CS255339B1 - Equipment for optimum use of solar energy in combination smoking - Google Patents

Abstract

The device is intended for the use of solar energy in the appliance space when it is heated by a combined heat source - a solar air collector and another heat source from the point of view of optimizing the use of solar energy. Optimization of the interaction of both heat sources is achieved by the fact that the control system, based on the sensor data. solar radiation intensity and. according to the magnitude of the solar radiation intensity, turns on or off the fan in the solar air collector circuit based on the temperature difference at the inlet and outlet of the solar air collector, keeps the solar air collector circulation circuit running using a servo drive and a damper based on the temperature of the dry thermometer in the appliance space, regulates the amount of circulating air passing through the solar air collector and the amount of heat transfer medium supplied to the appliance space. The device can be used where it is necessary to maintain the parameters of the appliance environment according to the prescribed regime with variable heat supply from the solar air collector and from another source.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus for optimum utilization of solar energy by combined heating of an appliance by a primary heat source and a solar air collector as a secondary heat source, comprising a drying oven. with the first actuator and in the suction and discharge piping there are built-in regulating dampers, which are connected to the second actuator, while dry and wet thermometer is built into the dryer space and also the solar air collector is connected to the dryer. radiation.

The previously known systems for using solar energy in an appliance in which the environmental parameters are prescribed do not simultaneously solve the regulation of the temperature and humidity of the environment, which would optimize the interaction of the solar air collector with another heat source. Bivalent solar collector systems are known which are solved from the point of view of the interoperability of both heat sources, for example US Patent No. 4,102,328 discloses pool water heating with a blunt system controlled by an infrared sensor in a solar water collector and a temperature sensor in the pool. 203 424 and 4 201 192 solve the heating of the air in the solar air collector in combination with the heat accumulator by means of temperature sensors, ie thermostatic control circuit, but neither of the known bivalent systems solves the cooperation of both heat sources as a function of prescribed environmental parameters, means temperature and humidity in the appliance. Furthermore, said devices are expensive, demanding in design and troubleshooting.

The above-mentioned drawbacks are eliminated by the device according to the invention, which is based on the arrangement that a solar radiation sensor is integrated into the solar air collector structure, which is connected to a control system consisting of a dry thermometer placed in an appliance connected to a regulator which is connected to a control valve actuator on the heat transfer medium supply line, a control damper actuator located in the solar air collector circulation circuit and a solar air collector circuit circulation fan and two thermometers, one of which is integrated at the inlet and the other at the solar air collector outlet. A wet thermometer, which is located in the appliance compartment, is connected to the regulator, which controls the dampers at the air inlet and outlet of the appliance via the actuator. The solar air collector circle and the size of its absorption area are sized so that its heat output, even at maximum solar radiation intensity, does not exceed the maximum required heat consumption in the appliance, justifying the fact that the device does not need to include a heat accumulator in the heating circuit.

The device according to the invention ensures the optimization of heat consumption from the primary source by integrating a binary heat source according to the intensity of solar radiation and the requirements for the environmental parameters in the appliance, since according to the laws applicable to air it is possible for prescribed humidity and temperature unambiguously determine the amount of heat needed to achieve these values, which without measurement and the synergistic regulation of humidity and temperature cannot be ensured. The device according to the invention makes it possible to use the solar air collector in such a way that the circulation fan of the solar air collector circuit is only activated when the heat gains from the solar air collector are higher than the operating costs of the fan. The heat gains in the solar air collector do not exceed the maximum required heat consumption in the appliance, which eliminates the advantage of using a heat accumulator, thereby simplifying the device and reducing its investment costs. The appliance may be, for example, a dryer or other object that requires adjustment of the environmental parameters according to operating rules.

The attached drawing shows an example of an embodiment of the device according to the invention, where the connection of the device to the solar air collector is connected schematically to a drying chamber.

The solar air collector 2, in which the solar radiation sensor 17 is built, is connected to the dryer 1, the second air circulation fan 11, the third regulating flap 9 with the second actuator 10, are integrated into the solar air collector 2 supply line. a second thermometer 18 is installed, a dryer 1 incorporates a first circulating fan 3, a heater 4 having a control valve with a first actuator 5 in the supply line, a first regulating flap 6 incorporated in the suction line of the dryer 1, a second regulating valve 6 The damper 7, which is connected to the third actuator 8, into the space of the dryer 1 is built-in dry thermometer 13 and wet thermometer 16, the second regulator 12, the first regulator 14 and the third regulator 15 form separate control units.

The drying air 1 is connected to the solar air collector 2, the air circulation in the dryer 1 is ensured by the first circulating fan 3 and the heating of the circulating environment is provided by the heater 4, the supply of the lime medium is controlled by the first servo drive 5; 6 and a second regulating flap 7, by means of a third actuator 8, the amount of air passing through the solar air collector 2 is controlled by a third regulating flap 9 by a second actuator 10, the air circulation through the solar air collector 2 is provided by a second circulation fan 11. the dry thermometer 13 monitors the prescribed dry temperature and sends a signal to control the first actuator 5 and the second actuator 10, through which the signal passes to the first regulator 14, the third regulator 15 using the wet thermometer 16 monitors the prescribed value Here, the first controller 14 reassesses the signals from the solar intensity sensor 17, the second thermometer 18, and the first thermometer 19.

The device works on the principle that in the case of insufficient solar radiation monitored by the solar radiation sensor 17, the second circulation fan 11 and the third regulating flap 9 closed by a second actuator 19 controlled by the first solar air collector regulator 14, then a dryer 1 operates on the basis of the second regulator 12

235339 and the third regulator 15 in a known manner as in an oven which is heated by only one heat source, for example by steam. When the solar radiation reaches the set value, the first regulator 14, by means of the second actuator 10, turns on the second circulating fan 11 and opens the third regulating flap 9 to the initial position, starting to observe the temperature difference before entering the solar air collector 2, and at the solar air collector second

If the temperature difference is less than that calculated from the heat balance of the air collector 2 and the dryer 1, verified during calibration and set on the first regulator 14, the first regulator 14 switches off the second circulation fan 11 from operation and closes the third control flap 9 if the temperature difference is more than desired, it then commands to gradually shut off the heat transfer medium supply by the first actuator 5 and to further control the third regulating flap 9 by the second actuator 10 at the prescribed dry temperature measured by the dry thermometer 13.

The solar energy utilization device of the present invention allows optimal operation of the solar air collector while substantially reducing heat consumption from traditional energy sources.

Claims (2)

255339 The carrier medium is controlled by the first servo-drive 5, the ratio of fresh and circulating air is controlled via the first regulating flap 6 and the type of regulating flap 7, by a third, actuator 8, of the amount of air passing through the solar air collector 2 is controlled by a third regulating flap 9 by means of a second servo-drive 10, the circulation of air through the solar air collector 2 is provided by a second circulation fan 11. The second regulator 12 uses a dry thermometer 13 to monitor the prescribed dry temperature value and send a signal to control the first servo drive 5 and the second servo drive 10 through which the signal goes to the first controller 14, the third controller 15, by means of a wet thermometer 16, follows the prescribed value of the wet thermometer 16 and sends a control signal to the actuator 8, the first controller 14 re-evaluating the signals from the solar radiation sensor 17, the second thermometer18 and first heat The device operates on the principle that the second circulatory fan 11 and the third regulating valve 9 closed by the second servo-drive 19 controlled by the first solar air collector controller 14 are put out of service by the insufficient intensity of the solar radiation monitored by the solar radiation sensor 17. at that time, the dryer 1 operates on the basis of the second regulator 12 6 and the third regulator 15 known in the case of an oven which is fumed with only one heat source, e.g. steam. When the solar radiation intensity is set, the first regulator 14, by means of the second servo drive 10, turns on the second circulating fan 11 and opens the third regulating flap 9 to the initial position, starting to observe the temperature difference before entering the solar air coil 2, and output from the solar air collector 2. If the temperature difference is less than calculated from the heat balance of the air collector 2 and the drying oven 1, verified at the first controller 14, the first controller 14 switches off the second circulation fan 11 from operation and closes the third controller. the regulating flap 9, if the temperature difference is greater than desired, then provides a gradual closing of the heat transfer fluid supply via the first servo drive 5 and further control of the third regulating flap 9 by the second servo drive 19 according to the prescribed dry temperature The solar energy apparatus of the present invention allows for optimum operation of the solar air collector while substantially reducing the heat consumption of waste sources. OBJECT A device for optimum utilization of solar energy in the combined heating of the appliance by a primary heat source and a solar air collector and a secondary heat source consisting of an oven with a built-in circulating fan and a heater, which is connected to the primary supply line. the media has a built-in control valve with a first servo-drive and built-in regulating flaps that are connected to the second servo drive in the suction and discharge pipes, while a dry and wet thermometer is integrated in the dryer and in the construction of a solar air co-connected to the dryer The present invention provides that a second circulating fan (1i, in front of which a third regulating flap (9j) with a third regulating flap (9j) is placed in the supply line) is incorporated into the circuit of the air collector (2). druhýmservopo an actuator (10) coupled to a first servo drive (5) and a first regulator (14) which is further coupled to a solar radiation sensor (17), for example a supply pipe thermometer (19), a second thermometer (18) the outlet pipe, the second regulator (12) connecting the first actuator (5) and the dry gauge (121, wherein the third regulator (15) is connected to the wet thermometer (16) and the third actuator (8) . 1 sheet of drawings