethyl silicone with a relatively low viscosity, preferably less than 5000mm2sec1, especially less than 2000mm2sec1. By the combination of these two components it appears that great gloss uniformity and glass durability can be obtained. A non-reactive amino-functional polydimethyl silicone can be added to the substance as a third component. In particular, amino-functional polydimethylsilicone further contributes to the 1 0 15 £ 3 2 adhesion of the substance to the leather. Therefore, it appears that this addition provides great gloss uniformity and gloss durability. The viscosity of the substance in the reservoir in this application will be in the interval 500-9000 mm2sec1. The viscosity should not be so high that the liquid substance is applied in too thick a layer; likewise, the viscosity should also not be so low that the desired gloss of the leather cannot be obtained. The choice of viscosity is further tailored for easy transportation of the substance from the reservoir to and through the sponge-like body.

A pigment may be used to provide the working surface with a coloration. Hence, according to a further aspect of the invention, a pigment, in particular a water-dispersible pigment, is arranged in the sponge-like body, preferably at the bottom of the space in the sponge-like body, where a collection chamber is located, or in a collection chamber itself. It has been found that this pigment, in particular the water-dispersible pigment, can be sufficiently transported by the liquid oily substance from the reservoir to the outer surface layer of the spongy body. As a result of this addition, a coloring can be applied to the surface to be processed simultaneously with the application of a gloss.

The pigment can be dispersed in the substance contained in the reservoir. For example, a pigment dispersed in a polar solvent, such as an alcohol or an ether, especially a glycol ether, may be added to the substance in the reservoir. It is also possible to add a pigment dispersed in an a-polar solvent, such as white spirit, to the substance in the reservoir.

In order to indicate which color of pigment is applied to the surface to be processed by and / or with the aid of the substance in the reservoir, a dye 30 representative of the color of the pigment can be added to the substance in the reservoir. For example, a colorant dissolved in the aforementioned polar or nonpolar solvents may be added to the substance in the reservoir.

The viscosity of the substance is largely determined by the specific construction of the device according to the invention. In a preferred embodiment, between the reservoir and the spongy body, at least one receiving chamber is provided with an inflow opening communicating with the reservoir, which inflow opening is closed in the rest state of the device and can be opened during movement of the spongy body with respect to a plane with which this body has been brought into contact, and wherein the substance is absorbed into the spongy body from the receiving chamber in a delayed manner. In order to prevent the liquid substance from experiencing too great a resistance on its way from the reservoir to the sponge-like body, but it can still be easily brought out of the sponge-like body during a movement of the sponge-like body with respect to a working surface. on the one hand, the viscosity of the substance is sufficiently low that the substance can pass the inflow opening and, on the other hand, it is sufficiently high that the substance does not leak out of the sponge-like body if no force is exerted on it. Preferably, the viscosity of the substance is between 1000 and 20000 mm2sec1, in particular between 5000 and 12000 mm2sec1. Since the problem may arise that with a specifically desired composition of the liquid substance a suitably selectable viscosity is not quite possible, it is favorable when the substance undergoes a viscosity change after it has flowed out of the receiving chamber. Especially when the substance contains an active component with a relatively high viscosity, preferably greater than 5000 mm2sec1, in particular greater than 10000 mm2sec1, and an auxiliary component with a relatively low viscosity, preferably less than 5000 mm2sec1, in particular smaller than 2000 mm 2 sec 1, it becomes possible that evaporation of the auxiliary component in the spongy body increases the viscosity of the substance herein to prevent leakage from the spongy body, while the viscosity of the substance in the reservoir is nevertheless low enough to easily pass the collection chamber. Incidentally, a resistance in the spongy body to prevent a leakage of substance therefrom can also be realized by narrowing the pores of the spongy body; however, this does not benefit the operation of the device according to the invention.

The invention will now be explained in more detail with reference to the appended drawing. Herein shows:

Fig. 1 a first embodiment of a device according to the invention;

Fig. 2 a second embodiment of such a device; and FIG. 3A, 3B and 3C show part of the device in Fig. 2 during successive steps in the use of this device.

In the figures, corresponding parts are indicated by like reference numerals. 1 2 3 4 5 6 7 8 9 10 11 10

The device according to the invention, as shown in Fig. 1, comprises a container 1, which is built up from a lower box-shaped part 3 and an upper lid-shaped part 3. Both parts 2 and 3 are rectangular in shape. The bottom edge 4 of the lid-shaped part 3 is closed with a carrying element 5. A sponge-like body 6 is arranged on the underside of this carrying element 6. The lid-shaped part 3 with 7 the support element 5 and the spongy body 6 form a whole which fits on 8 and in the box-shaped part 2, the sponge-like body 6 being in 9 the box-shaped part when the lid-shaped part is on the box-shaped part placed and clamped. When the device 11 according to the invention is put into use, this assembly 5 of lid-shaped part, carrying element and sponge-like body is taken from the box-shaped part.

The support element 5 has a lower-lying annular part 7 on which the sponge-like body is fixed, in particular glued, and a higher part 8, which delimits a reservoir 9 for a liquid substance. The top of this reservoir is formed by an upwardly protruding part 10 of the lid-shaped part 3. This upwardly protruding part 10 forms a window of a transparent material, so that it can be determined from the top of the device whether the reservoir 9 is still is filled with liquid substance. Furthermore, the support element 5 comprises two hollow cylindrical parts 11 which extend vertically from the reservoir 9 into openings 12 of a hollow space in the sponge-like body 6. The reservoir 9 communicates via openings 13 with a space 14 in the cylindrical parts 11; furthermore, the reservoir is completely closed by the support element S. The said space 14 in the cylindrical parts 11 forms the access to a collection chamber 23 'for the liquid substance from the space 14. The collection chamber 23' is formed here by the lower part of the aforementioned hollow space in the spongy body 6.

The hollow spaces in the sponge-shaped body 6 are in the form of a cylindrical bore with a spherical tapering bottom end 15. In such a bore a dosing element 16 extends almost to this bottom end 15. The dosing element 16 is fixed at the top on a The projecting part 17 of the support element 5 between the openings 25 13. The dosing element 16 is provided more downwards with a sealing element 18 in the form of a frusto-conical surface which, in the rest state, abuts against the inside of a corresponding hollow cylindrical part 11 and a inflow opening 19 to the receiving chamber 23 'present below. The dosing element 16 is somewhat compliant, in the sense that the dosing element 16 can be moved all the way back and forth in the lateral direction 1 2 2 3 6. Such a movement can be realized by moving the sponge-like body 6 back and forth with the bottom surface against a contact surface; as a result of the deformation in the sponge-like body 6, the lower ends 15 of the bores are moved to and fro and thus also the dosing elements 16. In such a reciprocating movement, the inflow opening 19 is released on one side and the contents of the space 14 in the receiving chamber 23 'flow at the bottom of the bore and are subsequently received by the spongy body 6 with a certain delay.

By already introducing a certain amount of liquid substance into the spongy body 6 in advance, a layer of liquid substance can also be applied directly to a surface to be processed by the first time or the first times that the device is used. to move this back and forth with the spongy body while applying a certain pressure. The liquid substance is thereby pressed out of the sponge-like body, after which, as soon as the pressure is released or the device is no longer used, the liquid substance collected during the reciprocation of the sponge-like body in the collecting chamber 23 ', 20 through the sponge-like body included. In this way, under a certain delay, a very even distribution of liquid substance in the spongy body is continuously obtained until finally the reservoir 9 is empty. The thickness, density and structure of the sponge-like body is such that between the outflow of the liquid substance through the inflow opening 19 and the outer surface layer of the sponge-like body 6 reaching through this substance there is a time delay corresponding to with at least the time between two and preferably at least six consecutive times that the device has been used. This ensures that, even if the reservoir is just empty, the device can still be used a few times until virtually all substance in the sponge-like body has also been used up. A small amount will always remain in the spongy body.

The preferred embodiment in Figs. 2 and 3A-C differs from the embodiment in Fig. 1 in the design and functioning of the receiving chamber and the dosing element. The cylindrical parts 11 extend less far into the respective bores in the sponge-like body 6, but are provided on the underside with a bush-shaped part 20 which extends approximately conically in the form of a downwardly to a constriction 10 through which a dosing element 21 extends close to the bottom end 15 from a bore. Here, the conical surface 22 of a sleeve-shaped part 20 forms a boundary of the collecting chamber 23, the outflow opening 24 of which, in the form of an annular gap, forms a permanent connection between a respective collecting chamber 23 and a space at the bottom of the bore in the sponge-like body 6. Here, too, the collection chamber 23 is entirely located in the spongy body 6. The dosing element 21 is provided at the top with a widening 25 with a cylindrical engaging element 26 for a spring 27, which acts between the support element 5, in the part thereof around the openings 13, and the dosing element 21. On the at the bottom of the widening 25 there is a sleeve-shaped element 28 which is open at the bottom. The sleeve-shaped element 28 and the widening 25 form the upper boundary of the receiving chamber 23. In the rest position, the spring 27 holds the dosing element 21 in the lower position, this is the position 25 in which the sleeve-shaped element 28 rests against the conical surface 22 and the inflow opening 29 of the receiving chamber 23 between the sleeve-shaped element 28 and the conical surface-shaped portion 22 is closed. A vent opening 30 is provided in the conical surface-shaped portion 22, which connects the receiving chamber 23 to the space at the bottom of the relevant bore in the sponge-like body 6.

i 0 15 2 2 3 8

The operation of the device shown in Fig. 2 will be explained with reference to Figs. 3A-C. In these figures, the dosing mechanism for only one opening in the sponge-like body 6 is shown. Fig. 3A shows the state of rest, in which the spring 27 holds the dosing element 21 in its lower position and the receiving chamber 23 is empty and closed at the top. Via the openings 13, the space 31 above the dosing element 21 is filled with the liquid substance from the reservoir 9. In Fig. 3B, sponge-like body 6 is shown in the position in which it is compressed on a surface to be processed. By such a compression, the dosing element 21 in contact with the lower end 15 of the bore in the spongy body 6 is moved upwards against the action of the spring 27 and the inflow opening 29 of the receiving chamber 23 is released, so that the latter is filled with the liquid substance from the space 31. As soon as the pressure on the sponge-like body 6 is released, the dosing element 21 will move down under the influence of the spring 27 and the collection chamber 23 is closed at the top again. This situation is depicted in Fig. 3C. As already mentioned before, the collecting chamber 23 is in a permanently open connection via the gap 24 to the space at the bottom of the bore in the sponge-like body 6. Because the inflow opening 29 of the collecting chamber 23 is much larger than the outflow opening 24 (see fig. 3B), the collection chamber is filled very quickly and hardly any liquid substance can creep away through the outflow opening 24. In the subsequent times when the device is not in use, the defined amount of liquid substance in the receiving chamber 23 can be received by the sponge-like body 6 via the outflow opening 24 and the space at the bottom of the bore. By incorporating a defined amount into the spongy body each time, compared to the embodiment of Fig. 1, better control of the liquid substance flow through the spongy body is obtained. The i k. 2 2 3 9 further mode of operation of the device according to fig. 2 and 3A-C is the same as that of the embodiment in fig. 1.

The dimensioning of the collecting chamber 23 and the dimensions of the inflow and outflow opening 29 and 24, respectively, as well as the thickness, density 5 and structure of the sponge-like body 6 must be adapted to the viscosity of the liquid substance. The concrete design of the device according to the invention therefore strongly depends on the application, i.e. on the result to be obtained with the liquid substance.

The illustrated embodiments are adapted to a liquid substance with which a gloss effect on leather can be obtained, for example for the purpose of polishing shoes. The liquid substance which can be applied to the upper side of leather shoes by means of the device according to the invention comprises for this purpose a first component which gives the leather a gloss and a second component which has the properties of the liquid substance spreading over the leather. The first component consists of a polydimethyl silicone with a viscosity greater than 10000 mm 2 sec-1, and the second component of a more volatile polydimethyl silicone, whose viscosity is less than 2000 mm 2 sec-1. To obtain a better adhesion, a non-reactive amino functional polydimethyl silicone has been added to the substance. Due to the dimensioning and design of the device, the viscosity of the substance, i.e. of the mixed product, is in the interval 500-9000 mm 2 sec1. In order to simultaneously apply a coloring to the leather, a water-dispersible pigment is introduced into the bottom of the cavities in the sponge-like body 6. This pigment, when the device according to the invention is used, is produced by the substance originating from the reservoir 9, i.e., transported through an oil transport medium to the outer surface layer of the spongy body 6. This measure was taken in combination with the dispersion of the 1 0 15 2 2 3 10 pigment in the substance present in the reservoir. Alternatively, of course, it is also possible to add the pigment dispersed in a polar solvent, such as an alcohol or an ether, especially a glycol ether, or dispersed in an a-polar solvent, such as white spirit, to the substance in the reservoir. Furthermore, to indicate the pigment color, a dye added in a suitable solvent has been added to the substance in the reservoir.

The invention is not limited to the embodiments described here with reference to the drawing; this includes all kinds of modifications, both in the construction of the device and in the composition of the liquid substance, of course insofar as they fall within the scope of the claims according to the following claims.

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Claims (13)

1. Device for working a surface, in particular of a leather surface, such as for instance the top surface of leather shoes, with a liquid substance, provided with a container with a reservoir for this substance and with a sponge-like body, through which the substance incorporated from the reservoir herein can be spread on the surface, characterized in that the substance comprises at least one leather-imparting first component, and at least one having properties spreading the substance over the leather surface second component. Device according to claim 1, characterized in that the first component consists of a polydimethyl silicone with a relatively high viscosity, preferably greater than 5000 mm2sec1, in particular greater than 10000 mm2sec1, and the second component an non-amino-functional polydimethylsilicone with a relatively low viscosity, preferably less than 5000 mm2sec1, in particular less than 2000 mm2sec · 3. Device according to claim 2, characterized in that a non-reactive amino-functional polydimethyl silicone is added to the substance as the third component. Device according to any one of claims 1 to 3, characterized in that a pigment, in particular a water-dispersible pigment, in the sponge-like body, at the bottom of the space in the sponge-like body where a collection chamber is located, or in a collection chamber itself is applied. Device according to claim 4, characterized in that the pigment 25 is transported by the substance from the reservoir to the outer surface layer of the spongy body. 1 5 2 2 3 Device according to any one of the preceding claims, characterized in that a pigment is dispersed in the substance present in the reservoir. 7. Device according to any one of the preceding claims, characterized in that a substance in a polar solvent, such as an alcohol or an ether, in particular a glycol ether, dispersed pigment or a dye dissolved therein is added to the substance in the reservoir . 8. Device according to any one of the preceding claims, characterized in that an a-polar solvent, such as white spirit, dispersed pigment or a dye dissolved herein is added to the substance in the reservoir. 9. Device according to one of the preceding claims, characterized in that between the reservoir and the sponge-like body there is at least one collecting chamber with an inflow opening communicating with the reservoir, which inflow opening is closed in the rest state of the device and can be opened upon movement of the sponge-like body relative to a plane with which said body has been brought into contact, and from which the substance is absorbed into the sponge-like body from the receiving chamber. Device as claimed in claim 9, characterized in that the viscosity of the substance is on the one hand sufficiently low for the substance to pass through the inflow opening and on the other hand sufficiently high that the substance does not leak out of the sponge-like body if no force is exerted on it. Device according to claim 10, characterized in that the substance undergoes a viscosity change after it has flowed out of the receiving chamber. 12. Device according to claim 10 or 11, characterized in that the viscosity of the substance is between 500 and 20000 mm 2 sec1, in particular between 500 and 9000 mm 2 sec1. 1 0 15 2 23 Device according to any one of claims 10-12, characterized in that the substance contains an active component with a relatively high viscosity, preferably greater than 5000 mm2sec1, in particular greater than 10000 mm2sec1, and an auxiliary component with a relatively low viscosity, preferably less than 5000 mm2sec1, in particular less than 2000 mm2sec1. 4 Λ 4 5 ^ Ύ I y '. 4-1