RU221130U1 - BOILER FOR RECYCLING HEAT GENERATED BY A COMPUTING DEVICE FOR CRYPTOCURRENCY MINING - Google Patents

Abstract

The utility model relates to a means of heating a coolant by recycling the heat generated during the operation of miners. The technical result of the claimed utility model is an expansion of the arsenal of tools, a reduction in labor costs for installation, a reduction in energy consumption due to the recovery of heat produced by miners, and the possibility of installation both for individual consumers and for production complexes. The declared technical result is achieved through the use of a boiler for recycling the heat generated by miners, which contains a housing with a computing device for mining cryptocurrency (miner) placed in it, which is a power supply for providing electricity to all components of the computing device, a control board with an Eithernet connector for connection via a LAN network to the server, a hash board with a microprocessor located on it with the ability to release thermal energy during computing operations, while water blocks made of heat-conducting material are fixed on the hash boards, in the body of which there are channels for the movement of coolant through them, while the contact the water block platform is tightly connected to the surface of the microprocessors by means of thermal pads, the water blocks on each hash board are connected in series with each other by hoses with the ability to move the coolant circulation pump from the heat exchanger through them, as well as a controller for controlling the on/off of the boiler and temperature.

Description

The utility model relates to a means of heating a coolant by recycling the heat generated during the operation of computing devices for mining cryptocurrency.

Currently, there are known solutions for recycling the heat generated by devices for mining cryptocurrencies.

Thus, in the description of US application No. 2019310691 (publication date 10/10/2019) a cryptocurrency mining system capable of producing hot water is disclosed, which includes a cooling system for cooling the heat generated during mining of a crypto token, and includes a device for producing hot water to generate hot water by using the heat from the cooling water that has passed through the cooling system, to reduce management and maintenance costs by recycling the energy consumed in cryptocurrency mining and increasing productivity. A cryptocurrency mining system capable of producing hot water includes a computing device for mining cryptocurrency; a power supply device configured to supply electrical power to operate the computing device; a cooling system configured to cool heat generated by the computing device or power supply device through heat exchange; and a hot water producing device configured to produce hot water using heat rejected from the cooling system.

The disadvantages of this system are the labor costs associated with the operation of the system, because To ensure work, it is necessary to build a separate technical room to house computing devices for mining cryptocurrencies, a separate technical room to house a heat exchanger system, as well as additional systems for supplying recovered heat directly to the greenhouse.

The known system is labor- and energy-intensive. The source of thermal energy is the air flow from operating computing devices for cryptocurrency mining, which is sent to the heat exchanger; This system uses CO2 gas as a refrigerant, which absorbs and transfers thermal energy through a circulating cooling system. A water/refrigerant heat exchanger acts as an evaporator and the other acts as a condenser to remove heat. The liquid refrigerant in the heat exchanger's evaporator absorbs the heat in the water and converts it into gas, then the gaseous refrigerant is pumped by the heat pump's compressor, when this heated gas is compressed, it amplifies or concentrates the heat.

In this case, the heated object must be serviced by a network company capable of providing the appropriate power supply (since the construction of a mining farm is required), which usually require large electrical powers, the site must be serviced by a communications company that provides the communication means necessary for mining, namely a fiber-optic connection .

In addition, the disadvantage is the narrow scope of its use - only for agricultural complexes that need heating all year round. The system is not intended for use by individual consumers and is designed only for industrial use due to the complexity and high cost of this approach.

Also known is the solution disclosed in the description of RF patent No. 2711950 (publication date 01/23/2020), relating to a device for energy production containing an element that produces energy by converting the heat generated during cryptocurrency mining into produced energy, equipped with a connection device this element with a device that mines cryptocurrency.

The well-known solution is based on the principle of removing heat from an evaporating liquid, and this is the basis of immersion baths - a factory-made computing device for mining cryptocurrency is immersed in a dielectric liquid, thereby heating it, it evaporates and transfers heat to the heat exchanger, the outlet temperature does not exceed 60° WITH.

The disadvantages of this principle are low mobility, heavy weight of the system, danger of explosion in case of failure of the overpressure relief valve, difficulty of repair, short service life of the equipment due to corrosion and electronics failure.

The technical problem solved by the proposed solution is the elimination of these shortcomings, including the generation of heat by recycling the heat generated by operating computing devices for mining cryptocurrencies, without installing additional systems.

The technical result of the claimed utility model is to expand the arsenal of tools, reduce labor costs for installation, reduce energy consumption by recycling heat produced by computing devices for mining cryptocurrencies, the possibility of installation both for individual consumers and for production complexes, as well as increasing energy efficiency.

The patented solution involves the technical modernization of a computing device for cryptocurrency mining, the creation of its own cooling system, namely the placement of heat exchangers specially designed for each model of a computing device for cryptocurrency mining, fixed on the hash boards of the device for direct contact with the chips and for removing thermal energy directly from the chip .

The declared technical result is achieved through the use of a boiler for recycling the heat generated by computing devices for mining cryptocurrencies, which contains a housing with a computing device for mining cryptocurrencies placed in it, which is a power supply for providing electricity to all components of the computing device, a control board with an Eithernet connector for connections via a LAN network to the server, a hash board with microprocessors located on it with the ability to release thermal energy during computing operations, while water blocks made of heat-conducting material are fixed on the hash boards, in the body of which there are channels for the movement of coolant through them, while the contact pad of the water blocks is tightly connected to the surface of the microprocessors by means of thermal pads, the water blocks on the hash board are connected in series with each other by hoses with the ability to move the coolant circulation pump along them, as well as a controller for controlling the on/off of the boiler and temperature.

To smooth out pressure surges, a plumbing accumulator is installed in the boiler body, designed to be connected to the pump output line in front of the heating radiators.

The boiler on/off and temperature control controller can be located on the housing or can be presented in the form of a remote control panel.

It is also possible to remotely control the operation of the device through an application for mobile devices, as well as by connecting to smart home systems and voice control (Yandex Alice).

Moreover, depending on the required volume of energy produced, the boiler body can contain at least one and up to an infinite number of hash boards with microprocessors located on them with the ability to release thermal energy during computing operations.

It is preferable to use copper or aluminum as a heat-conducting material for cast water blocks.

The channels for the coolant in water blocks can be made in the form of a coil of tubes or voids in the form of a zigzag, bent at a certain interval, calculated depending on the location and number of microprocessors on each individual model of a computing device for mining cryptocurrency and hash board.

Example.

Computing device for cryptocurrency mining with a power of 3.5 kW. On the hash board of a computing device for mining cryptocurrencies there are 74 chips, which are arranged in rows (6 pcs.) and located on the board at a distance of 2 cm between rows and at a distance of 1 cm between chips in a row. Based on the peculiarities of the location of microprocessors on each individual board, a heat exchanger is made, in which channels for the movement of coolant through them are milled in the form of a coil, or a stainless steel tube is poured into the body of the heat exchanger, located in such a way that the coolant moves directly above the rows of microprocessors, thereby removing thermal energy from the chips.

The number of microprocessors on the board of a computing device for cryptocurrency mining may vary depending on the model and declared power of the equipment; accordingly, calculations of the coil interval are made in accordance with the initial data.

Thus, due to the tight communication of the contact pad of the water blocks with the surface of the microprocessors by means of thermal pads, thermal energy is removed from their surface and transferred to the heat exchanger. The water blocks on each hash board are sequentially connected to each other by hoses through which the coolant passing through the a heat exchanger that removes thermal energy from the heat exchanger, allowing a coolant temperature of 85°C to be obtained at the outlet of the system due to the cooling of the microprocessors of the computing device that are in operation, the efficiency of the boiler increases by reducing losses and increasing the utilization of heat generated by the computing device for mining cryptocurrency.

The utility model can satisfy the needs of both individual clients and any industrial complexes, while the private client does not require any additional energy resources other than the existing power grid. This solution consumes the same amount of electricity as the average electric water heater, and also connects to the existing heating main, which makes it affordable for the average consumer.

For the boiler to operate, a GSM connection is sufficient, namely, the connection to the server can be made not only via a local network, but also via a GSM modem.

The solution is further illustrated by reference to the figure, which shows the general block diagram of the boiler.

The boiler for recycling the heat generated by a computing device for mining cryptocurrencies contains a housing 1 with a computing device 2 for mining cryptocurrencies placed in it, which is a power supply unit 3 for providing electricity to all components of the computing device, a control board 4 with an Eithernet connector for connecting via a LAN network to server, hash board 5 with microprocessors 6 located on it with the ability to release thermal energy during computing operations. On hash boards 5 there are fixed water blocks 7 made of heat-conducting material, in the body of which there are channels 15 for the movement of coolant through them (highlighted in red on the block diagram). The contact area of the water blocks is tightly connected to the surface of the microprocessors of the hash boards 5 by means of thermal pads 8, the water blocks on each hash board are sequentially connected to each other by hoses 9 with the ability to move the coolant from the water block 7 through the circulation pump 10, as well as the controller 11 for controlling the on/off of the boiler and temperature.

A plumbing hydraulic accumulator 12 is installed in the boiler body, designed to be connected to the output line 13 of the pump in front of the heating radiators 14.

Thus, the patented boiler is characterized by mobility, compactness, maintainability, the possibility of modernization, safety, does not require additional plumbing work, is connected instead of a conventional boiler to an existing heating system, is not subject to corrosion and electrolysis, since the components do not interact with the liquid, and therefore increase service life.

Claims (3)

1. A boiler for recovering heat generated by a computing device for mining cryptocurrencies, containing a housing and a computing device for mining cryptocurrencies, characterized in that the computing device for mining cryptocurrencies is located in the housing and is a power supply for providing electricity to all components of the computing device, a control board control with an Eithernet connector for connecting via LAN to the server, a hash board with microprocessors located on it with the ability to release thermal energy during computing operations, the hash board contains water blocks made of heat-conducting material, in the body of which there are channels for the movement of coolant through them , while the contact pad of the water blocks is tightly connected to the surface of the microprocessors by means of thermal pads, the water blocks on the hash board are connected in series with each other by hoses with the ability to move the coolant circulation pump along them, as well as a controller for controlling the on/off of the boiler and the temperature, while a plumbing fixture is installed in the housing a hydraulic accumulator configured to be connected to the pump output line in front of the heating radiators. 2. A boiler for recovering heat generated by a computing device for mining cryptocurrency, according to claim 1, characterized in that it is preferable to use copper or aluminum as a heat-conducting material for cast water blocks. 3. A boiler for recovering heat generated by a computing device for mining cryptocurrency, according to claim 1, characterized in that the channels for the coolant in the water blocks can be made in the form of a coil of tubes or voids in the form of a zigzag.