CN107177860B

CN107177860B - Oxyhydrogen room heater

Info

Publication number: CN107177860B
Application number: CN201610156342.1A
Authority: CN
Inventors: 安士英
Original assignee: Individual
Current assignee: Individual
Priority date: 2016-03-12
Filing date: 2016-03-12
Publication date: 2020-04-10
Anticipated expiration: 2036-03-12
Also published as: CN107177860A

Abstract

The invention relates to the manufacturing of heating equipment, in particular to an energy-saving and environment-friendly oxyhydrogen heater. The device is provided with an electrolytic bath, a plastic hose 1 is arranged around the electrolytic bath and connected with a radiating pipe, the radiating pipe is connected with the plastic hose 2, the plastic hose 2 is communicated with a water-gas separating tank, the water-gas separating tank is also provided with a plastic hose 3 and communicated with a filtering tank, the filtering tank is provided with a plastic hose 4 and is provided with an air valve which is communicated with a mixed pipeline in a copper block, the filtering tank is also provided with a plastic hose 5 and is provided with a water valve and a valve which are communicated with a pipeline in the copper block, the copper block is communicated with the mixed pipeline, the mixed pipeline is provided with a nut which is connected with a flame nozzle, and. The invention has the advantages of energy saving, heat generation in water electrolysis and no pollution to air.

Description

Oxyhydrogen room heater

Technical Field

The invention relates to the manufacturing of heating equipment, in particular to an energy-saving and environment-friendly oxyhydrogen heater.

Technical Field

The prior heating equipment generally adopts carbon energy or electric energy, but the emission of carbon dioxide in the carbon energy is controlled by the hard regulation of national policy; the adoption of the electric energy can cause indoor dryness, stuffiness and discomfort and consume a large amount of energy. The invention converts electric energy into heat energy and simultaneously generates hydrogen and oxygen, and the chemical equation is (2H)₂O＝2H₂+O₂) + high temperature.

Disclosure of Invention

The invention aims to overcome the defects and provide an energy-saving and environment-friendly oxyhydrogen warmer.

The technical scheme of the invention is that the oxyhydrogen warmer is characterized by comprising an electrolytic bath 4, a plastic hose 15 arranged around the electrolytic bath is connected with a radiating pipe 6, the radiating pipe 6 is connected with the plastic hose 28, the plastic hose 28 is communicated with a water-gas separation tank 2, the water-gas separation tank 2 is also communicated with a filtering tank 12 through a plastic hose 310, the filtering tank 12 is provided with a plastic hose 414, an air valve 17 is arranged on the plastic hose and is communicated with a mixing pipeline in a copper block 18, the filtering tank 12 is also provided with a plastic hose 515, a water valve 16 and a valve 19 are communicated with a pipeline in the copper block 18, the copper block 18 is communicated with a mixing pipe 22, and the mixing pipe 22 is connected with a flame nozzle 24 through a screw cap.

The electrolytic bath 4 is provided with a plastic pipe 31, a plastic screw rod 39 is arranged in the plastic pipe 31, the rod is sleeved in the straight stainless steel sheet 26 and the horizontal stainless steel sheet 27 in sequence, the adjacent stainless steel sheets are mutually vertical, the two stainless steel sheets are separated by a plastic gasket 40 and fastened by a screw cap 38 and are arranged in the plastic pipe 31, and the two sides of the plastic pipe are sealed by stainless steel sealing covers 29 and fastened and sealed by a screw rod 30 and a screw cap 28; the fire nozzle 24 is externally provided with a fire sleeve pipe 25.

The stainless steel sealing cover 29 is provided with a positive electric connecting column 34 and a negative electric connecting column 35 which are respectively connected with the adjacent first stainless steel sheet wires.

The water-gas separation tank 2 is provided with an explosion-proof device 2 and a pressure gauge 9; the mixing pipeline in the copper block 18 is connected with an ejector pin valve 20; the upper part of the filter tank 12 is provided with a plastic hose 414, and an air valve 17 is communicated with a mixing pipeline in a copper block 18; the lower part of the filter tank 12 is also provided with a plastic hose 515, and a water valve 16 and a valve 19 are communicated with a pipeline in a copper block 18.

Drawings

Fig. 1 is a schematic structural view of the present invention.

FIG. 2 is a schematic view of the left side of the electrolytic cell.

FIG. 3 is a sectional view of the electrolytic cell.

In the figure: 1-explosion-proof device, 2-water-gas separation tank, 3-circulating pump, 4-electrolytic bath, 5-plastic hose 1, 6-radiating pipe, 7-fan, 8-plastic hose 2, 9-pressure gauge, 10-plastic hose 3, 11-explosion-proof device, 12-filtering tank, 13-filtering layer, 14-plastic hose 4, 15-plastic hose 5, 16-water valve, 17-air valve, 18-copper block, 19-valve, 20-thimble valve, 21-electronic ignition wire, 22-mixing tube and 23-connecting screw

The device comprises a cap, a 24-flame nozzle, a 25-sleeve fire tube, a 26-straight stainless steel sheet, a 27-transverse stainless steel sheet, a 28-screw cap, a 29-sealing cover, a 30-screw rod, a 31-plastic tube, a 32-outlet hole, a 33-inlet hole, a 34-positive electrode connecting post, a 35-negative electrode connecting post, a 36-negative electrode connecting wire, a 37-positive electrode connecting wire, a 38-screw cap, a 39-screw rod and a 40-gasket.

Detailed Description

Referring to fig. 1 to 3, the embodiment is explained in detail below.

Open explosion-proof equipment 1 and add the brineelectrolysis in water gas knockout drum 2, through circulating pump 3, the circular telegram in getting into electrolysis trough 4, carry out the electrolysis, produce hydrogen and oxygen, and make the temperature of brineelectrolysis in the electrolysis trough improve rapidly, brineelectrolysis gets back to water gas knockout drum 2 through plastic hose 15 to cooling tube 6 through plastic hose 8 under circulating pump 3 drives, work is started and stopped in cycles, cooling tube 6 is under fan 7's effect, outwards carry the heat, cool off the brineelectrolysis, be favorable to the electrolysis to go on. When the power is on, the electrolysis water generates hydrogen and oxygen in the electrolytic tank 4, and the water temperature is increased, which is the process of converting electric energy into heat energy. The hydrogen and the oxygen are separated from the water in the water-gas separation tank 2, enter the filtering tank 12 through the plastic hose 310 and the plastic hose 414 connected to the upper part of the filtering tank, the air valve 17 is opened, the air valve 17 and the thimble valve 20 generate flame and gaseous water under the ignition of the electronic ignition wire 21 through the mixing pipe 22 and the flame nozzle 24, and the gaseous water and the temperature as well as the redundant oxygen are conveyed outwards under the protection of the sleeve fire pipe 25.

Water is mixed with hydrogen and oxygen in a copper block 18 at the lower part of the filter tank 12 through a water valve 16 and a valve 19, the water valve 16 and the valve 19 are opened, water enters a mixing pipe 22, water is sprayed to a water spray nozzle 24, flames are extinguished, and the effects of closing the flames and stopping working are achieved. The electrolytic tank 4 is modified, as shown in fig. 2, a plastic screw rod 39 at the center of the electrolytic tank is sleeved in a straight stainless steel sheet 26 and a horizontal stainless steel sheet 27 in sequence, the adjacent stainless steel sheets are mutually vertical and are separated by a plastic gasket 40, then the stainless steel sheets are fastened by a screw cap 38 and are arranged in a plastic pipe 31, and the two sides of the plastic pipe are sealed by stainless steel sealing covers 29 and are fastened and sealed by a screw rod 30 and a screw cap 28. The stainless steel sealing cover is provided with the negative electric connection column 35 of the positive electric connection column 34, and the negative electric connection column is respectively connected with the adjacent first stainless steel sheet through wires, so that the stainless steel sheet electrode has the advantages that the electrode stainless steel sheets are completely immersed in water, heat dissipation is facilitated, the stainless steel sheets are fixed at the center and vibration is facilitated, the stainless steel sheets are mutually perpendicular and adjacent, the space part is favorable for flowing water, hydrogen and oxygen rapidly leave the electrolytic cell, and water and gas separation is carried out.

The electrolytic cell is mainly improved, a plastic hose 15 is arranged on the electrolytic cell and connected with a radiating pipe 6, the radiating pipe 6 is connected with the plastic hose 28, the plastic hose 28 is communicated with a water-gas separation tank 2, the water-gas separation tank 2 is also provided with a plastic hose 310 and communicated with a filter tank 12, the filter tank 12 is also provided with a plastic hose 414 and is provided with an air valve 17 and communicated with a mixing pipeline in a copper block 18, the filter tank 12 is also provided with a plastic hose 515 and is provided with a water valve 16 and a valve 19 and communicated with the mixing pipeline in the copper block 18, the copper block 18 is communicated with a mixing pipe 22, the mixing pipe 22 is provided with a nut 23 and connected with a flame nozzle 24, and a fire sleeving pipe 25 is arranged outside the flame nozzle 24. The electrolytic bath 4 is provided with a plastic pipe 31, a plastic screw rod 39 is arranged in the plastic pipe 31, the rod is sleeved in the straight stainless steel sheet 26 and the horizontal stainless steel sheet 27 in sequence, the adjacent stainless steel sheets are mutually vertical, the two stainless steel sheets are separated by a plastic gasket 40 and are fastened by a screw cap, the rod is arranged in the plastic pipe 31, the two sides of the rod are sealed by stainless steel sealing covers 29 and are fastened and sealed by a screw rod 30 and a screw cap 28. The stainless steel cover 29 is provided with a positive electric connecting column 34 and a negative electric connecting column 35 which are respectively connected with the adjacent first stainless steel sheet wires. The water-gas separating tank 2 is provided with an explosion-proof device 1 and a pressure gauge 9, and a mixed pipeline in a copper block 18 is connected with a thimble valve 20; the upper part of the filter tank 12 is provided with a plastic hose 14 and an air valve 17 which is communicated with a mixing pipeline in a copper block 18; the lower part of the filter tank 12 is also provided with a plastic hose 15, and a water valve 16 and a valve 19 are communicated with a pipeline in a copper block 18.

The invention has the advantages of energy saving, heat generation in water electrolysis and no pollution to air.

The embodiments shown in figures 1-3 above are preferred embodiments, showing the substantial characteristics and the remarkable progress of the present invention, which can be modified equally as regards shape and structure according to the needs of the actual use, but also within the scope of protection of the present technical solution.

Claims

1. The oxyhydrogen warmer is characterized by comprising an electrolytic bath (4), plastic hoses 1 and 5 surrounding the electrolytic bath are connected with radiating pipes (6), the radiating pipes (6) are connected with the plastic hoses 2 and 8, the plastic hoses 2 and 8 are communicated with a water-gas separation tank (2), the water-gas separation tank (2) is also provided with plastic hoses 3 and 10 which are communicated with a filter tank (12), the filter tank (12) is provided with the plastic hoses 4 and 14, an air valve (17) is arranged on the plastic hoses and is communicated with a mixing pipeline in a copper block (18), the filter tank (12) is also provided with the plastic hoses 5 and 15, a water valve (16) and a valve (19) are communicated with a pipeline in the copper block (18), the copper block (18) is communicated with a mixing pipe (22), the mixing pipe (22) is provided with a nut (23) which is connected with a flame nozzle (24), and the flame nozzle (24) is externally sleeved with a fire pipe (25); the electrolytic bath (4) is provided with a plastic pipe (31), a plastic screw rod (39) is arranged in the plastic pipe (31), the rod is sequentially sleeved into a straight stainless steel sheet (26) and a horizontal stainless steel sheet (27), the adjacent stainless steel sheets are mutually vertical, a plastic gasket (40) is arranged between the two stainless steel sheets for separation, a screw cap (38) is used for fastening, the rod is arranged in the plastic pipe (31), the two sides are sealed by stainless steel sealing covers (29), and the screw rod (30) and the screw cap (28) are used for fastening and sealing; the stainless steel sealing cover (29) is provided with a positive electric connecting column (34) and a negative electric connecting column (35) which are respectively connected with the adjacent first stainless steel sheet wires; the water-gas separation tank (2) is provided with an explosion-proof device (1) and a pressure gauge (9); a mixing pipeline in the copper block (18) is connected with a thimble valve (20); the upper part of the filter tank (12) is provided with a plastic hose (4), (14) and an air valve (17) which is communicated with a mixing pipeline in a copper block (18); the lower part of the filter tank (12) is also provided with a plastic hose (15) and a water valve (16) and a valve (19) which are communicated with a pipeline in a copper block (18).