CN102978650A - Automatic oxyhydrogen machine of dual-connected tanks for removing carbon deposit of engine - Google Patents

Abstract

The invention provides an automatic oxyhydrogen machine of dual-connected tanks for removing carbon deposit of an engine. The inlet of a condenser is communicated with the outlet of an electrolytic cell; the outlet of the condenser is communicated with the inlet of a first gas-water separator; the lower part of the first gas-water separator is communicated with the lower part of a second gas-water separator; a gas outlet of the first gas-water separator is communicated with a gas inlet of the second gas-water separator; an electrolyte outlet of the second gas-water separator is communicated with the electrolyte inlet of the electrolytic cell through a pipeline; a circulating pump is arranged on the pipeline of the second gas-water separator and the electrolytic cell; and the gas outlet of the second gas-water separator is communicated with the lower part of a tank flame arrester through the pipeline. The automatic oxyhydrogen machine strictly controls the liquid level of the electrolyte, the liquid level of water, the content of water in oxyhydrogen gas and air supply amount in the oxyhydrogen gas preparing process to avoid the detonation or water inlet phenomenon of the engine in a decarbonization process, and the process is automatically finished.

Description

A kind of automatic oxyhydrogen machine of duplex tank of removing carbon on engine

Technical field

The present invention relates to a kind of automatic oxyhydrogen machine of duplex tank of removing carbon on engine, belong to the oxyhydrogen machine technical field.

Background technology

The process of capable of removing carbon through oxyhydrogen: be the negative pressure feed channel that the oxyhydrogen that oxyhydrogen machine produces is accessed engine, under the engine idle state, oxyhydrogen sucked engine, reach the purpose of removing the engine interior carbon distribution with engine fuel mixed firing.

In the prior art, after the hydrogen-oxygen cutting-welding machine that utilizes brine electrolysis to produce hydrogen-oxygen is simply changed, be directly used in and remove the motor car engine carbon distribution.This practice is abnormally dangerous, and misoperation is slightly arranged, and the water inflow of the engine phenomenon will occur.Engine may cause personal injury accidents when serious in case water inlet will cause the engine damage.The content of strict control oxyhydrogen water in producing process is to solve and avoid one of important measures of problems.

Summary of the invention

The objective of the invention is in order to solve the problem of prior art existence, after the hydrogen-oxygen cutting-welding machine that namely utilizes brine electrolysis to produce hydrogen-oxygen is simply changed, be directly used in and remove the motor car engine carbon distribution.This practice is abnormally dangerous, and misoperation is slightly arranged, and the water inflow of the engine phenomenon will occur.Engine will be in case water inlet will cause the engine damage, the problem that may cause personal injury accidents when serious.And then provide a kind of automatic oxyhydrogen machine of duplex tank of removing carbon on engine.

The objective of the invention is to be achieved through the following technical solutions:

A kind of automatic oxyhydrogen machine of duplex tank of removing carbon on engine, comprise: condenser, power-supply system, Controlling System, manual valve, the first air water separator, the first check valve, the second air water separator, the second check valve, the water tank spark arrester, the 3rd check valve, the first magnetic valve, the 4th check valve, the moisturizing water pump, recycle pump, electrolyzer and the second magnetic valve, the entrance of described condenser is connected with the outlet of electrolyzer, the outlet of condenser is connected with the entrance of the first air water separator, the bottom of the first air water separator is connected with the second air water separator bottom, the pneumatic outlet of the first air water separator is connected with the gas inlet of the second air water separator, the electrolyte outlet of the second air water separator is connected by pipeline with the electrolyte entrance of electrolyzer, the pipeline of the second air water separator and electrolyzer is provided with recycle pump, the pneumatic outlet of the first air water separator is provided with manual valve, the pneumatic outlet of the second air water separator is connected by pipeline with the bottom of water tank spark arrester, the pneumatic outlet of the second air water separator is provided with the first check valve, the oxyhydrogen outlet of water tank spark arrester is provided with the second check valve, the 3rd check valve is connected with the top of water tank spark arrester, the pipeline of the second air water separator and water tank spark arrester is provided with the 4th check valve, the water supplement port of water tank spark arrester is provided with the first magnetic valve, be connected by pipeline between water tank spark arrester and the electrolyzer, pipeline between water tank spark arrester and the electrolyzer is provided with moisturizing water pump and the second magnetic valve, the power output end of power-supply system is connected with the power input of Controlling System, the control signal output terminal of Controlling System respectively with condenser, the second air water separator, the water tank spark arrester, the first magnetic valve, the moisturizing water pump, recycle pump, electrolyzer and the second magnetic valve are electrically connected.

Beneficial effect of the present invention: the present invention engine knock or water inlet phenomenon occur in engine de-carbon process, produce in the process at oxyhydrogen, by " duplex tank " i.e. the first air water separator and the second air water separator, and the co-ordination of whole system, realized content, the replenish air amount of water in the liquid level, oxyhydrogen of liquid level, the water of strict control electrolytic solution, and this process is finished automatically all.Thoroughly avoided the water inflow of the engine phenomenon.That the present invention uses is safe, simple to operate, simple in structure, be easy to manufacture.A kind of environmentally safe, to the harmless carbon-removing equipment of engine.

Description of drawings

Fig. 1 is a kind of one-piece construction synoptic diagram of removing the automatic oxyhydrogen machine of duplex tank of carbon on engine of the present invention;

Fig. 2 is the cross-sectional view of the second air water separator 7 or water tank spark arrester 9.

Reference numeral 17 among the figure is oxyhydrogen outlets, the 18th, and water supplement port, the 19th, water port, the 20th, electrolytic solution mouth.

Embodiment

The present invention is described in further detail below in conjunction with accompanying drawing: present embodiment is implemented under take technical solution of the present invention as prerequisite, has provided detailed embodiment, but protection scope of the present invention is not limited to following embodiment.

As shown in Figure 1, a kind of automatic oxyhydrogen machine of duplex tank of removing carbon on engine that present embodiment is related, comprise: condenser 1, power-supply system 2, Controlling System 3, manual valve 4, the first air water separator 5, the first check valve 6, the second air water separator 7, the second check valve 8, water tank spark arrester 9, the 3rd check valve 10, the first magnetic valve 11, the 4th check valve 12, moisturizing water pump 13, recycle pump 14, electrolyzer 15 and the second magnetic valve 16, the entrance of described condenser 1 is connected with the outlet of electrolyzer 15, the outlet of condenser 1 is connected with the entrance of the first air water separator 5, the bottom of the first air water separator 5 is connected with the second air water separator 7 bottoms, the pneumatic outlet of the first air water separator 5 is connected with the gas inlet of the second air water separator 7, the electrolyte outlet of the second air water separator 7 is connected by pipeline with the electrolyte entrance of electrolyzer 15, the pipeline of the second air water separator 7 and electrolyzer 15 is provided with recycle pump 14, the pneumatic outlet of the first air water separator 5 is provided with manual valve 4, the pneumatic outlet of the second air water separator 7 is connected by pipeline with the bottom of water tank spark arrester 9, the pneumatic outlet of the second air water separator 7 is provided with the first check valve 6, the oxyhydrogen outlet of water tank spark arrester 9 is provided with the second check valve 8, the 3rd check valve 10 is connected with the top of water tank spark arrester 9, the second air water separator 7 is provided with the 4th check valve 12 with the pipeline of water tank spark arrester 9, the water supplement port of water tank spark arrester 9 is provided with the first magnetic valve 11, be connected by pipeline between water tank spark arrester 9 and the electrolyzer 15, pipeline between water tank spark arrester 9 and the electrolyzer 15 is provided with moisturizing water pump 13 and the second magnetic valve 16, the power output end of power-supply system 2 is connected with the power input of Controlling System 3, the control signal output terminal of Controlling System 3 respectively with condenser 1, the second air water separator 7, water tank spark arrester 9, the first magnetic valve 11, moisturizing water pump 13, recycle pump 14, electrolyzer 15 and the second magnetic valve 16 are electrically connected.

As shown in Figure 2, described the second air water separator 7 or water tank spark arrester 9 comprise: tank body 21, stainless steel tube 22, the first ball float 24, ball float catch 25, the second ball float 27, the 3rd ball float 29, standard catch 30, spring 31, catch 32 on the tank body, gas and water separator 34 and tongued and grooved flanges 35, also comprise the first gas catch 23, the second gas catch 26 and the 3rd gas catch 28, described gas and water separator 34 is arranged on the top in the tank body 21, be fixed with the catch 32 on the tank body in the tank body 21 of gas and water separator 34 bottoms, stainless steel tube 22 is fixed in the tank body 21, the top of stainless steel tube 22 is connected with catch 32 on the tank body, be connected with tongued and grooved flanges 35 between the bottom of stainless steel tube 22 and the tank body 21, the top of stainless steel tube 22 is fixed with standard catch 30 from top to bottom successively, the 3rd gas catch 28 and the second gas catch 26, stainless steel tube 22 between standard catch 30 and the 3rd gas catch 28 is provided with the 3rd ball float 29, stainless steel tube 22 between the 3rd gas catch 28 and the second gas catch 26 is provided with the second ball float 27, the middle part of stainless steel tube 22 is fixed with ball float catch 25 and the first gas catch 23 from top to bottom successively, stainless steel tube 22 between ball float catch 25 and the first gas catch 23 is provided with the first ball float 24, be provided with a contact switch 1 in the stainless steel tube 22 between ball float catch 25 and the first gas catch 23, be provided with a contact switch 2 42 in the stainless steel tube 22 between the 3rd gas catch 28 and the second gas catch 26, be provided with a contact switch 3 43 in the stainless steel tube 22 between standard catch 30 and the 3rd gas catch 28, the stainless steel tube 22 between the catch 32 on standard catch 30 and the tank body is provided with spring 31.

The top of described stainless steel tube 22 is provided with conical tip 33.Being convenient to top with stainless steel tube 22 penetrates in the catch 32 on the tank body.

The diameter of described stainless steel tube 22 is 8mm, and the wall thickness of stainless steel tube 22 is 1mm.

Described the first gas catch 23, the second gas catch 26 or the 3rd gas catch 28 are circular, the diameter of described the first ball float 24, the second ball float 27 or the 3rd ball float 29 of its diameter 〉=corresponding.

Described stainless steel tube 22 and described tongued and grooved flanges 35 are by being welded and fixed and sealing.

In electrolyzer 15, the first air water separator 5 and the second air water separator 7 electrolytic solution is housed, in the water tank spark arrester 9 water is housed.

Principle and function

One, circulation of elecrolyte heat-removal system

(see Fig. 2, following contact switch 1 in the second air water separator 7 are called switch A, contact switch 2 42 is called switch B, contact switch 3 43 is called switch C) by the first air water separator 5 of electrolyzer 15, condenser 1, " duplex tank " be connected air water separator 7, recycle pump 14 annulars and connect, under the control of the second air water separator 7 switch A, consisted of the circulation of elecrolyte heat-removal system.The circulation of elecrolyte heat-removal system is by switch A control.When switch A was closed, controller was connected recycle pump and condenser fan power supply, and electrolytic solution begins circulation.When switch A disconnected, controller cut off recycle pump and condenser fan power supply, and electrolytic solution stops circulation.

Two, electrolyzer, water tank spark arrester automatic water replenishing system

(see Fig. 2, following contact switch 1 in the water tank spark arrester 9 are called switch D, contact switch 2 42 is called switch E, contact switch 3 43 is called switch F) connected in series by electrolyzer 15, the second magnetic valve 16, moisturizing water pump 13, water tank spark arrester 9, water supplement port 18, under the control of switch A, D, E, consisted of electrolyzer, water tank spark arrester automatic water replenishing system.

Electrolyzer, water tank spark arrester automatic water replenishing system under the control of switch A, D, E, have been consisted of.

The moisturizing of water tank spark arrester

When switch E is closed, controller opens moisturizing magnetic valve, the water tank spark arrester begins moisturizing.When switch E disconnected, controller cut out the moisturizing magnetic valve, and the water tank spark arrester stops moisturizing.

The electrolyzer moisturizing

When switch A, D were closed simultaneously, controller was connected the moisturizing pump power, is opened the moisturizing magnetic valve, and electrolyzer begins moisturizing.When switch A, D wherein had one to disconnect, controller cut off moisturizing water pump, moisturizing magnetic valve, stops the electrolyzer moisturizing.

Three, electrolyzer safe power supply and prevent that liquid from entering the gas output system

Electrolyzer has consisted of electrolyzer safe power supply system under the control of switch A, B, C, E, F.

When simultaneously conducting of switch B, C, F, show that electrolytic solution and water tank spark arrester liquid level do not overflow.Show that when switch A, E conducting electrolytic solution and water tank spark arrester liquid level are normal, electrolyzer begins power supply and carries out electrolysis.

When switch B, C, F wherein have one when disconnecting, show that electrolyzer and water tank spark arrester are that liquid level is overflowed, the controller system that cuts off the electricity supply is out of service, prevents that liquid from entering the gas output system.

When switch B, C, simultaneously conducting of F, when switch A, E wherein had one to be disconnection, expression electrolyzer or water tank spark arrester liquid level were not enough, automatically perform electrolyzer, water tank spark arrester automatic water supplement.Until when switch A, E conducting, electrolyzer begins power supply and carries out electrolysis.

Four, pressure Adjustment System

The first check valve 6, the second check valve 8, the 3rd check valve 10 have consisted of the pressure Adjustment System, by the first check valve 6 and 10 pressure releases of the 3rd check valve, replenish air by the second check valve 8 during hypotony during hypertonia, make pressure reach balance.The pressure of one-way valve opens is: the 3rd check valve 10〉the first check valve 6〉the second check valve 8.When water tank spark arrester pressure〉during the pressure of the first air water separator 5 and the second air water separator 7, the 4th check valve 12 is closed, and prevents from flowing backwards.When the pressure of water tank spark arrester pressure＜first air water separator 5 and the second air water separator 7, the 4th check valve 12 is opened, and gas enters the air water separator of water tank spark arrester through water tank spark arrester water column, through gas and water separator to production well.

Five, separating system for water

The first air water separator 5, the second air water separator 7, water tank spark arrester 9 and gas and water separator have wherein consisted of separating system for water, the mixture of hydrogen-oxygen G﹠W enters the first air water separator 5 from electrolyzer, through gas and water separator, liquid falls, gas rises.The liquid that descends flows into the second air water separator 7 bottoms from the first air water separator 5 bottoms, enters the circulation of elecrolyte heat-removal system through pipeline.The gas that rises enters the second air water separator 7 from gas and water separator gas-water separation again, and liquid enters the circulation of elecrolyte heat-removal system, and gas enters the bottom of water tank spark arrester 9.

Six, add electrolytic solution and drain function

Electrolytic solution adds from the electrolytic solution mouth, and manual valve opens to discharge the air of circulation of elecrolyte heat-removal system, and the electrolytic solution add-on is judged by switch A, stops to add electrolytic solution when switch A conducting, and closes manual valve, and electrolytic solution adds to be finished.

Electrolytic solution is discharged from the electrolytic solution mouth, and manual valve cuts out air amount to the circulation of elecrolyte heat-removal system, and when the electrolytic solution emptying, electrolytic solution is discharged and finished.Water is discharged from water tank spark arrester 9 water port.

The above; only be the better embodiment of the present invention; these embodiments all are based on the different implementations under the general idea of the present invention; and protection scope of the present invention is not limited to this; anyly be familiar with those skilled in the art in the technical scope that the present invention discloses; the variation that can expect easily or replacement all should be encompassed within protection scope of the present invention.Therefore, protection scope of the present invention should be as the criterion with the protection domain of claims.

Claims (6)

1. automatic oxyhydrogen machine of duplex tank of removing carbon on engine, comprise: condenser, power-supply system, Controlling System, manual valve, the first air water separator, the first check valve, the second air water separator, the second check valve, the water tank spark arrester, the 3rd check valve, the first magnetic valve, the 4th check valve, the moisturizing water pump, recycle pump, electrolyzer and the second magnetic valve, it is characterized in that, the entrance of described condenser is connected with the outlet of electrolyzer, the outlet of condenser is connected with the entrance of the first air water separator, the bottom of the first air water separator is connected with the second air water separator bottom, the pneumatic outlet of the first air water separator is connected with the gas inlet of the second air water separator, the electrolyte outlet of the second air water separator is connected by pipeline with the electrolyte entrance of electrolyzer, the pipeline of the second air water separator and electrolyzer is provided with recycle pump, the pneumatic outlet of the first air water separator is provided with manual valve, the pneumatic outlet of the second air water separator is connected by pipeline with the bottom of water tank spark arrester, the pneumatic outlet of the second air water separator is provided with the first check valve, the oxyhydrogen outlet of water tank spark arrester is provided with the second check valve, the 3rd check valve is connected with the top of water tank spark arrester, the pipeline of the second air water separator and water tank spark arrester is provided with the 4th check valve, the water supplement port of water tank spark arrester is provided with the first magnetic valve, be connected by pipeline between water tank spark arrester and the electrolyzer, pipeline between water tank spark arrester and the electrolyzer is provided with moisturizing water pump and the second magnetic valve, the power output end of power-supply system is connected with the power input of Controlling System, the control signal output terminal of Controlling System respectively with condenser, the second air water separator, the water tank spark arrester, the first magnetic valve, the moisturizing water pump, recycle pump, electrolyzer and the second magnetic valve are electrically connected.

2. the automatic oxyhydrogen machine of duplex tank of removing carbon on engine according to claim 1, it is characterized in that, described the second air water separator or water tank spark arrester comprise: tank body, stainless steel tube, the first ball float, the ball float catch, the second ball float, the 3rd ball float, the standard catch, spring, catch on the tank body, gas and water separator and tongued and grooved flanges, it is characterized in that, also comprise the first gas catch, the second gas catch and the 3rd gas catch, described gas and water separator is arranged on the top in the tank body, be fixed with the catch on the tank body in the tank body of gas and water separator bottom, stainless steel tube is fixed in the tank body, the top of stainless steel tube is connected with catch on the tank body, be connected with tongued and grooved flanges between the bottom of stainless steel tube and the tank body, the top of stainless steel tube is fixed with the standard catch from top to bottom successively, the 3rd gas catch and the second gas catch, stainless steel tube between standard catch and the 3rd gas catch is provided with the 3rd ball float, stainless steel tube between the 3rd gas catch and the second gas catch is provided with the second ball float, the middle part of stainless steel tube is fixed with ball float catch and the first gas catch from top to bottom successively, stainless steel tube between ball float catch and the first gas catch is provided with the first ball float, be provided with a contact switch one in the stainless steel tube between ball float catch and the first gas catch, be provided with a contact switch two in the stainless steel tube between the 3rd gas catch and the second gas catch, be provided with a contact switch three in the stainless steel tube between standard catch and the 3rd gas catch, the stainless steel tube between the catch on standard catch and the tank body is provided with spring.

3. the automatic oxyhydrogen machine of duplex tank of removing carbon on engine according to claim 2 is characterized in that the top of described stainless steel tube is provided with conical tip.

4. the automatic oxyhydrogen machine of duplex tank of removing carbon on engine according to claim 2 is characterized in that, the diameter of described stainless steel tube is 8mm, and the wall thickness of stainless steel tube is 1mm.

5. the float switch used of a kind of capable of removing carbon through oxyhydrogen machine according to claim 2, it is characterized in that, described the first gas catch, the second gas catch or the 3rd gas catch are circular, the diameter of described the first ball float, the second ball float or the 3rd ball float of its diameter 〉=corresponding.

6. the float switch used of a kind of capable of removing carbon through oxyhydrogen machine according to claim 2 is characterized in that described stainless steel tube and described tongued and grooved flanges are by being welded and fixed and sealing.

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