RU164564U1 - DEVICE FOR HEATING OBJECTS WITH A GAS HEAT GENERATOR - Google Patents

Abstract

1. A device for heating objects with a gas heat generator, including a connection unit to the fuel network, an air heater unit consisting of a heat generator and an electric power source, preheating and hot air outlet units, characterized in that the heat generator includes a burner and a heat exchanger with a closed combustion chamber, wherein the heater block is additionally equipped with a mixing chamber for preheating the air, an electric fan for the air pressure in the air duct master and located between the mixing chamber and the heat source and the heated air outlet assembly consists of air ducts with rigid guides taps for supplying heated air to the heated obektu.2. The device according to claim 1, characterized in that an autonomous electrical unit is used as a source of electricity. The device according to PP. 1 and 2, characterized in that the air ducts of the heated air outlet are made of flexible elements. 4. The device according to PP. 1 and 2, characterized in that the air ducts of the heated air outlet are thermally insulated.

Description

The utility model relates to air heaters with forced air circulation and, in particular, can be used for heating cold rooms, engine compartments and as a mobile installation for heating and ventilation.

The demand for mobile heating systems in regions with a cold climate is growing steadily, which is mainly due to an increase in the number of transport equipment. In winter conditions, open parking for transport vehicles cannot be used; on the other hand, they occupy large areas in settlements. The solution to the problem is possible while maintaining the microclimate of the motor space of the vehicle using local heating devices.

Known mobile air heater (see RU No. 22424221, F24H 3/00, publ. 10.01.2005), which is a device on a self-propelled chassis of the car and made in the form of a fan connected through a diffuser to a heat generator consisting of a combustion chamber with a heater and having an outlet for venting heated air and connecting flexible hoses to supply air to the consumer.

A disadvantage of the known device is the relative energy consumption and inefficiency due to the need for heating air with a negative temperature in winter conditions.

A similar device is known for a mobile air heater described in the technical description “Unified Motor Heater UMP-350 Model 350” (2000), manufactured by the Pryluksky rental plant “Pozhmashina”. The device is mounted on a self-propelled chassis and contains a heat generator installed in the body with an air supply device and an exhaust air duct. The heat generator contains a power take-off box, a combustion chamber with a spark plug and an air damper, a starting and working nozzle for spraying fuel, and a heater installed along the air flow direction with the outlet of heated air to the front wall of the body. The device for supplying air is a fan for supplying air to the air heater and to the combustion chamber through the bell. Fuel from the tanks is sucked up by the pump and pumped under pressure into the fuel lines of the air heater. The pump is driven by a belt drive from the fan shaft. The fan takes air through the open rear door of the body. Flexible hoses of the exhaust air duct are also located in the body, equipped for servicing the air heater with a small door in one of the sides.

A disadvantage of the known device is also the relative energy consumption and inefficiency due to the need for heating air with a negative temperature in winter conditions. At the same time, the operation of the air supply device depends on the engine of the self-propelled chassis.

The task to which the utility model is directed is to increase the efficiency, reliability, and provide convenience in using heating devices, including in the climatic conditions of the North.

The technical result obtained when using the device is expressed in economical heating of objects without significant complication of the design of the heating system when using a gas heat source.

To solve this problem, a device for heating objects with a gas heat generator, including a connection point to the fuel network, an air heater unit consisting of a heat generator and an electric power source, preheating and air outlet, is characterized in that the heat generator includes a burner and a heat exchanger with a closed combustion chamber, at the same time, the heater block is additionally equipped with a mixing chamber for preheating the air, an air pressure fan in the internal ozduhoprovodnoy line located between the mixing chamber and a heat source, a heated air outlet of the air duct assembly includes the guide taps for supplying heated air to the heated object. In this case, the air ducts can be made of flexible elements and with thermal insulation, and as an alternative source of electricity for the burner and fan, the device can be equipped with an autonomous electrical unit.

A comparative analysis of the features of the claimed solution with the features of the prototype indicates the compliance of the claimed solution with the criterion of "novelty."

The combination of features of the utility model provides a solution to the stated technical problem, namely, providing economical heating of objects.

The claimed device is illustrated in the drawing, where the figure shows the layout of the elements of the system (see. Fig.).

The power supply of the device is carried out through the node connecting to the fuel network (1). The heat generator consists of a burner (2) and a heat exchanger (3) with a closed combustion chamber. In this case, indirect heating of the heat exchanger is carried out, separately diverting the combustion products into the external environment by a chimney. The burner (2) is an automatic burner with forced air supply using a fan, equipped with automatic devices for electric ignition, flame control and burner control. The burner (2) is connected to the node connecting to the fuel network (1) of the energy source using the fuel line and to the source of electricity (4) using the electric cable. An electric fan (6) of air pressure is tightly adjacent to the heat exchanger (3).

A mixing chamber (5) for preheating the air is located between the outdoor air intake unit and the electric fan (6) of the air pressure and mixes the outdoor air with part of the heated air taken from the internal air duct (10). At the same time, the temperature of the air mixture after the mixing chamber (5) provides the temperature of the operational capabilities of the heat generator, which is necessary for the operability of the air heater unit under extremely low temperatures (for example, to minus 70 degrees Celsius).

The exhaust air duct of a portion of the heated air from the internal air duct (10) is provided with a damper (11) to control the amount of air taken. Then through the pipe (7) goes to the external air ducts (8).

The above described components without external air ducts (8) and without a connection unit to the fuel network (1) form an air heater block.

The heated air outlet assembly consists of external air ducts (8) with guide bends (9) for supplying air to a heated object and provides a favorable microclimate for the object.

The object of heating can be parking lots, construction sites, premises, etc.

A device for heating objects with a gas heat generator works as follows.

Fuel is supplied from the connection unit to the fuel network (1) to the burner (2) connected to the heat exchanger (3) of the air heater and a source of electricity (4). At the same time, to ensure autonomy, the source of electricity (4) can be configured to consume the same fuel from the node connecting to the fuel network (1). Outside air passes through a mixing chamber (5) for preheating the air, where it is mixed with part of the heated air from the internal air duct (10). Next, the air mixture through an electric fan (6) with a pressure enters the heat exchanger (3) of the heat generator, where it is heated to the nominal temperature set by the operator.

Heated air from the heat exchanger (3) through the internal air duct (10), pipe (7), external air ducts (8) and guide bends (9) is supplied to the heating objects.

The temperature and volumetric capacity for heated air is controlled by a speed controller on the electric motor, which ensures the operation of the electric fan (6). With increasing temperature and volumetric productivity, the energy carrier consumption proportionally increases with the help of the regulator in the burner (2) of the heat generator.

When disconnecting the connection unit to the fuel network (1), switching to a reserve source, for example, compressed or liquefied gas in cylinders, liquid fuel in tanks, etc.

An example of a technical solution.

The heater block connected to the gas pipeline and the insulated air pipes with guide bends are mounted around the perimeter of the parking lot in an open space, the number of which may depend on the parking area. A motor vehicle drives into the guide bend with the side of the engine compartment, which is subsequently covered with a heat-insulating blanket. The heat-insulating blanket creates an enclosed space for preserving heat from heated air, which favors setting the device to periodic action to save energy. The control of the heater block is carried out by the operator. The device is configured to maintain the temperature to start the engine in winter. The heating of vehicles in the parking lot is carried out by creating a favorable microclimate of the engine compartments by blowing heated air.

Thus, the system is characterized by a simple design, high efficiency in use, efficiency in energy consumption during heating, including simultaneously several objects.

Claims (4)

1. A device for heating objects with a gas heat generator, including a connection unit to the fuel network, an air heater unit consisting of a heat generator and an electric power source, preheating and hot air outlet units, characterized in that the heat generator includes a burner and a heat exchanger with a closed combustion chamber, wherein the heater block is additionally equipped with a mixing chamber for preheating the air, an electric fan for the air pressure in the air duct master and located between the mixing chamber and the heat source and the heated air outlet assembly consists of air ducts with rigid guides taps for supplying heated air to the heated object. 2. The device according to claim 1, characterized in that an autonomous electrical unit is used as a source of electricity. 3. The device according to paragraphs. 1 and 2, characterized in that the air ducts of the heated air outlet are made of flexible elements. 4. The device according to paragraphs. 1 and 2, characterized in that the air ducts of the heated air outlet are thermally insulated.

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