Welding

What is claimed is:

1. Apparatus for generating a supply of hydrogen gas and oxygen gas in proportion to consumption of said gases comprising,

a. an electrolytic cell means for electrolytic generation of said gases, said cell being enclosed to entrap said generated gases,

b. a gas outlet carried by said cell to allow a portion of said generated gases to discharge from said cell,

c. a source of electrical power connected to said cell by a suitable circuit, and

d. an electrical power regulating means for controlling the amount of power to said cell including:

a first chamber having a selected cross-sectional area and an upper and lower inlet, said upper inlet connected with said gas outlet of said cell,

a second chamber having a selected cross-sectional area at least one half less than that of said first chamber and a lower inlet, said inlet connected to said lower inlet of said first chamber by a suitable passage,

a first and second inverted conically-shaped and concentrically aligned resistant electrode carried in a vertical relationship in said first chamber, said electrodes connected in said circuit between said power source and said cell, and

a quantity of electrolytic solution carried in said chambers to partially fill said chambers and interface with said electrodes to close said circuit,

wherein an increase in the pressure of said entrapped gases depresses the level of said electrolytic solution in said first chamber to cause an increase in resistance of said electrodes thereby reducing the amount of power to said cell.

2. Apparatus for generating a supply of hydrogen and oxygen gases comprising,

a. an electrolytic cell means for electrolytic generation of said gases, said cell being enclosed to entrap said generated gases,

b. a gas outlet carried by said cell to allow a portion of said generated gases to discharge from said cell,

c. a source of electrical power connected to said cell by a suitable circuit, and

d. an electrical power regulating means including,

a first chamber having a selected cross-sectional area and an upper and lower inlet, said upper inlet connected to said outlet of said cell,

a second circular chamber having a preselected cross-sectional area, said area of said second chamber being at least one-half that of said first chamber, and a lower inlet, said inlet connected to said lower inlet of said first chamber by a passage,

a quantity of electrolytic solution carried in said chamber to partially fill said chambers,

a quantity of non-conductive liquid having a specific gravity less than said electrolytic solution carried in said first chamber above said electrolytic solution, and

a first and second electrode carried by said first chamber in a vertical relationship and extending inwardly therein to interface with said electrolyte solution, said electrodes connected in said circuit between said power source and said cell to close said circuit,

wherein a sufficient increase in pressure of said entrapped gases depresses the level of said non-conductive liquid and said electrolyte to interface said upper electrode with said non-conductive material whereby said circuit is opened.

3. An apparatus according to claim 2 and further characterized by said apparatus comprising,

a flash-back arrestor in the form of an elongated capillary having a first end connected to said outlet of said cell and a second end connected to a gas consumption means.

4. An apparatus according to claim 2 and further characterized by said apparatus comprising,

a flash-back arrestor in the form of an elongated capillary having a first end connected to said cell outlet and a second end connected to a gas consumption means.

5. System for generating a supply of hydrogen gas and oxygen gas in proportion to a consumption of said gases and protecting said system comprising:

a. an electrolytic cell means for electrolytically generating said gases, said cell being enclosed to entrap said generated gases,

b. a source of electrical power connected to said cell by a suitable circuit, and

c. a gas outlet means to allow a discharge of said gases and protect said cell from a flash-back and provide regulation of said gas generation further including,

a first vertical chamber having a top inlet connected with said cell and a bottom outlet,

a second vertical chamber having a substantially greater cross-sectional area than said first chamber, said second chamber having a top outlet for discharging said gas to a gas consumption means, and a first and second bottom inlet, said first inlet connected to said bottom inlet of said first chamber by a horizontal passage,

a third vertical chamber having a bottom inlet connected to said second bottom inlet of said second chamber, said third chamber having a cross-sectional area greater than said first chamber and less than said second chamber,

a quantity of electrolytic solution carried in said first, second and third chamber to partially fill said chambers,

a first and second inverted, conically-shaped resistant electrodes concentrically aligned and carried by said second chamber in a vertical relationship, said electrodes connected in said circuit to close said circuit when in contact with said electrolyte,

wherein an increase in pressure in said second chamber depresses the level of said electrolyte to decrease the generation of said gases by increasing resistance in said circuit by increasing exposed portions of said resistant electrodes, said electrolyte acting as a protective barrier between said gas consumption means and said cell.

6. An apparatus according to claim 5 and further characterized by said apparatus comprising,

a flash-back arrestor in the form of an elongated capillary having a first end connected to said cell outlet and a second end connected to a gas consumption means.