RU106718U1 - NOZZLE - Google Patents

Abstract

 Nozzle, consisting of a body, a nozzle for supplying fuel, a saw nozzle, nozzles for supplying fuel, made in the form of an inverted glass with side holes located at the end of the nozzle, the angle of inclination of which to the axis of the nozzle is 60 °, and in the cavity of the glass for self-regulating a cross section of the holes is a plunger with a central calibrated spring, a washer mounted on the outer surface of the nozzle and having holes with an angle of inclination to the axis of the nozzle, which are located in pairs with the nozzle holes, the sawing nozzle is mounted on the opposite side of the fuel supply nozzle with the ability to move along the nozzle axis and fixed with a lock nut with a peripheral calibrated spring, forming a slotted annular channel with the housing, characterized in that the housing consists of a mounting bracket mounted on the washer with axial movement and made with the possibility of fixing the nozzle on the outer stem pipe for supplying the atomizer of the boiler burner device, and a control sleeve for regulating the slits of the annular channel mounted on the washer with the possibility of axial movement and the formation of a cavity for the atomizer, and the holes for supplying the atomizer are made on the washer with an angle of 5 ° to 10 ° to the axis of the nozzle, and the end parts of the spray nozzle and the control sleeve forming a slotted annular the channel, made at an angle of 60 ° to the axis of the nozzle, while the end part of the nozzle for supplying fuel is made profiled, corresponding to the profile of the seat of the inner stem pipe for supplying burner fuel

Description

The utility model relates to the field of energy and can be used for burning organic liquid fuels and oily waste in industrial furnaces and boiler furnaces.

Closest to the claimed utility model is the nozzle according to the patent of the Russian Federation No. 2396487, IPC F23D 11/10, F23D 11/36, 08/10/2010, consisting of a housing with fittings for supplying fuel and a spray nozzle, a nozzle for supplying fuel made in in the form of an inverted cup with radial side holes located at the end of the nozzle, the angle of inclination of which to the nozzle axis is 60 °, and a plunger with a central calibrated spring, washers with holes is installed in the cavity of the cup for self-regulation of the bore of the holes, between the outer surface of the nozzle and the inner surface of the housing, forming a cavity for the atomizer, and having openings with an angle of inclination of 30 ° to the nozzle axis, which are arranged in pairs with the nozzle openings, while the spray nozzle is mounted on the opposite side of the nozzle with the possibility of movement along the axis and fixed a lock nut with a peripheral calibrated spring, forming a slotted gap with the housing.

The disadvantages of the known nozzle are:

1. The lack of unification of the connection of the fitting for supplying fuel to the existing seat of the inner stem pipe for supplying fuel to the burner device of the boiler.

2. The inability to maintain a constant angle of atomization of the fuel when adjusting the gap between the housing and the spray nozzle, which causes deterioration in the conditions of fuel combustion.

The objective of the utility model is to increase the operational capabilities of the nozzle by unifying the connection of the nozzle for supplying fuel to the existing seat of the inner stem pipe for supplying fuel to the burner device of the boiler, as well as increasing the efficiency of fuel combustion when changing the operation modes of the nozzle by ensuring the possibility of maintaining a constant angle of atomization of fuel at adjusting the clearance between the housing and the spray nozzle.

The technical result is achieved by the fact that in the nozzle, consisting of a housing, a nozzle for supplying fuel, a spray nozzle, a nozzle for supplying fuel, made in the form of an inverted glass with side holes located at the end of the nozzle, the angle of inclination of which to the axis of the nozzle is 60 °, and in the cavity of the glass for self-regulation of the bore of the holes there is a plunger with a central calibrated spring, a washer mounted on the outer surface of the nozzle and having holes with an angle of inclination to the axis of the nozzle, which are laid in pairs with nozzle openings, while the spray nozzle is mounted on the opposite side of the nozzle for fuel supply with the ability to move along the axis of the nozzle and fixed with a lock nut with a peripheral calibrated spring, forming a slotted annular channel with the housing, according to the claimed utility model, the housing consists of a mounting clip mounted on the washer with the possibility of axial movement and made with the possibility of fixing the nozzle on the outer stem pipe for supplying the spray gun of the burner The boiler and the regulating sleeve for regulating the slotted annular channel mounted on the washer with the possibility of axial movement and the formation of a cavity for the sprayer, and the holes for supplying the sprayer are made on the washer with an angle of 5 ° to 10 ° to the axis of the nozzle, and the end parts of the sprayer the nozzle and the control sleeve forming a slotted annular channel are made at an angle of 60 ° to the axis of the nozzle, while the end part of the nozzle for supplying fuel is made profiled, corresponding to the profile of the seats and the inner stem pipe for supplying fuel to the burner device of the boiler.

The essence of the utility model is illustrated by the drawing, which shows the nozzle, a longitudinal section.

The following items are assigned to nozzle parts:

1 - mounting clip

2 - fitting for fuel supply,

3 - regulating sleeve,

4 - nozzle for supplying fuel,

5 - side openings for fuel supply,

6 - plunger

7 - central calibrated spring,

8 - washer,

9 - holes for supplying a spray,

10 - spray nozzles,

11 - a lock nut,

12 - peripheral calibrated spring,

13 - inner stem pipe for supplying fuel to the burner device of the boiler,

14 - outer stem pipe for supplying a spray of the burner device of the boiler,

15 - fitting of the inner stem pipe for supplying fuel,

16 - fitting of the outer stem pipe for supplying the sprayer.

The nozzle contains a housing consisting of a mounting sleeve 1 mounted on the washer 8 and configured to fix the nozzle on the outer stem pipe 14 for supplying the atomizer of the boiler burner device, and a control sleeve 3 for regulating the slotted annular channel mounted on the washer 8 with the possibility of cavity formation for sprayer. The mounting sleeve 1 and the adjusting sleeve 3 can be moved axially along the threaded part of the washer 8.

The retaining clip 1 is used to connect the nozzle of the inventive design of the nozzle to the outer stem tube 14 of the nozzle in operation of the boiler burner. Previously, an existing spray nozzle is disconnected from the nozzle in operation from the outer stem pipe 14.

The nozzle also contains a fitting 2 for supplying fuel, the end part of which is shaped, corresponding to the profile of the seat of the inner stem pipe 13 for supplying fuel to the burner device of the boiler. At the outlet of the nozzle 2, a nozzle 4 for supplying fuel is fixed, made in the form of an inverted cup with side holes 5 for supplying fuel located at the end of the nozzle 2, the angle of inclination of which to the nozzle axis is 60 °. The nozzle 4 is made with the possibility of self-regulation of the passage section of the side holes 5 depending on the viscosity of the fuel due to the placement of a plunger 6 with a central calibrated spring 7 inside the cavity of the nozzle 4.

The nozzle also contains a washer 8 mounted on the outer surface of the nozzle 4. The washer 8 has several holes 9 for supplying a spray gun (steam) located uniformly around the circumference at an angle of 5 ° to 10 ° to the axis of the nozzle, depending on the thickness of the washer 8 and located in pairs with side openings 5 for supplying fuel (fuel oil). On the opposite side of the nozzle 4, the spray nozzles 10 are mounted to move along the axis of the nozzle, fixed by a lock nut 11 with a peripheral calibrated spring 12, forming a slotted annular channel with the control sleeve 3 of the housing, i.e. nozzles 10 are made without holes with the possibility of self-regulation of the slotted annular channel between the regulating sleeve 3 and the spray nozzle 10 due to the lock nut 11 and the peripheral calibrated spring 12.

The adjusting sleeve 3 has a bevel in the end part, made at an angle of 60 ° to the axis of the nozzle. The end part of the spray nozzle 10 is also made at an angle of 60 ° to the axis of the nozzle and relative to the chamfer of the regulating sleeve 3 forms a slotted annular channel, inclined at an angle of 60 ° to the axis of the nozzle, and coinciding with the angle of inclination of the holes 5 for supplying fuel. The plunger 6 can move in the axial direction overcoming the resistance of the spring 7 and thereby increasing the bore of the holes 5. When coking, the pressure of the vapor and fuel increases and the spray nozzle 10, overcoming the resistance of the spring 12, moves in the axial direction and increases the bore of the slotted annular channel, that is, the operation of the inventive nozzle during partial coking of the gap between the spray nozzle 10 and the end part of the regulating sleeve 3 does not stop.

The inventive nozzle operates as follows.

In a steam-mechanical fuel oil nozzle in operation on the boiler burner, the spray nozzle is unscrewed from the outer stem pipe 14. The inventive nozzle with its nozzle 2 is inserted into the inner stem pipe 13 of the steam-mechanical nozzle until the profiled spherical surface of the nozzle 2 is in full contact with the seat in the inner stem pipe 13 and, using the internal thread of the fastening clip 1, is fixedly fixed to the outer stem pipe 14. The rotation of the regulating sleeve 3 is set the size of the slotted annular channel between the spray nozzle 10 and the end part of the regulating sleeve 3, depending on the required performance of the nozzle. The outer stem pipe 14, together with the inventive nozzle attached, is installed in the burner device of the boiler and connected through existing fittings 15, 16, respectively, for supplying fuel and supplying a spray to pipelines for supplying fuel oil and spray water vapor to the boiler. Fuel oil is supplied through the nozzle 15, which passes through the central hole of the nozzle 2 and through the holes 5. Steam is supplied through the nozzle 16, which passes through the nozzles in the nozzle 9. When the jets hit the holes 5 and 9, preliminary primary fragmentation of the fuel oil into drops occurs. When pre-dispersed steam and fuel oil streams hit the spray nozzle 10, secondary droplets of fuel oil are crushed, and when a second-dispersed fuel oil-steam stream enters the slotted annular channel between the spray nozzle 10 and the end part of the regulating sleeve 3, additional tertiary crushing of the fuel oil-steam stream occurs account diffuser effect. In case of accidental ingress of colloidal particles of fuel oil into the nozzle 2 and clogging of the holes 5 due to the increase in pressure, the plunger 6 overcomes the resistance of the spring 7 and increases the flow area of the hole 5 and colloidal pollution is ejected through the hole 5 and through the slotted annular channel into the combustion torch. The use of an inclination angle of 60 ° for the end part of the spray nozzle 10 and an inclination angle of 60 ° for the end part of the regulating sleeve 3 in the inventive nozzle allows, in comparison with the known nozzle, to achieve a geometric configuration of the torch at which the torch does not project onto the back and side screens boiler.

An example of a specific implementation.

On the TGM-84B boiler, steam mechanical nozzles FU3-5000 were used to burn M100 fuel oil. The main disadvantage of these nozzles is the long torch, which destroys the lining of the rear screen. There is no adjustment of the slit gap, since the fuel oil-steam flow is ejected through 20 concentrically arranged holes with an average diameter of 7 mm along the axis of the stem pipe. This leads to transient modes of operation of the boiler to incomplete combustion of fuel and to its excessive consumption. The inventive nozzle is made with 6 holes ⌀5 mm for supplying steam and with 6 holes ⌀4 mm for supplying fuel oil. The mounting sleeve 1 has an internal thread M65 × 2.5. The spray nozzle was removed from the barrel of the nozzle FU3-5000 and the inventive nozzle with the parameters indicated above was connected to the M65 × 2.5 thread. The nozzle barrel with the inventive nozzle attached was installed in the central tube of burner No. 4 of the 1st tier. The steam and fuel oil connections are connected to the pipelines. The remaining 5 burners of the boiler worked on gas combustion. Changing the nozzle FU3-5000 to the inventive nozzle and connecting steam and fuel oil to the pipelines and launching the inventive nozzle into operation took 15 minutes in time. The ignition of fuel oil is carried out from the flame of a neighboring burner. In the test, the fuel oil pressure was 8 kg / cm ² , the vapor pressure was 9 kg / cm ² , the fuel oil consumption was 2.5 t / h, and the boiler load was 300 t / h. It was found that the inventive nozzle gives a shorter torch and a smaller diameter of the drops of fuel oil when sprayed, which allows to achieve more economical burning of fuel oil in the boiler.

Thus, the use of the claimed utility model will increase the operational capabilities of the nozzle by unifying the connection of the nozzle for supplying fuel to the existing seat of the inner stem pipe for supplying fuel to the burner device of the boiler, increasing the efficiency of fuel combustion when changing the operating modes of the nozzle by ensuring the possibility of maintaining a constant spray angle fuel when adjusting the gap between the regulating sleeve and the spray nozzle.

Claims (1)

Nozzle, consisting of a body, a nozzle for supplying fuel, a saw nozzle, nozzles for supplying fuel, made in the form of an inverted glass with side holes located at the end of the nozzle, the angle of inclination of which to the axis of the nozzle is 60 °, and in the cavity of the glass for self-regulating a cross section of the holes is a plunger with a central calibrated spring, a washer mounted on the outer surface of the nozzle and having holes with an angle of inclination to the axis of the nozzle, which are located in pairs with the nozzle holes, the sawing nozzle is mounted on the opposite side of the fuel supply nozzle with the ability to move along the nozzle axis and fixed with a lock nut with a peripheral calibrated spring, forming a slotted annular channel with the housing, characterized in that the housing consists of a mounting bracket mounted on the washer with axial movement and made with the possibility of fixing the nozzle on the outer stem pipe for supplying the atomizer of the boiler burner device, and a control sleeve for regulating the slits of the annular channel mounted on the washer with the possibility of axial movement and the formation of a cavity for the atomizer, and the holes for supplying the atomizer are made on the washer with an angle of 5 ° to 10 ° to the axis of the nozzle, and the end parts of the spray nozzle and the control sleeve forming a slotted annular the channel is made at an angle of 60 ° to the axis of the nozzle, while the end part of the nozzle for supplying fuel is shaped, corresponding to the profile of the seat of the inner stem pipe for supplying burner fuel boiler devices.