RU222226U1 - Portable power supply device - Google Patents

Abstract

The utility model relates to portable devices for receiving power and for use primarily in field conditions where there is no access to power supply systems, for example, in the dwellings of nomadic peoples of the Far North. Technical result: creation of a compact device of simple design for obtaining power in camping conditions during cold seasons, characterized by mobility, reliability and ease of use. A device for obtaining power supply containing a heater made in the form of a closed circuit, including a container 2 for working fluid and a heat exchanger 4, while the container 2 is equipped with support legs and an upper removable steam valve 1, the heat exchanger 4 is made in the form of a U-shaped curved pipe welded to the side surface of the container 2 through two through holes selected along the vertical axis at the level of the upper half of the container 2, while the heat exchanger pipe 4 is supported on the bottom side by a height-adjustable stand 5, and a platform 3 is installed on the upper surface of the heat exchanger pipe 4, in contact with heated surface of the thermoelectric converter 7, to the output potential difference of which consumers are electrically connected, for example, a charge controller with a buffer battery 8 and a USB connector 9. 2 ill.

Description

The utility model relates to portable devices for receiving power and for use primarily in field conditions where there is no access to power supply systems, for example, in the dwellings of nomadic peoples of the Far North.

A mobile autonomous heat and power generator is known (see RU No. 2762930, class F24Н 1/00, Н01L 35/00, Н01L 35/28, F24B 5/06, publ. 12/23/2021), containing thermoelectric sections, which are radiators made of T-beams made of material with high thermal conductivity, into which flat thermoelectric converters are inserted. This device uses natural gas as fuel, which will additionally require gas pipelines, gas safety and alarm systems, which together significantly limits the use of the unit for mobile structures.

A device is known (see RU No. 2382479, class N02N 10/00, published 02.20.2010) containing an electrical energy generator and heated elements made of soft magnetic material with a low Curie point and being an integral part of an F-shaped magnetic circuit , consisting of two side and middle rods with air gaps equipped with a heat conductor that supplies heat from the heater.

The known device is characterized by a complex design and is not intended for use in field conditions.

A device with a thermoelectric generator according to RU patent No. 192304 (cl. H01L 35/28, published September 12, 2019) contains a battery of thermoelectric generators, the hot side of which is connected to a heating element, and the cold side to a radiator. The heating element is a burner with an electric ignition system, which is connected to a fuel storage tank on which an electric control valve is installed. Temperature sensors are installed on the heating element and on the radiator. The control system is implemented in the form of an electrical circuit assembled on a control board, to which electrical leads are connected from a battery of thermoelectric generators, from a rechargeable battery, and on which are installed: a switching device, a voltage converter, a control controller, an indication and control panel, a connector for connecting a chargeable devices.

The disadvantage of the device is that it is unsafe to use in field conditions due to the need to supply liquid or gaseous combustible fuel; in addition, such operation is not economically profitable.

A device for autonomous power supply is known (see RU No. 176615, class F24B 7/00, F24B 9/00, H01L 35/00, published on January 24, 2018), containing a heat source, a heater, a thermoelectric generator and a liquid cooler, wherein the heater is made in the form of a closed loop, including a water tank and a steam condenser, connected to each other by upper and lower pipelines, and in the upper pipeline a steam valve is installed at the outlet of the tank, the steam condenser is in contact with the heated surface of the thermoelectric generator, and a controller is electrically connected to the output potential difference of the thermoelectric generator charge, buffer battery and USB connector.

The disadvantage of the analogue is its small compactness and inconvenience in use in camping conditions in the Far North, due, first of all, to the presence of a liquid cooler, which is filled with cold water during use.

The problem to be solved by the proposed technical solution is the development of a compact design of a device for obtaining power supply, ensuring its autonomous and safe operation in field conditions.

The technical effect obtained by solving the problem is expressed in a device for obtaining power supply, which can significantly increase mobility and ease of use, reliability and compactness of the design and simplify the maintenance of the device.

To solve this problem, a device for obtaining power supply containing a heater made in the form of a closed circuit, including a container for working fluid and a heat exchanger, is characterized in that the container is equipped with support legs and an upper removable steam valve, the heat exchanger is made in the form of a U-shaped curved pipe, welded horizontally to the side surface of the container through two through holes selected along the vertical axis at the level of the upper half of the container, while the heat exchanger pipe on the lower side is supported on a height-adjustable stand, and on the upper surface of the pipe there is a platform in contact with the heated surface of the thermoelectric converter, to the output potential difference of which consumers are electrically connected, for example, a charge controller, a buffer battery and a USB connector.

A comparative analysis of the features of the claimed solution with the features of analogues indicates that the claimed solution meets the “novelty” criterion.

The combination of features of the utility model provides a solution to the stated technical problem, namely, increasing the reliability of the device design for receiving power, for example, for charging electrical equipment and powering lighting in field living conditions, usually in cold seasons, where there is no access to power supply systems. The claimed device may be in demand for the conditions of the Far North and will allow, in field conditions, a simple way to obtain power for low-energy-intensive equipment.

The device for receiving power is illustrated in the drawings, where Figure 1 shows a general view; Figure 2 shows a general view (photo) of the device prepared for use.

The inventive device is a closed-loop water heater and includes a hollow metal container 2 on support legs, equipped with a removable steam valve 1, and a heat exchanger 4, made in the form of a U-shaped bent pipe welded to the side surface of the container 2 through two through holes , selected along the vertical axis at the level of the upper half of the container 2. From below, the heat exchanger pipe 4 is supported on a height-adjustable stand 5, while on the upper side, at the bend of the pipe, a horizontal platform 3 is welded for placement and subsequent contact with the heated surface of the thermoelectric converter 7 , to the output potential difference of which consumers are electrically connected, for example, a charge controller with a buffer battery 8 and a USB connector 9 (see Fig. 1). Moreover, the area of the platform 3 can be increased depending on the required indicators of the generated electricity and the number of placed thermoelements of the converter 7, for example, it can be extended along the upper pipe of the heat exchanger 4.

The claimed device for obtaining power operates as follows.

Before operation, the device is installed on a flat area inside a mobile room or outside, depending on the place of use, for which the position of the heat exchanger pipe 4 is adjusted using an adjustable stand 5. Under the container 2, a place for a fire is arranged, for example, for a fire or a portable burner on a gas or liquid fuel. By unscrewing the removable valve 1, a working fluid, for example, clean water, in an amount of 1/5-1/4 of its volume is placed in container 2. In winter conditions, water can traditionally also be obtained by melting snow. Next, container 2 with water is closed again with valve 1, after which a thermoelectric converter 7 of a known design, for example, based on Peltier elements, is placed on site 3, and consumers are electrically connected to its outputs. Thus, the device is prepared for operation.

A prototype of the claimed device has a container 2 with a volume of 5 liters, a heat exchanger pipe 4 about 1.5 m long (see Fig. 2).

When installed inside a mobile room, the heat exchanger pipe 4 can be led to the outside of the structure, for which purpose a through safe passage is first made in the shelter material.

To use the device, a fire is lit, which heats container 2 with water until it boils and turns into a gaseous state. For safe operation, when the pressure inside the closed circuit of the device increases, excess steam is removed through valve 1. Saturated steam fills the remaining volume in tank 2 and follows through the pipes of the heat exchanger 4, where, condensing, it gives off its thermal energy to the heated surface of the thermoelectric converter 7, installed on site 3. As a result, the thermoelements of the converter 7, on the one hand, are heated by the temperature of the heat exchanger pipe 4, on the other hand, they are cooled due to the negative ambient temperature. Thus, the thermoelements of the converter 7, being in a different temperature environment, convert part of the thermal energy into electrical energy. A constant voltage appears at the output of the thermoelectric converter 7, which is supplied for consumption. The condensed liquid enters back into container 2 through the lower pipeline of heat exchanger 4, where it again evaporates due to heating.

For the prototype, a converter with Peltier elements of type SP 1848 27145 was used. In this case, tests were carried out at ambient temperatures down to minus 30-35°C. When generating an electric current at a temperature difference of 100°C from one Peltier element, a voltage of 4.8 V and a current of 669 mA were obtained. Having nine Peltier elements and arranging them in a series-parallel connection so that there were three branches of three Peltier elements in each, the following characteristics were obtained: voltage 14.4 V and current 2007 mA, which are enough to recharge an external battery and various low power electronic devices.

Thus, the claimed device for obtaining power can be used in camping conditions during cold seasons, and the heater device in the form of a closed loop allows you to maintain a consistently high level and the highest heating efficiency of the thermoelectric converter, which generally contributes to an increase in efficiency.

Claims (1)

A device for obtaining power supply containing a heater made in the form of a closed circuit, including a container for working fluid and a heat exchanger, characterized in that the container is equipped with an upper removable steam valve, the heat exchanger is made in the form of a U-shaped curved pipe welded to the side surface of the container through two through holes selected along the vertical axis at the level of the upper half of the container, while the heat exchanger pipe on the lower side is supported on a height-adjustable stand, and a platform for placing a contacted thermoelectric converter is welded on the upper surface of the pipe.