RU2097652C1 - Injector - Google Patents

Abstract

FIELD: gas coolers; manufacture of building materials. SUBSTANCE: injector has housing 1 with circular chamber 13 for supply of liquid, sprayer made in form of bush 4 and secured in housing; bush 4 is provided with nozzle 6 and swirler 5 forming before-nozzle chamber 7 between them. Swirler 5 is provided with helical passages 11 on outer surface and with tail-piece forming circular passage 10 together with inner surface of bush. Passage 10 is brought in communication with circular chamber 13 by means of holes and with before-nozzle chamber 7 by means of helical passages 11. Injector is provided with additional sprayers. Housing is provided with axial passage 8 and circular row of cylindrical seats provided with circular grooves 2 brought in communication with chamber 13. Sprayers are mounted in above-mentioned seats for communication of circular passages 10 of sprayers with circular grooves 2 by means of tangential holes made in bushes 4. Swirlers 5 of sprayers are provided with central holes 9 for return drain which are used for communication of before-nozzle chambers 7 with axial passage 8 of housing 1. Nozzles 6 of sprayers may be changeable and may be mounted in bushes 4 for axial displacement. EFFECT: enhanced reliability. 4 cl, 4 dwg

Description

 The invention relates to a device for spraying liquids, in particular for spraying water and can be used in gas coolers used in the building materials industry.

Known nozzle containing a housing with a central confuser channel and a confuser-diffuser outlet nozzle, an adjustment needle and a coaxial plunger with screw grooves are installed in the channel, the outer surface of which repeats the shape of the inner surface of the channel of the housing [1]
Also known is a nozzle containing a cylindrical mixing chamber located in front of the nozzle, which is in front of the nozzle and connected to the fuel line with an opening at the end, and to the duct with tangential channels located in two rows in the side wall of the mixing chamber, the channels having an opposite swirl [2]
Closest to the invention in its technical essence is a nozzle containing a housing with an annular fluid supply chamber, a nozzle mounted in the housing, made in the form of a sleeve equipped with a nozzle nozzle and a swirl installed to form a pre-nozzle chamber between them, the swirl made with screw channels on the outer surface and with a shank forming with the inner surface of the sleeve an annular channel communicated by openings with an annular chamber and screw channels with a pre-nozzle chamber [3]
A disadvantage of the known nozzles is their low atomization efficiency.

 The purpose of the invention is to increase spraying efficiency by increasing the area of water dispersion and regulating its flow rate through the nozzle.

 For this, the nozzle is equipped with additional nozzles, an axial channel is made in the housing and an annular row of cylindrical sockets equipped with annular recesses in communication with the fluid supply chamber, nozzles are installed in these sockets with the possibility of providing annular channels of nozzles with annular recesses through holes made in the tangential bushings and in the swirling nozzles of the nozzles there are made central holes of the return drain, communicating their pre-nozzle chambers with an axial channel a.

 To increase the service life of the spray nozzles, their nozzle nozzles are removable.

 To achieve additional adjustment of the degree of liquid spray by changing the volume of the pre-nozzle chamber, nozzle nozzles of the nozzles are mounted in the bushings with the possibility of axial movement.

 In FIG. 1 shows a General view of the nozzle in section; in Fig. 2, view A in Fig. 1 (view of the nozzle on the right); in Fig.3 section BB in Fig. 2, an embodiment of the nozzle; in Fig. 4, section BB in Fig. 3, explains the composition and operation of the nozzle.

 The nozzle comprises a housing 1 with annular recesses 2 communicating with holes 3 made tangentially in the sleeve 4. A swirl 5 and a nozzle nozzle 6 are placed in the sleeve 4, and a pre-nozzle chamber 7 is made between the end surfaces of the latter. The sleeve 4 with the swirl 5 and nozzle nozzle 6 is a spray.

 The nozzle also contains an axial channel 8, which enters the housing 1 and is connected through the backflow holes 9 in the swirler 5 with the pre-nozzle chamber 7.

 The swirl 5 is made with a shank, forming with the inner surface of the sleeve 4 an annular channel 10. On the outer surface of the swirl 5 there are screw channels 11 communicating the annular channel 10 with the pre-nozzle chamber 7.

 In the housing 1 there is an annular channel of sockets (not indicated) with annular recesses 2. A spray gun is fixed in each nest, covered by an annular recess 2 communicating through a channel 12 with an annular fluid supply chamber 13 made in the housing 1. The nozzle shown in the drawing has 3 sockets with sprays installed in them (Fig. 2).

 The housing 1 is screwed onto the flange 14 of the pipe 15. In the nozzle nozzle 6 there is a hole 16. A nut 17 is placed on the sleeve 4. Between the flange 14 and the housing 1, between the axial channel 8 and the housing 1, between the swirl 5 and the housing 1, as well as between the nut 17 and the housing 1 are installed gaskets 18 21, respectively.

 The sleeve 4 may have an internal thread into which the housing 22 is screwed with the nozzle nozzle 6 and the nut 23 fixed therein.

 The nozzle works as follows.

 Water under pressure is supplied through a pipe 15 with a flange 14 and enters the annular chamber 13 for supplying fluid to the housing 1, from where water enters the annular recesses through the channels 12. Then, through the tangential holes 3 in the sleeve 4, the water enters the annular channel 10, where it turbulence, and through the screw channels 11 of the swirl 5 water, spinning, enters the pre-nozzle chamber 7, from where it is sprayed in the form of fog through the holes 16 of the nozzle nozzle 6.

 Excess water is discharged along the axial channel 8 through the backflow hole 9 in the swirler 5. All three sprayers work simultaneously.

 By screwing or unscrewing the sleeve 4 with the nozzle nozzle 6 in the housing 1, it is possible to change the volume of the pre-nozzle chamber 7, thereby changing the efficiency of spraying water with a constant volume of its supply to the nozzle.

 The nut 17 prevents the sleeve 4 from self-screwing out of the housing 1. The gaskets 18 21 seal the nozzle connectors.

 When performing the nozzle elements of FIG. 1 it is necessary to fulfill the condition of alignment of the internal threads in the socket of the housing 1 in order to ensure the screwability of the swirler 5 and the sleeve 4. This creates a certain difficulty in the manufacture of the housing and the assembly of the nozzle.

 You can get rid of this drawback by completing the nozzle elements of FIG. 3. Then the swirl 5 does not have a thread and is pressed against the housing 1 using the sleeve 4, which greatly simplifies the manufacture of the housing 1 and the assembly as a whole, without compromising the efficiency of its operation.

 In this case, to regulate the volume of the pre-nozzle chamber 7, it is necessary to screw or unscrew the housing 22 in the sleeve 4. The nut 23 prevents self-screwing of the housing 22 with the nozzle nozzle 6.

 Thus, the use of this invention allows to improve the atomization of water by the nozzle, which increases its efficiency.

Claims (4)

 1. An injector comprising a housing with an annular fluid supply chamber, a nozzle fixed in the housing, made in the form of a sleeve equipped with a nozzle nozzle and a swirl installed to form a pre-nozzle chamber between them, the swirl made with screw channels on the outer surface and with a shank forming with the inner surface of the sleeve an annular channel communicated with holes with an annular chamber and screw channels with a pre-nozzle chamber, characterized in that the annular row is cylindrical in the housing x nests equipped with recesses in communication with the fluid supply chamber, the nozzles are installed in these sockets with the possibility of providing communication of the annular channels of the sprayers with recesses through holes made in the bushings tangentially.  2. The nozzle according to claim 1, characterized in that it is provided with an axial channel, and backflow openings are made in the swirls of the nozzles, communicating the pre-nozzle chambers with the axial channel.  3. The nozzle according to claim 1, characterized in that the nozzle nozzles of the nozzles are removable.  4. The nozzle according to claim 1, characterized in that the nozzle nozzles of the nozzles are installed in the bushings with the possibility of axial movement.

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