RU2098052C1 - Heating pad - Google Patents

Abstract

FIELD: physiotherapy. SUBSTANCE: heating pad in made in the form of plate manufactured from talcous chloride. Wide surface of plate applied to patient's body coincides with mineral stratification plane. Heating pad is heated by narrow end surface perpendicular to mineral stratification plane. EFFECT: increased heating capacity and operating time per one charge.

Description

 The invention relates to physiotherapy.

 One of the simplest heat-treatment products used in a home environment is a heating pad.

 Various types of heating pads are known, for example, water, paraffin (V.S. Ulashik. Home physiotherapy. Minsk: Belarus, 1993, p.157-158).

 As water, rubber hot-water bottles are mainly used.

 The paraffin warmer is made of a polymeric material (plastic compound or oilcloth) and filled with paraffin. Before use, the paraffin warmer is heated in hot water.

 The disadvantage of water and paraffin warmers is their low heat capacity and, therefore, short operating time.

Known heater, in which there is a heat storage element (heating pad) in the form of a plate, heated on one side and made of natural mineral layered asbestos [1]
The disadvantage of this solution is the insufficient heat capacity of the material.

 The essence of the invention lies in the fact that in the known heating pad containing a heat storage element in the form of a plate of natural layered mineral, one of the surfaces of which is made with the possibility of contact with the heater, the new one is that the layered mineral is talc-chlorite, the plane of lamination of which coincides with the wide surface of the plate application, and the contact surface with the heater is the end surface of the plate perpendicular to the layered plane.

 The problem solved by the invention is to create a mineral heating pad having increased heat capacity and increased operating time per charge.

 The technical result achieved in this case is that the natural mineral talc-chlorite has anisotropy of thermal conductivity, since, in contrast to asbestos, talc-chlorite has a pronounced fiber structure. They are arranged in a layered plane, unlike asbestos, where they are randomly mixed. Therefore, charging (heating) of a mineral hot-water bottle is carried out by high-temperature heating through a small area of a narrow end surface perpendicular to the layered plane of the mineral, and operation (contact with the body) occurs along a wide flat surface that coincides with the layered plane of the mineral. As a result, heating is carried out along the fibers in the direction of high thermal conductivity, and heat transfer in the perpendicular direction with low thermal conductivity. In this regard, such a heating pad has an increased heat capacity and increased operating time per charge.

 The hot-water bottle is a talc-chlorite plate, the wide surface of which is applied to the body coincides with the plane of the layered mineral, and an end face, narrow surface, perpendicular to the layered plane of the mineral, serves to heat the hot-water bottle.

 Hot water bottle is used as follows.

 To charge a heating pad with heat, it is applied to a heated object (a container with sand, water, an electric stove, etc.) with a narrow end surface and held for 10-15 minutes. After that, using a rag or other device, remove the heating pad, wipe it with a dry cloth, wrap it in cotton cloth in 2-3 layers and apply to the sore spot.

 The proposed heating pad has a high heat capacity and increased operating time per charge.

Claims (1)

 A heating pad containing a thermal storage element in the form of a plate of natural layered material, one of the surfaces of which is made with the possibility of contact with a heater, characterized in that the layered mineral is talc-chlorite, the plane of lamination of which coincides with the wide surface of the plate application, and the contact surface with the heater is the end surface of the plate perpendicular to the plane of layering.