SU802735A1 - Solar system for hot water supply - Google Patents

Description

The invention relates to solar technology and can be used to supply consumers with hot water.

A well-known hot water solar system containing a solar energy receiver, the supply pipe of which is connected to the storage tank located above the receiver via a thermostatic valve, and the return pipe directly, and a float valve located in the storage tank,

The disadvantage of this solar system is the low degree of use of solar energy in the absence of water circulation at the time of heating the water to operating temperature.

The purpose of the invention is to increase the degree of use of solar energy.

This goal is achieved in that the thermostatic valve is made in the form of a metering tank with a float installed in it and a valve connected to it, the metering tank being connected to the return pipe, and the specific gravity of the float is equal to the specific gravity of the hot water consumed. The float can “be connected to the valve by means of the two shoulders 5 lever attached to the vessel wall.

In FIG. 1 shows a solar hot water system; in FIG. 2 - an embodiment of a thermostatic valve 10.

The hot water solar system contains a solar energy receiver 1, the supply pipe 2 of which is connected * S to the storage tank 3 through a thermostatic valve, while the return pipe 3 is directly connected to the storage tank. There is a float valve 5 in the storage tank.

²⁰ Thermostatic control valve is made in the form of a metering tank 6 with a float 7 installed in it and a valve 8 connected to it. Dispensing valve, with return valve with reverse flow · - ^: -с ·. ' J-GREDSTESM pipeline. 9 _s Potrrbrdur; ·; ”, the water supply is connected and Zaiu.-accumulator 3. The float 7 is shallow connected to the valve 8 by means of the lever 5. e, attach to the battery. TXTs M / SHRSTK 9 ;; SPabzHEN GOU- volume 72.,

The solar system works as follows.

Cold water through the float valve 5 enters the lower part of the accumulator tank 3 and fills the ECU to level AA. Since the specific gravity of the float 7 is equal to the specific gravity of the consumed hot water, a buoyant force acts on it, directed vertically upwards, towards the valve 8 rises . In the presence of solar radiation, thanks to thermosiphon circulation, water circulates from the lower part of the dosing tank Q and the 9 9 при pipe to the iodine pipe 2 to the upper part of the tank 6. At the time of heating the water of the tank 6 to the operating temperature, the buoying vise acting on the float 7 decreases and it begins to sink due to the weight of the load 12 * Valve 8 is lowered and hot water is forced into the upper part of the storage tank 3 with cold water coming from the bottom of the storage tank to the receiver 3 via a return pipe row 4, due razkosti specific gravities of water. During heating, the amount of hot water in the storage tank 3 increases. ”In this case, the thermostatic valve ensures that the water is heated in portions to the required temperature.” Hot water is taken for consumer 10 by the upper part of the tank 3

The connection of the float 7 with the valve 8 by means of the two shoulders lever 11 enhances the displacing action of the float 7 on the valve 8 "

In the proposed solar system, the consumer is provided with water of the right temperature, the amount of which decreases with a decrease in solar radiation. ”This is done. thermostatic valve having a simple design and high reliability. Availability

802735. 4 of pipeline 9 allows continuous thermosiphon water circulation, which provides a high coefficient of heat transfer from the receiver to the water, which will increase the efficiency of the receiver and does not require a tight valve to close the direct pipeline, since the pressure difference on both sides of the valve is due to the difference in the specific gravity of the water, ie " it is equal to a pressure of the order of 10–20 mm of water ”, Art. The latter increases the reliability of the system, because during operation, the closure density of the direct pipeline valve is lost due to its operation, which, with 15 large pressure drops, can lead to a loss of operability of the solar system. ”In this solar system, this leads to microcirculation through the valve, while The main feast of coulidia is carried out through pipeline 9 (due to lower hydraulic resistance), i.e. the efficiency of the solar system is almost lost.

The present invention increases? 5 the degree of use of solar energy.

Claims (2)

I The invention relates to solar technology and can be used when consumers are getting hot with hot water. A hot water supply solar system is known that contains a solar power source, the supply pipe of which is connected to the tank-battery located above the receiver via a thermostatic valve and the return pipe-line device, and the float valve located in the tank-battery ll The disadvantage of this gelnosm is the low degree of solar energy utilization with the water circulating at the moment of heating the water to the operating temperature. The purpose of the invention is to increase the use of solar energy. The goal is achieved by the fact that the thermostatic valve is made in the form of a metering tank with a float installed in it and a valve connected to it, the metering tank being connected to the return pipeline, and the specific gravity of the float is equal to the specific weight of hot water consumed. The float can be connected to the valve by means of a two-armed lever attached to the vessel wall. FIG. 1 shows a solar hot water supply system; in fig. 2 shows an embodiment of a thermostatic valve. The hot water solar system contains a solar energy receiver 1, the supply pipeline 2 of which is connected to the storage tank 3 through a temperature-controlled valve, while the return pipeline 3 about the storage tank is directly connected. A float utapan 5 is in the accumulator tank. The thermostatic valve is made B in the form of a dispensing tank 6 with a float 7 installed in it and a valve 8 connected to it. The dosing ec 1 .. af.rvp34C7 :: f: J .: TrubOpr15VG; DE 9LOG ;; .; - y :: - g. .X Oh gs; ry th vodgy podasedknen : - OTlia-PJ-KybrynHTOpy 3. THE THERMAL 7 MO;: set of coadinea with valve 8 psredt-d: ci: .teugshe; its levers., Rykleple ---:;; , -,.; ... -. an:.: - :: stop; f, j; The rov-1 e / scosis-rsMfl works as follows. at once Cold water through the opposite kpa-fiffij 5 comes to the lower part of the tank-asionviyjiHTOpa 3 and. Fills it with C to the eye. A-Aj So the specific weight is 7 the same as the weight of the water consumed, then you can use it skpa - directing the vertical Bverer to the valve 8 pillars. When solar radiation is supplied by the bpaa-dar of a thermosyphon gas pump, water is circulated from the lower part of the dosing tank 6 to the pipeline 9, and at the top of the tank, it will warm up the tank 6 in the MOMeiiT to warm the water in tank 6 to The working temperature of the buoyant force acting on the pop 7 is reduced, and it is thanks to the ve. su r-pysa. 12 begins to sink. The valve 8 is lowered and hot water is displaced into the upper part of the tank of the humulator 3 with cold water coming from the lower part of the ak-Cumultor tank to the receiver .1 through the return pipe 4 for the specific weight of the zody The heating of the KOjTiPiecrao gorggchay of water in the tank is Ak15um, - 1 tore 3 increases. This thermostatic valve provides the geogravanka of water with pistons to the required temperature. The connection of the float 7 to the valve 8 by means of the double-lever lever 11 enhances the moving action of the float 7 on the valve 8 In the proposed solar system, the consumption is provided with water of the desired temperature, the amount of which decreases: s with a decrease in solar radius. This is done. thermoregulating valve with simple design and high reliability 2733 .4 Pipeline 9 allows conducting continuous thermal-siphon circulation of water, which provides a high heat transfer coefficient from the water receiver8, which will increase the efficiency of the receiver and does not require a tight Kcsfj valve, since the difference is 9 in. on both of the distress, the difference between the specific gravities of water, t, e, is equal to the pressure of 10.10 O of the water of Art. The latter increases the reliability of the system, since aKainyaTauw tightness of the valve –f of the direct pipeline is due to it being activated at 15 minutes, with a loss of efficiency, CGTG-; helioscopy In this hepiosystem, this is when syphiKi forms microcirculation in the form; e. paeoix crracoOHocTb practical-g system is lost, the present invention increases the utilization of solar energy, FORUMA i. The solar water supply heliosystem contains a solar energy receiver30, the supply pipeline of which is connected to the storage tank above the receiver via a thermostatic valve and the return valves directly to cTseHifOj. and re.polok enenny tank-accum. In this case, in order to increase the efficiency of solar energy, the thermostatic valve is designed as a dosing container with installed; it has a float and is connected to the SMivf valve pakoMz and the dosing capacity It is connected to the return pipeline, and the specific weight of the float is equal to the specific weight of the hot water consumed. 2. The heliosystem according to paragraphs, 1, of that, and the fact that the float is connected to the valve by means of a double-arm lever attached to the vessel wall. Sources of information taken into account in the examination of 1 "UK application No. 1500613, class 4 and / published. 1978   / ----, FIG. 2 o Q