BRMU8802931U2 - thermo hydraulic gas support system - Google Patents

Abstract

The thermo hydraulic home gas support system is intended to completely automate the operation of the gas heater in the solar heater support, making it work only when the water temperature is low and when water is consumed. hot by preventing the heater from working by making unnecessary hot water reserves. Said system consists of a thermostat (1), connected in series to the flow switch (11), forming a kit with cold water inlet pipe (10), cold water supply pipe and surplus hot water return (2). , for the consumption barrel (17) hot water inlet pipe (6) with check valves (4) which prevents cold water from entering the main hot water outlet pipe (8) and allows the return of hot water boiler (14) at system startup and a check valve (5) that prevents hot water from returning to the pump (18) which would impair system operation, during this time water passes through the gas heater (19) down the outlet tube to the gas heater (7), returned to the consumption barrel (17) through the return of heated water (9), has a safety thermostat (3) to prevent overheating of the system caused by fault or defect and a check valve (12) connected to the to the flow switch to facilitate water entry into the system and (15) the location of the thermostat sensor (1) or as close as possible to the boiler (14) at its top.

Description

HYDRAULIC GAS SUPPORT THERMAL SYSTEM.

This utility model refers to a gas support kit for home solar heaters, with the aim of automating the gas heaters used as support for home solar heaters working so that they only switch on when there is consumption and temperature. the water is low, but using the water coming from the boiler on its top, where the temperature will be around 45 degrees facilitating its heating the moment it passes through the heater causing minimal gas consumption.

Currently a kit with a thermostat and an electronic control is used where, if left in automatic, the control keeps the reservoir always warm or in the manual control where the user presses a button manually causing the water to be heated to the set temperature and the electronic control. turns off the heater and will only turn back on if the user presses the same button again. This system has the disadvantage of keeping the boiler always warm, even if there is no prediction of hot water consumption, or the user switches to the manual control where he has to manually turn on the system.

In order to solve this problem the idea is to completely automate the system by interconnecting the heater directly into the consumption barrel and making it turn on only when the water temperature is low and at the exact moment when the user opens a shower or faucet, for example, automatically shutting down. when closing the tap. It is being added in this order that the gas heater's water-return pipe be interconnected in the kit before going to the consumption barrel, in order to prevent unnecessary circulation of water through the heater when the pump is turned off due to level difference between the system. and the consumption barrel and a safety thermostat that will turn off the heater in case of any defect in the system or system failure that could cause the water to overheat. A parallel check valve has also been added to the flow switch to facilitate water entry into the system when there is a higher demand.

Said kit consists of a system that has a thermostat and a flow switch connected in series, which controls the pressurizer of the gas heater, at a time when the water temperature is low and there is cold water flow in the system. Associated with this, in the hot water outlet, the piping has a non-return valve system that, when the water is at the ideal temperature for consumption, it goes through a main path without activation of the system. However, if the water temperature is below normal, the hydraulic system will activate the pressurizer that will turn on the heater and return the heated water to the consumption barrel by taking an alternative path without compromising the system operation.

The whole system will be better understood through the detailed figure (attached) and the dotted area followed by the numbers 1,2,3,4,5,6,7,8,9,10,11,12, the kit to be patented. With reference to all the following, one can observe the cold water reservoir (13) which is connected to the cold water inlet pipe of the system (10). (2) Refers to the cold water feed pipe and return hot water overflow from the consumption barrel (17), which comes from the gas heater (19), pressurized by the pump (18), only when the boiler water temperature ( 14) it is low, controlled by the thermostat (1), and there is a water consumption that will be charged by the flow switch (11), when opening the tap, shower, etc. The check valve (4) prevents the entry of cold water from the main hot water outlet (8) and allows excess hot water to return to the boiler (14) at system startup. The check valve (5) prevents the return of hot water to the pump (18) that would impair system operation. The hot water inlet tube (6) sends water to the consumption barrel (17) through the main hot water outlet tube (8) when the water temperature is good for consumption. Falling the water temperature when there is consumption the system turns on the pump (18), causing the water that will be at a low average temperature, pass through the outlet tube to the gas heater (7) and return to the consumption barrel (17) through of the heated water (9). The system also has a safety thermostat (3) and a check valve (12) parallel to the flow switch (11) to facilitate water entry into the system. Note (15) the location of the thermostat sensor (1) or as close as possible to the boiler (14) at its top and (16) the solar collector completing the design.

Claims (2)

1. - "HYDRAULIC GAS SUPPORT THERMAL SYSTEM" characterized by constituting a thermostat (1), connected in series to a flow switch (11), forming a kit with cold water inlet pipe (10), cold water supply and water return overflow (2) of the consumption barrel (17), hot water inlet pipe (6) with non-return valves (4) that prevents cold water from entering the main hot water outlet pipe (8) and allows water to return Excessive hot water for the oboiller (14) at system start-up and a non-return valve (5) that prevents the return of hot water to the pump (18) which would impair the operation of the system yet has outlet tube for the gas heater (7) and heated water return (9), a safety thermostat (3) and a check valve (12) connected parallel to the flow switch to facilitate water entry into the system, (15) refers to where the thermostat sensor should be placed (1) ie as close as possible to the boiller (14) at its top.