RU199414U1 - Polymer attachment for manicure and pedicure devices - Google Patents

Abstract

The utility model relates to the design of universal attachments for manicure devices that are used to treat the surface of nails, or for pedicure devices that are used to treat the surface of the foot. The polymer attachment for manicure and pedicure devices contains a disk with a working surface made of a polymeric material and a rod perpendicularly connected to the disk from the side of the disk surface opposite to the working surface. In this case, the rod is made of metal and is connected to the disk by means of a protrusion made on one of the end surfaces of the rod and at least partially located inside the disk. The use of the claimed utility model achieves an increase in the strength of the packing while maintaining a reduced weight of the packing and high mechanical properties of the disk as a working body of the packing. 7 p.p. f-ly, 3 dwg

Description

The utility model belongs to the design of universal attachments for manicure devices that are used to treat the surface of nails, or for pedicure devices that are used to treat the surface of the foot. The processing is carried out by rotating the nozzle together with the collet or the handle of these devices (the so-called milling cutters), with which the nozzle is fixed. To carry out the treatment, the working surface of such a nozzle is usually equipped with replaceable abrasive pads (replaceable files), which have an outer granular surface for contact with the surface of the nail or foot.

Known similar nozzles for manicure and pedicure devices, among which the closest is the nozzle selected as a prototype and containing a disk with a working surface made of a polymer material, and a rod perpendicularly connected to the disk from the side of the disk surface opposite to the working surface. The rod, like the disc, is also made of polymer material, including polycarbonate. The rod and the disc communicate with each other during their simultaneous manufacture, for example, by injection molding, thermoforming, etc. (application US2007221238 (A1), published September 27, 2007). The use of a rod and a disk made of polymer material reduces the total weight of the nozzle, due to which the possibility of its operation at high speeds of manicure and pedicure devices is achieved, and at the same time, the service life of the collet or handle of manicure and pedicure devices is increased. The disadvantage of this solution is the insufficient strength of the elements of the packing and the possibility of destruction of the connection of the rod with the disk from loads, especially caused by the moment of force during the rotation of the disk during its operation, which is due to the implementation of the rod from a polymer material and the method of pairing it with the disk.

The utility model is based on the task of increasing the strength of the packing by increasing the resistance of its load elements during the operation of the packing while maintaining a reduced weight of the packing and high mechanical properties of the disk as a working body of the packing. The problem is solved in such a way that in a polymer nozzle for manicure and pedicure devices, which contains a disk with a working surface made of a polymer material, and a rod perpendicularly connected to the disk from the side of the disk surface opposite to the working surface, according to the utility model, the rod is made metal and connected to the disk by means of a protrusion made on one of the end surfaces of the rod and at least partially located inside the disk.

The technical result from the use of the nozzle of the design described above is the preservation of a reduced weight of the disk and high mechanical properties of its working surface due to the execution of the disk from a monolithic polymer material, mainly of polycarbonate, simultaneously with an increase in the strength of the nozzle, which is achieved by making the nozzle in the form of a permanent connection of a metal rod and a disc of monolithic polymer material molded around the protrusion on the rod. The reduced weight of the disc and the high mechanical properties of the polymer material (mainly polycarbonate) and the metal rod make it possible to operate the manicure or pedicure device at the highest possible speeds (revolutions per minute), which significantly reduces the time for a manicure or pedicure. At the same time, the reduced weight of the nozzle several times increases the service life of the collet or the handle of the device, in which the nozzle is fixed.

According to one of the preferred embodiments of the nozzle, the rod and the projection on its end surface have a predominantly circular cross-section, which increases the strength of the rod in comparison with its implementation with a different cross-sectional shape. Moreover, the attachment with such a rod is easier to install in a manicure or pedicure machine.

According to another preferred embodiment of the nozzle, the side surface of the protrusion may comprise a threaded portion located inside the disc, thereby increasing the adhesion of the polymeric material of the disc, for example, polycarbonate, to the surface of the metal of the rod and its circular protrusion by increasing the surface area of the disc and the rod in contact between itself, as well as the creation of mechanical obstacles that prevent the separation of two dissimilar materials - the disc and the rod. According to another preferred embodiment of the nozzle, the protrusion on the end surface of the rod can be made with a larger diameter than the rod, which also increases the contact area of the disk and rod surfaces and further enhances the adhesion of the polymeric material of the disk to the surface of the circular protrusion of the rod. According to another preferred embodiment of the nozzle, the length of the protrusion can be less than the thickness of the disk, retains the requirement to increase the strength of the connection between the disk and the rod, and at the same time does not violate the integrity of the working surface of the disk and its monolithic polymer material.

According to a further preferred embodiment of the packing, the disc is advantageously made of polycarbonate and the stem is made of stainless steel, thereby achieving a reduced weight of the packing, simultaneously increasing its strength, and at the same time increasing the corrosion resistance to meet hygienic requirements of the packing.

According to another preferred embodiment of the nozzle, the disc can be secured to the rod by casting polycarbonate around the steel protrusion of the rod. In this way, the permanent connection of the disc to the rod is achieved by increasing the strength of their mating by ensuring the adhesion of dissimilar materials of the disc and the rod.

According to another preferred embodiment of the nozzle, through holes can be made on the disk, coaxial with the axis of the disk, which further reduces the weight of the nozzle while maintaining high mechanical properties of the disk, and also helps to improve the removal of material that is cut or processed.

The utility model is illustrated by the following example of the implementation of a polymer attachment for manicure and pedicure devices and its manufacture and use for treating the surface of nails or feet, illustrated by the drawings, namely: Figure 1, which shows a side view of the attachment with a partial cutout at the junction of the rod and disk, figure 2, which shows a General view of the nozzle in axonometric projection from the front, and figure 3, which shows a general view of the nozzle in axonometric projection from the back. The given examples and drawings do not limit other possible embodiments of the packing according to the utility model, but only explain its essence.

The polymer attachment for manicure and pedicure devices contains a disc (1) with a working surface (2) and a rod (3). The disc (1) is made of a polymer material such as polycarbonate. It is possible to use other polymer material. The rod (3) is made of metal, mainly of stainless steel. The rod (3) is perpendicularly connected to the disk (1) from the side of the disk surface (4) opposite to the working surface (2). The rod (3) is connected to the disc (1) by means of a protrusion (5). The protrusion (5) is made on the end surface (6) of the rod (3) and is located inside the disk (1). The rod (3) and the projection (5) have a circular cross-section (Fig. 2). The protrusion (5) is made with a larger diameter D than the diameter d of the rod (3). The side surface of the projection (5) contains a threaded section (7) located inside the disc (1). The length L of the projection (5) is less than the thickness B of the disc (1). The disc (1) is fixed to the rod (3) by casting the disc material (polycarbonate) around the steel lip (5) of the rod (3). The rod (3) contains a cylindrical protrusion (8) in the form of an increased diameter d of the rod (3) with the formation of a step between the diameter of this protrusion and the diameter d of the rod (3). The working surface (2) can be flat and flat (as in Figs. 1-3) or convex (spherical) or hemispherical. The disc (1) can be made solid or have through holes coaxial with the axis of the disc (1). The above-described polymer nozzle for manicure and pedicure devices is made as follows. The protrusion (5) of the rod (3) is placed in a round mold for casting monolithic polycarbonate under pressure. Then the disk array (1) is poured with the projection (5) located inside. In this case, the threaded section (7) is also located inside the disc (1). The material of the disc (1) forms a reliable adhesive connection with the material of the projection (5) of the rod (1), additionally reinforced by the threaded section (7).

The nozzle made in this way is used, for example, for treating the surface of feet or nails, by fixing the end of the rod (3), opposite the end connected to the disc (1), in the working body of the manicure or pedicure apparatus (collet or handle, not shown in the figures) ... After that, a replaceable abrasive pad (not shown in the figures) is fixed on the working surface (2) of the disk (1) by combining the latter with an adhesive layer with which the replaceable abrasive pad is equipped and which is opposite to its abrasive surface. When operating a manicure or pedicure apparatus, by rotating the working body with a nozzle, the surface of the feet or nails is treated with the abrasive surface of a replaceable abrasive pad. After processing, remove the replaceable abrasive pad from the nozzle by separating it from the working surface (2) and unlock the working body to remove the nozzle and store it.

Industrial applicability. The disc (1) is predominantly made of polycarbonate, for example, by injection molding around the projection (5) of the rod (3). In this case, steels of grades 08X18H10, 07X16H6 or their analogs AISI 304, AISI301 are mainly chosen as the material of the rod (3) with the protrusion (5).

The application of the claimed utility model achieves an increase in the strength of the packing, while maintaining a reduced weight of the packing (compared to a packing with a metal disk) and high mechanical properties of the disk as a working body of the packing.

Claims (8)

1. Polymer nozzle for manicure and pedicure devices, which contains a disk with a working surface made of polymeric material, and a rod perpendicularly connected to the disk from the side of the disk surface opposite to the working surface, characterized in that the rod is made of metal and is connected to the disk when by means of a protrusion made on one of the end surfaces of the rod and at least partially located inside the disc. 2. The nozzle according to claim 1, characterized in that the rod and the protrusion on its end surface have a circular cross-section. 3. A nozzle according to claim 2, characterized in that the side surface of the projection comprises a threaded portion located inside the disk. 4. A nozzle according to claim 2, characterized in that the protrusion on the end surface of the rod is made with a larger diameter than the rod. 5. A nozzle according to claim 1, characterized in that the length of the projection is less than the thickness of the disc. 6. Nozzle according to claim 1, characterized in that the disc is made of polycarbonate and the rod is made of stainless steel. 7. A nozzle according to claim 6, characterized in that the disc is fixed to the rod by casting polycarbonate around the steel protrusion of the rod. 8. The nozzle according to claim 1, characterized in that through holes are made on the disk, coaxial to the axis of the disk.

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