FR2920526A1 - Domestic hot water producing device, has cylinder including outer wall covered by tube that recuperates heat produced by friction of cylinder on semi-cylinders when central axle is driven by outer mechanical energy source - Google Patents

Abstract

The device has a main structure (1) including a central cylinder (5) covered with a protecting material (6) that is resistant to heat. The cylinder has a beveled base (7) placed on a ball bearing (8), and is locked inside semi-cylinders (3) connected to the structure by fixation tabs (2). The tabs are adjusted in length and connected by locking tabs (4). The cylinder has an outer wall covered by a coil shaped tube (10) that recuperates the heat produced by friction of the cylinder on the semi-cylinders when a central axle (9) is driven by an outer mechanical energy source.

Description

The present invention relates to a device for producing domestic hot water. The principle of the device is based on the heating properties of the material after a friction. To function, the device must be coupled to a source of external mechanical energy. This source of energy can be of different natures; however, in order to combat greenhouse gas emissions, the device is particularly intended to operate with a renewable energy source such as that provided by way of a wind turbine or a water wheel. Can be made at any scale, depending on the source of external mechanical energy used and depending on the amount of hot water desired, the device according to the invention comprises according to a first feature a central cylinder (the beveled base is based on a ball bearing). This cylinder has in the center of its apex an axis in the extension of its height, called drive axis of the device. The cylinder may be covered with a material that is resistant to heating. This cylinder is inserted in the center of the device between two half cylinders. These two half-cylinders are connected to the main structure of the device by fixing lugs adjustable in length by a system with two inverted screw pitches for example, and are connected together by a clamping system by a fastening bracket and nut / bolt. These two half-cylinders play a dual role: to guide and constrain the rotation of the central cylinder. In its inner part, each half-cylinder is in contact with the material which covers the main cylinder, a material which promotes their heating (place of heating). In its outer part, each half cylinder is traversed by a serpentine pipe. Part of the pipe wall (coil) is directly in contact with the outer wall of the half-cylinder (heat exchange site). The main structure accommodates the entire device. It must be sealed. It allows the entire device to remain in place, it accommodates in its lower part the ball bearing on which is placed the central cylinder, it allows the two half cylinders to remain fixed, it also allows the adjustment of the tightening the two half-cylinders on the main cylinder. It also has the role of isolating the device at the caloric and phonic level; it has in its upper part a removable cover (inspection hatch). Its shape can be any as long as it allows it to fulfill the conditions mentioned above.

When the device is coupled to a source of mechanical energy such as that offered by a wind turbine geared for example, the central cylinder is rotated on its axis and on the ball bearing. It thus creates a friction on the two half-cylinders which surround it. The fixing lugs which connect the two half-cylinders to the main structure, as well as the clamping system which connects the two half-cylinders together, make it possible to adjust the frictional stress, as a function of the energy source used, and depending on the level of friction desired. The heat generated by this friction is recovered at the level of the two half cylinders (fixed) by the coils. These can be connected by thermo-syphon to a storage tank, for example, or to a heating structure (floor heating, radiators, ...). The device according to the invention is particularly intended for heating sanitary water. According to particular embodiments: - The central cylinder may have a tapered base. - The beveled base of the central cylinder can be based on a ball bearing. - A drive shaft can extend the central cylinder to the center of its top. - The central cylinder can turn on itself. - The central cylinder can be covered with a protective material that prevents it from heating up and prevents its wear. - During the rotation of the central cylinder, the material which covers the central cylinder can allow and optimize the heating of the material of which are formed the half cylinders. - The central cylinder can be inserted inside the two half-cylinders. - The two half cylinders can be clamped together by clamping lugs and a nut / bolt assembly, around the central cylinder, thus constraining the rotation of the latter. Each half-cylinder can be fixed to the main structure by fixing lugs. - The brackets connecting the half cylinders to the main structure can be adjusted in length by a system with two inverted screw pitches. - The main structure can accommodate a ball bearing on which the central cylinder can rest. - Each half cylinder can be covered outside a pipe arranged in a coil.

The accompanying drawings illustrate the invention: FIG. 1 represents in section, the device of the invention. Figure 2 shows a half cylinder. With reference to these drawings, the device comprises a main structure (1), to which two half-cylinders (3) are fixed by length-adjustable fixing lugs (2); themselves connected together by clamping tabs (4) and a nut / bolt assembly. Inside the two half-cylinders is inserted the central cylinder (5) covered with a protective material (6) which limits its heating and its wear, this central cylinder (5) can have a beveled base (7) which allows it to rest on a ball bearing (8) fixed on the main structure (1) to ensure a rotation always in the vertical axis. When the central axis (9) which extends the central cylinder (5) in its height (driving axis of the device) is driven by an external source of energy such as that provided, for example, by a wind turbine, the cylinder central rotates on its axis. The two half-cylinders (3) in contact with the coating of the central cylinder (6) are then heated by the friction, which friction is measured both by the adjustment of the clamping of the two half-cylinders between them (4) and by the adjustment the length of the fixing lugs (2) connecting the half cylinders (3) to the main structure (1). This friction generates a heating of the material of which the half cylinders (3) are constituted. The heat due to this heating is recovered by the serpentine pipes (10) which line the half cylinders (3), the hot water thus produced can then be stored (for example in a storage tank) or used directly (underfloor heating, hot water, ...).

Claims (7)

claims 1) Device for producing hot water by friction, characterized in that it comprises a main structure (1) accommodating in its heart a central cylinder (5) which is covered with a material which optimizes the heating (6) and whose tapered base (7) rests on a ball bearing (8), which cylinder is enclosed within two half-cylinders (3) which are connected to the main structure by fixing lugs (2) adjustable in length and interconnected by an assembly system (4), and whose outer wall is traversed by a serpentine pipe (10) which recovers the heat produced by the friction of the central cylinder (5) on the two half cylinders (3) when the central axis (9) is driven by an external energy source. 2) Device according to claim 1 characterized in that the central cylinder (5) has in the center of its apex axis extending its height (9). 3) Device according to claim 1 or claim 2 characterized in that the central cylinder (5), once driven by its drive axis (9), rotates on itself and in the vertical axis. 4) Device according to one of claims 1 to 3 characterized in that two half cylinders (3) which are connected together by a clamping system (4) enclose the central cylinder (5) for the dual purpose of guiding and constrain its rotation to produce frictional heating. 5) Device according to claim 4 characterized in that each half cylinder (3) is covered with a pipe arranged in a coil (10) constituting a heat exchange zone which can be connected to a storage or use circuit of the 'Hot water. 6) Device according to any one of the preceding claims characterized in that the entire device is disposed in the center of a main structure (1) sealed and provided with a removable cover. 7) Device according to claims 1 and 6 characterized in that the base of the main structure (1) accommodates the ball bearing (8) on which the central cylinder (5).