CN2883950Y - Pulse vector high pressure burner - Google Patents

Abstract

The utility model relates to an impulse victor high pressure burner, which comprises an air compressing chamber, an oil and air mixing chamber, a combustion chamber, and a flame injection pipe mutually communicated in order. The inner chamber of the combustion chamber is connected with a oil inlet pipe and a spark plug. The flame injection pipe wall is equipped with a plurality of flame nozzles densely. An oil supplying device using the air and oil pressure variation automatically producing impulse is arranged between the air compressing chamber and the air oil mixing chamber and the combustion chamber, the device comprises a plurality of one-way valves, the device has 3 to 4 groups of one-way valves, only one group of one-way valves arranged in the pressed air inlet is towards the flame injection pipe and is only to be in not to be out, the opening direction of the other groups of one-way valves is towards the flame injection pipe and is only to be out not to be in. The utility model realizes fast pressure and heating, high injection pressure, high temperature, and good stability, and is applicable to the biomass compressed formation process and the pressed heating process or pressed auxiliary burning process as required. The utility model has the advantages of simple structure, wide application, convenient operation, low cost, high thermal efficiency and stable working status.

Description

Pulse vector high-pressure burner

Technical field

The utility model relates to the high-pressure fire flame burner.

Background technology

Inject high pressure flame burning device has purposes widely, and wherein a kind of is to be the burner of combustion medium with the mixed oil and gas, and quick high-pressure heating or pressure are combustion-supporting incessantly.There is complex structure in prior art, the deficiency that operating cost is higher.

The utility model content

The utility model provides a kind of pulse vector high-pressure burner, purpose is to realize the rapid pressure heating, expulsion pressure is big, temperature is high, good stability, be applicable to living beings compression forming process and need pressure heating or the combustion-supporting process of pressure, the utility model is simple in structure, and is of many uses, easy to operate, cost is low, thermal efficiency height, and operating mode is stable.

The purpose of this utility model is achieved in that

A kind of pulse vector high-pressure burner, air compression chamber part, oil gas mixing chamber part, combustion chamber part, the flame playpipe by mutual perforation partly constitutes successively.The inner chamber of combustion chamber connects fuel oil oil inlet pipe, spark plug; Flame jet gathers on the tube wall of flame playpipe; Be provided with utilize gas, the oil pressure formed by check valve between described air compression chamber part, oil gas mixing chamber part, combustor section are divided and change the device that oil gas is supplied with in the generation pulse automatically, this check valve has 3～4 groups, except that be contained in press the air intake place one group of check valve towards flame playpipe direction only import but no export, the keying direction of all the other check valves all is towards flame playpipe only export but no import.

The described gas that utilizes, being configured to of the device of the automatic generation of oil pressure variation pulse supply oil gas: described fuel oil oil inlet pipe feeds the inner chamber of combustion chamber and oil gas mixing chamber, a plurality of mist of oil spray orifices are arranged on the tube wall of this fuel oil oil inlet pipe, this oil gas mixing chamber combustion chamber, the flame playpipe has continuous combination housing, between oil gas mixing chamber and air compression chamber, be provided with a check valve towards flame playpipe direction only export but no import, between air compression chamber and oil gas mixing chamber, be provided with No. two check valves, between combustion chamber and flame playpipe, be provided with No. three check valves towards flame playpipe direction only export but no import towards flame playpipe direction only export but no import.

The described gas that utilizes, being configured to of the device of the automatic generation of oil pressure variation pulse supply oil gas: described fuel oil oil inlet pipe feeds the inner chamber of combustion chamber and oil gas mixing chamber, a plurality of mist of oil spray orifices are arranged on the tube wall of this fuel oil oil inlet pipe, this oil gas mixing chamber, the combustion chamber, the flame playpipe has the combination housing of disjunctor, be provided with air compression chamber at oil gas mixing chamber front end, be provided with a guiding valve that the center is porose in this air compression chamber, in the pore between combustion chamber and flame playpipe normally closed valve gap is arranged, this valve gap connects at least two guide rods, this guide rod passes guiding valve and installs with guiding valve, this guide rod is set with back-moving spring from the overhanging end that the combination housing stretches out, this spring is spacing by the balance weight body of guide rod end, between import that the pressure air is arranged and air compression chamber, be provided with a check valve towards flame playpipe direction only import but no export, between guiding valve centre bore between the air compression chamber and oil gas mixing chamber, be provided with No. two check valves, between air compression chamber right side and combustion chamber, be provided with No. three check valves towards flame playpipe direction only export but no import towards flame playpipe direction only export but no import.

The described gas that utilizes, being configured to of the device of the automatic generation of oil pressure variation pulse supply oil gas: described fuel oil oil inlet pipe feeds the inner chamber of combustion chamber and oil gas mixing chamber, a plurality of mist of oil spray orifices are arranged on the tube wall of this fuel oil oil inlet pipe, this oil gas mixing chamber, the combustion chamber, the flame playpipe has the combination housing of disjunctor, this fuel oil oil inlet pipe passes the sectional casing body wall and connects preheating oil gas pipe, this preheating oil gas pipe connects the preheating chamber that is located at the air compression chamber head end, a plurality of fiery cigarette spray orifices are arranged on the tube wall of this preheating chamber, this preheating chamber connects second spark plug, a check valve that is provided with on the inlet tube of pressing air towards air compression chamber direction only import but no export is being arranged, between air compression chamber and oil gas mixing chamber, be provided with No. two check valves towards flame playpipe direction only export but no import, at the oil gas mixing chamber, be provided with No. three check valves between combustion chamber and the flame playpipe to a flame playpipe direction only export but no import, described each spark plug connects igniter through high-voltage line respectively, and this each igniter connects time-delay mechanism.

The described gas that utilizes, being configured to of the device of the automatic generation of oil pressure variation pulse supply oil gas: described fuel oil oil inlet pipe feeds the inner chamber of combustion chamber, a plurality of mist of oil spouts are arranged on the tube wall of this fuel oil oil inlet pipe, this oil gas mixing chamber, the combustion chamber, the flame playpipe has the combination housing of disjunctor, this combustion chamber is communicated with forcing pipe, this forcing pipe is communicated with air compression chamber, between import that the pressure air is arranged and air compression chamber, be provided with a check valve towards air compression chamber direction only import but no export, between forcing pipe and air compression chamber, be provided with No. two check valves towards flame playpipe direction only export but no import, at air compression chamber and oil gas mixing chamber, be provided with No. three check valves between the combustion chamber towards flame playpipe direction only export but no import, between combustion chamber and flame playpipe, be provided with No. four check valves towards flame playpipe direction only export but no import, described spark plug connects igniter through high-voltage line, and this each igniter connects time-delay mechanism.

The structure connected mode of the disjunctor of described oil gas mixing chamber, combustion chamber, flame playpipe combination housing is a kind of during segmentation welding, segmentation connect with screw, bolt.

The utility model has following actively useful effect:

The flame that this product produced has advantages such as expulsion pressure is big, temperature is high, good stability, both having can be used as main burner inserts in solid (as wood chip), liquid or the gaseous matter under high pressure with its material Fast Heating, also can be used as igniter or auxiliary burner and insert in flammable solid, liquid or the gaseous matter its material is lighted and the retention flame, be implemented in and in the high-pressure closed vessel this material carried out Fast Heating or ignite.

This product is applicable to living beings compression forming process, under the high pressure operating mode, with living beings (as straw, wood chip) carry out continuously, Fast Heating so that moulding.

This product structure is simple, and is easy to operate, and cost is low, thermal efficiency height, and operating mode is stable.

Description of drawings

Fig. 1 is the structural representation of the utility model first embodiment:

Fig. 2 is the structural representation of the utility model second embodiment:

Fig. 3 is the structural representation of the utility model the 3rd embodiment:

Fig. 4 is the structural representation of the utility model the 4th embodiment:

Fig. 5 is the structural representation of the utility model the 5th embodiment.

The specific embodiment

Accompanying drawing number

1. the air of pressure 2. oil gas mixing chambers 3. combustion chambers are arranged

4. flame playpipe 401. flame jets 5. spark plugs

6. No. 7. check valves of fuel oil oil inlet pipe 601. mist of oil spouts

8. 10. No. four check valves of 9. No. three check valves of No. two check valves

11. housing 12. guiding valves 13. guide rods

14. spring 15. balance weight body 16. air compression chambers

17. valve gap 18. preheating chambers 19. preheating oil gas pipes

20. igniter 21. time-delay mechanisms 22. high-voltage lines

23. forcing pipe 24. time-delay mechanism A 25. second spark plugs

26. spring

Please refer to Fig. 1, the utility model is a kind of pulse vector high-pressure burner, air compression chamber part, oil gas mixing chamber part, combustion chamber part, flame playpipe by mutual perforation partly constitutes successively, the inner chamber of combustion chamber 3 connects fuel oil oil inlet pipe 6, spark plug 5, the flame spray 401 of gathering on the tube wall of flame playpipe 4; Be provided with utilize gas, the oil pressure formed by check valve between described air compression chamber part, oil gas mixing chamber part, combustor section are divided and change the automatic device that oil gas is supplied with in pulse that produces, 3～4 groups of check valves are arranged in this device, wherein except that an opening direction that is assembled in the check valve of pressing the air intake place towards flame playpipe 4 only import but no export, all the other opening directions of respectively organizing check valve all are towards flame playpipe 4 only export but no import.

Embodiment one:

The described gas that utilizes, being configured to of the device of the automatic generation of oil pressure variation pulse supply oil gas: described fuel oil oil inlet pipe 6 feeds the inner chamber of combustion chambers 3 and oil gas mixing chamber 2, a plurality of mist of oil spray orifices 601 are arranged on the tube wall of this fuel oil oil inlet pipe 6, this oil gas mixing chamber 2, combustion chamber 3, flame playpipe 4 has the combination housing 11 of disjunctor, between oil gas mixing chamber 2 and pressure-air, be provided with a check valve 7 towards the direction only import but no export of flame playpipe 4, between combustion chamber 3 and oil gas mixing chamber 2, be provided with No. two check valves 8, between combustion chamber 3 and flame playpipe 4, be provided with No. three check valves 9 towards the direction only export but no import of flame playpipe 4 towards the direction only export but no import of flame playpipe 4.

Embodiment one course of work:

1, mixed oil and gas:

Fuel oil is heated vaporization after being installed in the heat exchanger in the combustion chamber under the effect of fuel pump, spray oil gas the mist of oil spray orifice in the oil gas mixing chamber;

When the pressure in the oil gas mixing chamber during less than the pressure-air of outside input, No. one check valve 7 is opened, pressure-air enters in the oil gas mixing chamber, mix the back with the oil gas that is heated vaporization and form mixed oil and gas, when the pressure in the oil gas mixing chamber during greater than the pressure in the combustion chamber, No. two check valve 8 is opened, and the mixed oil and gas in the oil gas mixing chamber enters the combustion chamber.

2, explosive combustion:

The mixed oil and gas that enters the combustion chamber burning of blasting after by spark ignitor, moment produces HTHP flame in the combustion chamber, No. two check valves 8 are closed under the effect of high temperature and high pressure gas, No. three check valve 9 is opened, HTHP flame pours the flame playpipe rapidly, sprays from the flame spray orifice after burning away.

3, continuous explosive combustion:

After HTHP flame pours the flame playpipe, because the motional inertia of high temperature and high pressure gas descends the pressure in the combustion chamber rapidly, No. two check valves 8 are opened after the pressure of combustion chamber is less than the pressure of oil gas mixing chamber, mixed oil and gas enters the combustion chamber, No. three check valves 9 are closed after the pressure of combustion chamber is less than the pressure of flame playpipe, the mixed oil and gas that enters the combustion chamber by spark ignitor after explosive combustion once more, carry out continuous explosive combustion successively.

Embodiment two:

Please refer to Fig. 2, the described gas that utilizes, being configured to of the device of the automatic generation of oil pressure variation pulse supply oil gas: described fuel oil oil inlet pipe 6 feeds the inner chamber of combustion chambers 3 and oil gas mixing chamber 2, a plurality of mist of oil spray orifices 601 are arranged on the tube wall of this fuel oil oil inlet pipe 6, this oil gas mixing chamber 2, combustion chamber 3, flame playpipe 4 has continuous combination housing 11, in oil gas mixing chamber 2, be provided with a guiding valve 12 that the center is porose, this guiding valve 12 contacts at least two guide rods 13, the overhanging end that this guide rod 13 stretches out from air compression chamber 16 is set with back-moving spring 14, this spring 14 is spacing by the balance weight body 15 of guide rod 13 ends, having between the air 1 of pressure and the air compression chamber 16, be provided with a check valve 7 towards the direction only import but no export of flame playpipe 4, between oil gas mixing chamber 2 and air compression chamber 16, be provided with No. two check valves 8 towards the square only export but no import of flame playpipe 4, between combustion chamber 3 and combustion jet pipe 4, be provided with towards No. three check valves 9 towards the direction only export but no import of flame playpipe 4.

Embodiment two courses of work:

1, air compression:

When the pressure of air compression chamber when the air 1 of pressure is arranged, No. one check valve 7 is opened, and has the air of pressure to enter in the air compression chamber;

When blasting burning in the combustion chamber, the pressure in the combustion chamber improves rapidly, and No. two check valve 8 is closed, and piston moves to left, the increased pressure in the air compression chamber, and No. one check valve 7 is closed thereupon, and the air in the air compression chamber is compressed into pressure-air.

When high temperature and high pressure gas poured the flame playpipe, the pressure in the combustion chamber reduced rapidly, and No. two check valve 8 is opened, piston moves to right under the effect of back-moving spring, pressure in the air compression chamber reduces, and No. one check valve 7 is opened thereupon, has the air of pressure to enter in the air compression chamber once more.

2, oil gas mixes:

Fuel oil is heated vaporization after being installed in the heat exchanger in the combustion chamber under the effect of fuel pump, spray from the mist of oil spray orifice;

Behind explosive combustion, when the pressure in the combustion chamber during less than the pressure in the air compression chamber, pressure-air in the air compression chamber is pushed No. two check valves 8 open and is entered the oil gas mixing chamber, fully mix the formation mixed oil and gas with the oil gas that from nozzle opening, sprays, meanwhile piston moves to right under the effect of back-moving spring, when the pressure of oil gas mixing chamber during greater than the pressure of discharge chambe, No. two check valve 8 is closed, and piston continues to move to right under the effect of back-moving spring and improved the pressure of mixed oil and gas in the oil gas mixing chamber.

3, explosive combustion:

The mixed oil and gas burning of blasting after by spark ignitor, moment produces HTHP flame in the combustion chamber, No. two check valves 8 are closed under the effect of gases at high pressure, No. three check valve 9 is opened, HTHP flame pours the flame playpipe rapidly, sprays from flame jet after burning away.

4, continuous explosive combustion:

After HTHP flame pours the flame playpipe rapidly, because the motional inertia of gases at high pressure descends the pressure in the combustion chamber rapidly, behind the pressure of pressure less than discharge chambe of combustion chamber, No. two check valve 8 is opened, pressure-air enters the combustion chamber once more, No. three check valves 9 are closed after the pressure of combustion chamber is less than the pressure of flame playpipe, the pressure-air that enters the combustion chamber fully mixes the formation mixed oil and gas with the oil gas that sprays from nozzle opening, by explosive combustion once more after the spark ignitor, carry out continuous explosive combustion successively.

Embodiment three:

Please refer to Fig. 3, the described gas that utilizes, being configured to of the device of the automatic generation of oil pressure variation pulse supply oil gas: described fuel oil oil-feed oil pipe 6 feeds the inner chamber of combustion chambers 3 and oil gas mixing chamber 2, a plurality of mist of oil spray orifices 601 are arranged on the tube wall of this fuel oil oil inlet pipe 6, this oil gas mixing chamber 2, combustion chamber 3, flame playpipe 4 has continuous combination housing 11, in air compression chamber 16, be provided with a guiding valve 12 that the center is porose, in the pore between combustion chamber 3 and flame playpipe 4 normally closed valve gap 17 is arranged, this valve gap 17 connects at least two guide rods 13, this guide rod 13 passes guiding valve 12, this guide rod is installed on the guiding valve 12, this guide rod is set with back-moving spring 14 from the overhanging end that combination housing 11 stretches out, this spring 14 is spacing by the balance weight body 15 of guide rod 13 ends, a check valve 7 that is provided with between the import of pressing air 1 and the air compression chamber 16 towards towards the direction only import but no export of flame playpipe 4 is being arranged, on guiding valve 12 centre bores, be provided with towards No. two check valves 8, between air compression chamber 2 and combustion chamber 3, be provided with to No. three check valves 9 towards the direction only export but no import of flame playpipe 4 towards the direction only export but no import of flame playpipe 4.

Embodiment three courses of work:

1, air compression:

When the pressure on the air compression chamber left side when the air 1 of pressure is arranged, No. one check valve 7 is opened, air enters in the air compression chamber on the guiding valve left side, when the pressure in the discharge chambe of the guiding valve left side during greater than the pressure in the discharge chambe of guiding valve the right, No. two check valve 8 is opened, and air enters in the discharge chambe of guiding valve the right;

When blasting burning in the combustion chamber, pressure in the combustion chamber improves rapidly, No. three check valve 9 is closed, valve gap 17 moves to right and drives piston and moves to right, No. two check valve 8 is closed, the volume of guiding valve the right air compression chamber dwindles, increased pressure, and the air that enters in the air compression chamber of guiding valve the right is compressed;

Along with piston moves to right, the volume of guiding valve left side discharge chambe increases, and the pressure in the discharge chambe of the left side reduces, and No. one check valve 7 is opened, and air enters in the air compression chamber of the guiding valve left side;

After the HTHP flame in the combustion chamber pours the flame playpipe, pressure in the combustion chamber descends rapidly, valve gap 17 moves to left and drives piston under the acting in conjunction of back-moving spring 14 and flame playpipe internal pressure and moves to left, the volume of guiding valve the right discharge chambe increases, pressure reduces, No. two check valve 8 is opened, and the air in the discharge chambe of the guiding valve left side enters in the discharge chambe of guiding valve the right;

Along with piston continue move to left, the volume of guiding valve the right discharge chambe dwindles, increased pressure, No. one check valve 7 is closed, the air in the discharge chambe of guiding valve the right is compressed.

2, oil gas mixes:

Fuel oil is heated vaporization after being installed in the heat exchanger in the combustion chamber under the effect of fuel pump, spray from the mist of oil spray orifice;

Behind explosive combustion, when the pressure in the combustion chamber during less than the pressure in the air compression chamber of guiding valve the right, pressure-air is pushed No. three check valves 9 open and is entered the combustion chamber, fully mixes the formation mixed oil and gas with the oil gas that sprays from nozzle opening;

3, explosive combustion:

The mixed oil and gas burning of blasting after by spark ignitor, moment produces HTHP flame in the combustion chamber, No. three check valves 9 are closed under the effect of HTHP flame, valve gap 17 moves to right, HTHP flame pours the flame playpipe rapidly, sprays from the flame jet of flame playpipe after burning away.

4, continuous explosive combustion:

After HTHP flame pours the flame playpipe rapidly, because the motional inertia of high temperature and high pressure gas descends combustion chamber temperature and pressure rapidly, No. three check valves 9 are opened after the pressure of combustion chamber is less than the pressure of oil gas mixing chamber, pressure-air enters the combustion chamber once more, when the pressure of combustion chamber less than after the making a concerted effort of the pressure of flame playpipe and back-moving spring, valve gap 17 is closed, the pressure-air that enters the combustion chamber fully mixes the formation mixed oil and gas with the oil gas that sprays from the mist of oil spout, by explosive combustion once more after the spark ignitor, carry out continuous explosive combustion successively.

Embodiment four:

Please refer to Fig. 4, the described gas that utilizes, being configured to of the device of the automatic generation of oil pressure variation pulse supply oil gas: described fuel oil oil inlet pipe 6 feeds the inner chamber of combustion chambers 3 and oil gas mixing chamber 2, a plurality of mist of oil spray orifices 601 are arranged on the tube wall of this fuel oil oil inlet pipe 6, this oil gas mixing chamber 2, combustion chamber 3, flame playpipe 4 has the combination housing 11 of disjunctor, this fuel oil oil inlet pipe 6 passes combination housing 11 walls and connects preheating oil gas pipe 19, this preheating oil gas pipe 19 connects the preheating chamber 18 that is located at air compression chamber 16 head ends, a plurality of flame spray orifices are arranged on the tube wall of this preheating chamber 18, this preheating chamber 18 connects second spark plug 25, a check valve 7 that is provided with on the inlet tube of pressing air 1 towards air compression chamber 16 direction only import but no export is being arranged, between air compression chamber 16 and oil gas mixing chamber 2, be provided with towards No. two check valves 8, at oil gas mixing chamber 2 towards the direction only export but no import of flame playpipe 4, be provided with between combustion chamber 3 and the flame playpipe 4 towards No. three check valves 9 towards the direction only export but no import of flame playpipe 4.Described each spark plug connects igniter 20 through high-voltage line 22 respectively, and this each igniter 20 connects time-delay mechanism 21,24, and a check valve 7 has back-moving spring 26 among the figure.

Embodiment four courses of work:

1, pre-burning:

When the pressure in the air compression chamber less than outside input the air of pressure is arranged the time, No. one check valve 7 is opened, and has the air of pressure at first to enter in the air compression chamber, enters in the preheating chamber then;

Fuel oil is heated vaporization after being installed in the heat exchanger in the combustion chamber under the effect of fuel pump, spray in the preheating chamber by preheating oil gas pipe;

Pressure-air and oil gas mix in preheating chamber and form the mixed oil and gas burning of blasting after by spark ignitor.

2, supercharging air:

When mixed oil and gas was blasted burning in preheating chamber, high temperature and high pressure gas sprayed into air compression chamber, and No. one check valve 7 is closed, and the air of pressure that has that enters in the air compression chamber is pressurized.

3, explosive combustion:

Fuel oil sprays in the combustion chamber after being heated vaporization behind the heat exchanger in the combustion chamber through being installed under the effect of fuel pump;

When the pressure in the air compression chamber during greater than the pressure in the combustion chamber, No. two check valve 8 is opened, and the air of pressure that has after being pressurized enters the combustion chamber;

Oil gas mixes with pressure-air and forms the mixed oil and gas burning of blasting after by spark ignitor, moment produces HTHP flame in the combustion chamber, No. two check valves 8 are closed under the effect of HTHP flame, No. three check valve 9 is opened, HTHP flame pours the flame playpipe rapidly, sprays from the flame jet after burning away.

4, continuous explosive combustion:

After HTHP flame pours the flame playpipe rapidly, because the motional inertia of high temperature and high pressure gas descends combustion chamber temperature and pressure rapidly, No. two check valves 8 are opened after the pressure of combustion chamber is less than the pressure of discharge chambe, pressure-air enters the combustion chamber once more, No. three check valves 9 are closed after the pressure of combustion chamber is less than the pressure of flame playpipe, the pressure-air that enters the combustion chamber fully mixes the formation mixed oil and gas with the oil gas that sprays from the mist of oil spray-hole, by explosive combustion once more after the spark ignitor, carry out continuous explosive combustion successively.

Embodiment five:

Please refer to Fig. 5, the described gas that utilizes, being configured to of the device of the automatic generation of oil pressure variation pulse supply oil gas: described fuel oil oil inlet pipe 6 feeds the inner chamber of combustion chambers 3, a plurality of mist of oil spray orifices 601 are arranged on the tube wall of this fuel oil oil inlet pipe 6, this oil gas mixing chamber 2, combustion chamber 3, flame playpipe 4 has the combination housing 11 of disjunctor, this combustion chamber 3 is communicated with forcing pipe 23, this forcing pipe 23 is communicated with air compression chamber 16, a check valve 7 that is provided with between pressure air 1 import and the air compression chamber 16 towards air compression chamber direction only import but no export is being arranged, between forcing pipe 23 and air compression chamber 16, be provided with towards No. two check valves 8 towards the direction only import but no export of flame playpipe 4, at air compression chamber 16 and oil gas mixing chamber 2, be provided with between the combustion chamber 3 towards No. three check valves 9 towards the direction only export but no import of flame playpipe 4, between combustion chamber 3 and flame playpipe 4, be provided with towards No. four check valves 10 towards the direction only export but no import of flame playpipe 4, described spark plug 5 connects igniter 20 through high-voltage line 22, this each igniter 20 connects time-delay mechanism 21, and a check valve 7 has back-moving spring 26 among the figure.

During enforcement, the structure connected mode of the disjunctor of described oil gas mixing chamber 2, combustion chamber 3, flame playpipe 4 combination housing 11 is the segmentation welding, or the blue dish of divisional use connects with screw, bolt.

Embodiment five courses of work:

1, air compression:

When the pressure in the air compression chamber less than outside input the air of pressure is arranged the time, No. one check valve 7 is opened, and has the air of pressure to enter in the air compression chamber;

When blasting burning in the combustion chamber, No. three check valve 9 is closed, part high temperature and high pressure gas in the combustion chamber passes through compressed pipe, push check valve 8 open No. two, it is indoor to enter supercharging air, along with the indoor increased pressure of supercharging air, No. one check valve 7 is closed, and the air of pressure that has in the air compression chamber is compressed.

2, oil gas mixes:

Fuel oil is heated vaporization after being installed in the heat exchanger in the combustion chamber under the effect of fuel pump, spray from the mist of oil spray orifice;

Behind explosive combustion, when the pressure in the combustion chamber during less than the pressure in the air compression chamber, pressure-air is pushed No. three check valves 9 open and is entered the combustion chamber, fully mixes the formation mixed oil and gas with the oil gas that sprays from nozzle opening;

3, explosive combustion:

The mixed oil and gas burning of blasting after by spark ignitor, moment produces HTHP flame in the combustion chamber, No. three check valves 9 are closed under the effect of gases at high pressure, No. four check valve 10 is opened, HTHP flame pours the flame playpipe rapidly, sprays from the flame spray orifice after burning away.

4, continuous explosive combustion:

After HTHP flame pours the flame playpipe rapidly, because the motional inertia of high temperature and high pressure gas descends combustion chamber temperature and pressure rapidly, No. three check valves 9 are opened after the pressure of combustion chamber is less than the pressure of discharge chambe, pressure-air enters the combustion chamber once more, No. four check valves 10 are closed after the pressure of combustion chamber is less than the pressure of flame playpipe, the pressure-air that enters the combustion chamber fully mixes the formation mixed oil and gas with the oil gas that sprays from nozzle opening, by explosive combustion once more after the spark ignitor, carry out continuous explosive combustion successively.

The pressure that generation behind the explosive combustion in the flame playpipe is very high, thereby can be implemented in the high-pressure closed vessel solid-state, liquid state or gaseous material are heated.

Claims (6)

1. pulse vector high-pressure burner, air compression chamber part, oil gas mixing chamber part, combustion chamber part, the flame playpipe by mutual perforation partly constitutes successively, and the inner chamber of combustion chamber (3) connects fuel oil oil inlet pipe (6), spark plug (5); Flame jet (401) gathers on the tube wall of flame playpipe (4), it is characterized in that: be provided with utilize gas, the oil pressure formed by check valve between described air compression chamber part, oil gas mixing chamber part, combustor section are divided and change the device that oil gas is supplied with in the generation pulse automatically, this check valve has 3～4 groups, except that be contained in press the air intake place a check valve (7) towards the direction only import but no export of flame playpipe (4), the keying direction of all the other check valves all is towards flame playpipe (4) only export but no import.

2. pulse vector high-pressure burner as claimed in claim 1, it is characterized in that: the described gas that utilizes, being configured to of the device of the automatic generation of oil pressure variation pulse supply oil gas: described fuel oil oil inlet pipe (6) feeds the inner chamber of combustion chamber (3) and oil gas mixing chamber (2), a plurality of mist of oil spray orifices (601) are arranged on the tube wall of this fuel oil oil inlet pipe (6), this oil gas mixing chamber (2), combustion chamber (3), flame playpipe (4) has continuous combination housing (11), between oil gas mixing chamber (2) and air compression chamber (16), be provided with a check valve (7) towards the direction only export but no import of flame playpipe (4), between air compression chamber (16) and oil gas mixing chamber (2), be provided with No. two check valves (8), between combustion chamber (3) and flame playpipe (4), be provided with No. three check valves (9) towards the direction only export but no import of flame playpipe (4) towards the direction only export but no import of flame playpipe (4).

3. pulse vector high-pressure burner as claimed in claim 1, it is characterized in that: the described gas that utilizes, being configured to of the device of the automatic generation of oil pressure variation pulse supply oil gas: described fuel oil oil inlet pipe (6) feeds the inner chamber of combustion chamber (3) and oil gas mixing chamber (2), a plurality of mist of oil spray orifices (601) are arranged on the tube wall of this fuel oil oil inlet pipe (6), this oil gas mixing chamber (2), combustion chamber (3), flame playpipe (4) has the combination housing (11) of disjunctor, be provided with air compression chamber (16) at oil gas mixing chamber (2) front end, be provided with a guiding valve (12) that the center is porose in this air compression chamber (16), in the pore between combustion chamber (3) and flame playpipe (4) normally closed valve gap (17) is arranged, this valve gap (17) connects at least two guide rods (13), this guide rod (13) passes guiding valve (12) and installs with guiding valve (12), this guide rod (13) is set with back-moving spring (14) from the overhanging end that combination housing (11) stretches out, this spring (14) is spacing by the balance weight body (15) of guide rod (13) end, between import that pressure air (1) is arranged and air compression chamber (16), be provided with a check valve (7) towards the direction only import but no export of flame playpipe (4), between guiding valve (12) centre bore between the air compression chamber (16) and oil gas mixing chamber (2), be provided with No. two check valves (8), between air compression chamber (16) right side and combustion chamber (3), be provided with No. three check valves (9) towards the direction only export but no import of flame playpipe (4) towards the direction only export but no import of flame playpipe (4).

4. pulse vector high-pressure burner as claimed in claim 1, it is characterized in that: the described gas that utilizes, being configured to of the device of the automatic generation of oil pressure variation pulse supply oil gas: described fuel oil oil inlet pipe (6) feeds the inner chamber of combustion chamber (3) and oil gas mixing chamber (2), a plurality of mist of oil spray orifices (601) are arranged on the tube wall of this fuel oil oil inlet pipe (6), this oil gas mixing chamber (2), combustion chamber (3), flame playpipe (4) has the combination housing (11) of disjunctor, this fuel oil oil inlet pipe (6) passes combination housing (11) wall and connects preheating oil gas pipe (19), this preheating oil gas pipe (19) connects the preheating chamber (18) that is located at air compression chamber (16) head end, a plurality of fiery cigarette spray orifices are arranged on the tube wall of this preheating chamber (18), this preheating chamber (18) connects second spark plug (25), on the inlet tube that pressure air (1) is arranged, be provided with a check valve (7) towards air compression chamber (16) direction only import but no export, between air compression chamber (16) and oil gas mixing chamber (2), be provided with No. two check valves (8) towards the direction only export but no import of flame playpipe (4), in oil gas mixing chamber (2), be provided with No. three check valves (9) of a direction only export but no import of the playpipe that warms oneself in front of a fire (4) between combustion chamber (3) and the flame playpipe (4), described each spark plug connects igniter (20) through high-voltage line (22) respectively, and this each igniter (20) connects time-delay mechanism (21), (24).

5. pulse vector high-pressure burner as claimed in claim 1, it is characterized in that: the described gas that utilizes, being configured to of the device of the automatic generation of oil pressure variation pulse supply oil gas: described fuel oil oil inlet pipe (6) feeds the inner chamber of combustion chamber (3), a plurality of mist of oil spray orifices (601) are arranged on the tube wall of this fuel oil oil inlet pipe (6), this oil gas mixing chamber (2), combustion chamber (3), flame playpipe (4) has the combination housing (11) of disjunctor, this combustion chamber (3) is communicated with forcing pipe (23), this forcing pipe (23) is communicated with air compression chamber (16), between import that pressure air (1) is arranged and air compression chamber (16), be provided with a check valve (7) towards air compression chamber direction only import but no export, between forcing pipe (23) and air compression chamber (16), be provided with No. two check valves (8) towards the direction only export but no import of flame playpipe (4), at air compression chamber (16) and oil gas mixing chamber (2), be provided with No. three check valves (9) between the combustion chamber (3) towards the direction only export but no import of flame playpipe (4), between combustion chamber (3) and flame playpipe (4), be provided with No. four check valves (10) towards the direction only export but no import of flame playpipe (4), described spark plug (5) connects igniter (20) through high-voltage line (22), and this each igniter (20) connects time-delay mechanism (21), (24).

6. as claim 2 or 3 or 4 or 5 described pulse vector high-pressure burners, it is characterized in that: the structure connected mode of the disjunctor of described oil gas mixing chamber (2), combustion chamber (3), flame playpipe (4) combination housing (11) is a kind of during segmentation welding, segmentation connect with screw, bolt.

Images