TH607C3 - An electrolytic gas generator module for converting water into a mixture of hydrogen and oxygen. - Google Patents

Abstract

The electrolytic gas generator module includes a casing 10, one or more 20 (30) electrolyte cells installed in a enclosure 10, cooling fan 40, which The electrolyte cell 20 (30), the water container 50, was placed in a enclosure 10, next to the electrolyte cell type 10, and the fluid contacted the cell type. Electrolytic 20 (30), cooling tank 60, which is placed in an enclosure 10 next to the water container 50, several 70 cylindrical cooling devices with contacts of The fluid with the water container 50 and the control panel 80, which includes the pressure regulator 82 which is connected and has contact of the fluid with the water container 50 and the cooling tank 60, the water tank 12 is connected to the container. Water 50 The low water level receiver 582 is installed on the water container 50 for generating the low water level signal.The pump 14 is placed in the water tank 12 for the delivery of an electric solution containing water from the water tank. 12 To a container of water 50 when a low water level signal is received.

Claims (2)

1.Electrolytic gas generator module for converting water into a mixture of Hydrogen and oxygen Which contains the following components An enclosure built with holes for air inlet and vent holes in it. One or more electrolyte cells installed in the enclosure for Water is converted by electrolytic solution into a mixture of hydrogen and oxygen, where the electrolyte cells combine several electrode plates and Multiple dielectric type rings Each of which is placed between the pads that are The next two aforementioned And work with the aforementioned two pads next to it To set the channel boundaries during Which converts water by electrolysis to A mixture of hydrogen and oxygen is formed Where such electrolytic cells Still include the belonging The first water inlet and gas outlet through which the fluid contacts the compartment, the cooling fan is installed in the enclosure next to the type cell. Such electrolytic and actionable cells to cool the type. Such electrolytic One or more cylindrical cooling devices equipped with upper fins that are The fluid is connected to and is in contact with the fluid with one of the said cell types. The electrolyte receives the flow of the hydrogen-oxygen mixture from the chamber and is positioned next to the cooling fan. To remove moisture in The flow of hydrogen and oxygen mixtures when cooled by a fan. Such cooling The water container is placed next to the electrolyte cell, which is adjusted for An electrolytic solution containing such water in it And which is the least Water outlet, which will be It is connected to and has contact of the fluid with the water inlet of the electrolyte cell. This is used to feed an electric solution containing water into the chamber. And at the very least One gas inlet, which is connected to and has fluid contact with the cooling device. The cylinder is used to receive the flow of hydrogen and oxygen from the chamber. To the said water container The first gas tube leading upwards from and having fluid contact with the vessel, and which has the top open end and at least the second emission channel, is Position it next to the open end at the top. The first safety cover that covers the top end of the said first gas pipe. The water tank is attached to the aqueous vessel and adjusted to store the aqueous solution, the low water level receiver provided on the water container for generating. Low water level signal when a predetermined low level of the solution is detected. Electric water mixed with water in such a container The pump is electrically connected to the low level receiver to deliver an electric solution containing water from the water tank to the said water container when available. Reception of such low water level signals A pressure regulator with at least one outlet end and one inlet which is It is connected to the second outlet of the first gas pipe to control the pressure. In the discharge of the hydrogen-oxygen mixture flow at the end of the inlet, the cooling tank is adjusted to receive the refrigerant in it. And which have gas inlet at Two at least one channel which will be connected to And where there is fluid contact with the outlet end This means of the regulator to receive and cool the mixture flow. Between hydrogen and oxygen from the said container The second gas tube leading upwards from and having fluid contact with the drain tank. Such heat And which has the top open end and the third emission channel next to Open end at the top for the release of the hydrogen-oxygen mixture from The cooling tank to the atmosphere and a second safety cover that closes the aforementioned opening end of the second gas pipe. 2. The electrolytic gas generator module as described in claim 1, which continues to contain The refrigerant tank is connected to the cooling tank and adjusted to Refrigerant storage Built-in low refrigerant level receiver on the cooling tank. It is used to give a low refrigerant level signal when a low level is detected. A predetermined amount of the refrigerant in the said cooling tank and the refrigerant pump is electrically connected to the level receiver. Such low refrigerant to deliver the refrigerant from the said refrigerant storage tank. To the cooling tank when the aforementioned low refrigerant level signal is received