RU2283070C2 - Device for producing adjusted foot model - Google Patents

Abstract

FIELD: medical engineering.

SUBSTANCE: device has supporting base as plate, flexible membrane attached to the supporting base over perimeter building in this way sealed cavity, form-creating material placed on the membrane, pump connected to the sealed cavity and means for fixing membrane surface part on the supporting base in accordance with foot rest surface pattern. The means has pressure plates placed on the membrane and attached to the supporting base by means of fastening members. The pressure plates are shaped to mate the foot rest surface pattern.

EFFECT: high adjustment accuracy.

3 cl, 1 dwg

Description

The invention relates to medicine, namely to orthopedics, and can be used in the manufacture of individual orthopedic insoles.

A device is known for manufacturing a negative model of the sole of the foot (USSR Author's Certificate No. 1653737, class A 61 B 5/103, 1991), containing a support base on which the flask is located, hermetically sealed at the top and bottom with airtight elastic membranes. The inner part of the flask is filled with bulk filler and connected to a vacuum pump. In the supporting base there is an opening for vertical movement of the underwater stop, which has locking elements and is made in the form of the underwater area of the foot. The device operates as follows. The patient sets the foot on the flask so that the flattened arch of the foot is located above the hole in the support base. Under the influence of the patient’s weight, the foot is immersed in a loose filler, while the upper membrane takes the shape of the foot. Then turn on the vacuum pump and make the correction of the arch by vertical movement of the sub-stop. The negative foot model thus obtained is used in the future for the manufacture of corrective orthopedic insoles. The disadvantage of this device is the incomplete correspondence of the relief of the obtained negative model with the relief of the plantar region of the foot in the corrected state. This disadvantage is due to the fact that the effect is produced by the underwater emphasis, which has a typical, averaged shape, without taking into account the complex individual structure of the plantar region of the foot. In addition, for the operation of the device requires a complex technical tool - a vacuum pump.

It is also known a device for obtaining an adjusted model of the foot, including a support base on which there are two identical elastic cushions designed to provide corrective action, a thermoplastic material located on the elastic cushions, as well as a means of monitoring the correct position of the foot during molding, which is made in the form plumb. The elastic cushions are divided into two parts, the front with a small thickness, where the forefoot is located during molding, and the back with a larger thickness, where the hindfoot is located, including the longitudinal arch and the heel. In addition, the back of the pillows has an inclined surface directed from top to bottom from the inner edge, where the inner longitudinal arch of the foot is located, to the outer, where the outer arch is located. The angle of inclination of the surface is not more than 20 ° relative to the horizontal. Obtaining a corrected model of the feet is as follows. The patient stands on elastic pillows, while the correction of the longitudinal arches occurs due to the elasticity and level of inclination of the back of the pillow, and the correct position of the foot is controlled using plumb bob. Then, between the foot and the elastic cushion, a heated sheet of thermoplastic material with a low softening temperature is placed and molding is performed. After 1-3 minutes, the sheet cools and hardens, repeating the relief of the adjusted plantar area of the foot. The disadvantage of this device is unregulated lifting of the arch of the foot. This disadvantage is due to the unchanging elasticity of the elastic cushion.

A device is also known for making an impression of the surface of body parts (French patent No. 2682028, class A 61 B 5/117, 1991), including a pneumatic cushion on which an elastic membrane is located, forming material located during molding between the body part (foot ) and the membrane, and the corrective element, which is located under the arch of the foot. The shape of the corrective element is made in accordance with orthopedic requirements, and the material used can be thermoplastic. In addition, the surface of the membrane is limited by the plate, in which there is an opening made in accordance with the contour of the foot, and serves to accurately install the corrective element. The device allows you to get both an anatomical cast and adjusted. The operation of the device is largely similar to the above and occurs as follows. First, create pressure in the pneumatic cushion to ensure a snug fit of the membrane to the surface of the foot. After that, a forming material is applied to the membrane, which is a heated sheet of low-temperature thermoplastics, on which the patient stands, and after the sheet has hardened, an anatomical negative foot model is obtained. To obtain a corrected foot model, a correction element is inserted between the membrane and the forming material. The disadvantage of this device is the dependence of the accuracy of the correction of the arch on the correct form and accuracy of installation of the correction element. In addition, the correction element during molding is located on a non-fixed surface (on the air cushion), which does not provide the desired rise of the arch due to the forcing of the element deep into the air cushion. Another disadvantage is the instability of the position of the rear and front of the foot, due to the mobility of the upper surface of the air bag, which reduces the accuracy of the positioning of the feet during molding.

The closest analogue, which is adopted as a prototype, is a device for obtaining an adjusted foot model, disclosed in Patent EP 0511803 A1 (class B 29 C 33/30, publ. 04.11.1992) and containing a support base fixed to it by an elastic membrane, forming material and forming means mounted on a support base. The forming tool is made in the form of numerous rods of the same length, arranged parallel to each other, and covered with an elastic membrane. The fixation of the rods is carried out using means for crimping. The device operates as follows. The patient stands on the forming agent, while all the rods are located on the same level and together with the elastic membrane are a flat surface. The formation is carried out by pressing the bottom of the rods, in which there is a vertical movement of the rods, limited by the topography of the foot. Under the action of vertical movement of the rods, the elastic membrane first takes on the natural, anatomical shape of the foot, and then, as the rods move further, the arches of the foot are corrected (increased) to the required level. After that, the rods are fixed with a crimping tool, a shaping material is applied, and an adjusted foot model is thus obtained. The disadvantage of this device is the low accuracy of the resulting foot model. This drawback is due to the final dimensions of the rods (diameter), as well as the fact that the rods are fixed after molding by compression, in which the rods come closer, changing the dimensions of the resulting foot model.

For the prevention and treatment of flat feet, as well as for the relief of pain, the production of individual orthopedic insoles is required. The proposed device solves the problem of creating an adjusted foot model, which can then be used in the manufacture of individual orthopedic insoles. The requirements for orthopedic insoles include maintaining the inner and outer longitudinal arches of the foot, having a maximum height of the calculation corresponding to the tops of the arches, matching the adjusted relief of the sole of the foot, ensuring a uniform load of the arches, unloading of painful sections of the foot.

EFFECT: increased accuracy of correction in the resulting negative corrected foot model.

The specified technical result during the implementation of the invention is achieved by the fact that the proposed device comprises a support base made in the form of a plate, an elastic membrane located on the base, the perimeter of which is fixed on the base, forming a sealed cavity between the membrane and the base, a forming material located on the membrane , and a pump connected to a sealed cavity. The peculiarity lies in the availability of means for fixing part of the surface of the membrane on the support base in accordance with the configuration of the support surface of the foot, which is made in the form of pressure plates located on the membrane and connected to the support base using fastening means, and the configuration of the plates corresponds to the configuration of the support surface of the foot . To produce a negative corrected model of the foot, the pressure plates are applied to the elastic membrane and fastened to the supporting base, thereby fixing part of the membrane surface in accordance with the configuration of the supporting surface of the foot. Then, a forming material is applied on top of which the patient stands, and pressure is created by a pump in a sealed cavity between the membrane and the base. As the pressure increases, the membrane, together with the forming material, takes the natural shape of the sole of the foot, and then, as the pressure of the foot increases, it is brought into the corrected state, while correcting the arches of the required level. Further, after some time that is required for hardening of the forming material, a negative corrected foot model is obtained with the required accuracy.

The drawing shows a General view of the claimed device.

A device for obtaining an adjusted model of the feet contains a support base 1 made in the form of a plate, for example, of glass with a thickness of 10-15 mm or aluminum with a thickness of 5-8 mm, an elastic membrane 2 made, for example, of silicone rubber with a thickness of 1 mm. The perimeter of the membrane 2 is bonded to the base 1, for example, silicone acid sealant, which has good adhesion to glass and aluminum, which led to the choice of material for the support base. A sealed cavity 3 formed between the base 1 and the membrane 2 is connected to a pump 4, which is made, for example, in the form of a rubber bulb. The forming material 5 is located on the membrane 2 and is made, for example, of low-temperature thermoplastic or gypsum dressings on a knitted basis, which are usually used for the manufacture of fixing tires. The choice of gypsum dressings is preferable, as they have great stiffness in the molded state compared to thermoplastics, as well as adjustable curing time, for example, a change in water temperature, or the addition of wood glue.

The means for fixing a part of the surface of the membrane 2 on the support base 1 is made in the form of pressure plates 6 made, for example, of fiberglass 1 mm thick and fastened to the support base 1 by means of fastening means 7. The pressure plates 6 are configured in accordance with the configuration supporting surface of the foot. The device operates as follows. First, determine the configuration of the supporting surface of the foot, using plantographic devices or coating the foot with paint, followed by printing the print on paper. In accordance with the obtained configuration, clamping plates 6 are made, which are mounted on the membrane 2 and fastened to the support base 1 by fastening means 7. After that, the forming material 5 is applied from above, onto which the patient stands, and pressure is created in the sealed cavity 3 by pump 4. As the membrane 2 and the forming material 5 lying on it take first a natural foot relief, and then, as the foot pressure increases, it is brought into an adjusted state, while the front and The lower parts of the foot remain in the supporting state thanks to the pressure plates 6, and the height of the longitudinal arches rises to the required level. The correctness of the correction can be determined visually by the doctor, using various devices, such as plumb bob, as well as subjective sensations of the patient. After correction, after some time, the forming material 5 hardens, while repeating the relief of the sole of the foot in the corrected state. The foot model thus obtained is removed for further use in the manufacture of individual orthopedic insoles.

In the proposed device, the degree of correction of the height of the arches depends only on the level of pressure in the sealed cavity, which is easily adjustable, which ensures increased accuracy of the resulting negative foot model in the corrected state. In addition, the membrane creates uniform pressure on the surface of the foot, which ensures that the basic requirements for orthopedic insoles are met.

Claims (3)

1. A device for obtaining an adjusted model of the foot, comprising a support base, an elastic membrane fixed thereon, a forming material, characterized in that it additionally has a pressure source connected to an airtight cavity formed between the support base and the elastic membrane, as well as a fixing means on the supporting base, a part of the surface of the elastic membrane and having a configuration in accordance with the configuration of the supporting surface of the foot. 2. The device according to claim 1, characterized in that the pressure source is made in the form of a pump, the forming material is located on an elastic membrane, which is fixed around the perimeter on a support base, and the support base is made in the form of a plate. 3. The device according to claim 1, characterized in that the said tool is made in the form of pressure plates located on an elastic membrane and fastened to the support base by means of fastening means.