CN112354206A - Steam jet container - Google Patents

Abstract

The invention discloses a steam injection container, which comprises a container; the container is internally provided with at least one channel for conveying steam, the channel is formed by mutually splicing a plurality of steam baffles arranged in the container and the side wall of the container, and two ends of the channel are respectively provided with an air inlet pipe orifice and an air outlet pipe orifice; the container is also provided with a liquid outlet pipe orifice which is arranged below the air inlet pipe orifice and the air outlet pipe orifice. The design of the spiral steam baffle is adopted, the steam can be prevented from being directly discharged from the air outlet pipe orifice after entering the container, the spiral channel arranged between the steam inlet and the steam outlet can increase the contact probability and the contact area of the steam and the side wall of the channel, and the spiral steam baffle has a larger contact surface, so that the steam can be ensured to be fully contacted with the container, fully condensed and liquefied, and the moisture content of the steam is reduced; the steam entrained water drops can be prevented from being directly sprayed out, and the water drops can be condensed into larger water drops after fully contacting the side wall of the container and then are discharged from the liquid outlet.

Description

Steam jet container

Technical Field

The invention belongs to the technical field of steam injection equipment, and particularly relates to a steam injection container.

Background

Steam jet equipment all has extensive application in industry field and medical instrument field, and steam jet has high temperature steam injection and low temperature atomizing to spray two kinds, and wherein high temperature steam injection is the comparatively extensive one kind of application, and this kind of high temperature steam injection equipment one end and high temperature steam generating equipment interconnect, high temperature steam pass through the pipeline and carry to spray container, spout blowout through spray container. Wherein the spray container plays a crucial role in the overall process.

Because the steam needs to be subjected to temperature reduction and pressure reduction in the spraying process, a large amount of water in the steam can be separated out after the temperature and the pressure of the steam are reduced, and water drops and accumulated liquid are formed in the spraying container; the liquid can not be vaporized again in the spraying container to form steam to be sprayed out, reasonable drainage is needed to be carried out to enable the liquid to be discharged out of the spraying container, otherwise, once the liquid loading is too much, the liquid loading can be sprayed out from the nozzle along with the steam to form a liquid spraying condition. Meanwhile, if the spraying container is omitted and the steam is directly sprayed, condensed water drops in the steam pipeline are sprayed along with the sprayed steam to cause the condition of liquid spraying.

Disclosure of Invention

The invention provides a steam spraying container, aiming to solve the problem that liquid is easy to spray when liquid is accumulated in the spraying container.

A steam injection vessel comprising a vessel; the steam delivery device comprises a container, a steam inlet pipe, a steam outlet pipe, a steam baffle, a steam outlet pipe and a steam outlet pipe, wherein at least one channel for delivering steam is arranged in the container, the channel is formed by mutually splicing a plurality of steam baffles arranged in the container and the side wall of the container, and the two ends of the channel are respectively provided with the air inlet pipe orifice and the air; the container is also provided with a liquid outlet pipe orifice which is arranged below the air inlet pipe orifice and the air outlet pipe orifice.

Furthermore, the container be cylindrical, inside is equipped with the stand, steam baffle spiral setting is in the inside of container, with the mutual fixed connection of the lateral wall of container, stand.

Further, the spiral length of the steam baffle is at least two pitches.

Furthermore, the transition fillet size of the junction of the steam baffle plate, the container and the upright post is smaller than the channel width of 1/3.

Furthermore, the lower side end part of the steam baffle is connected with the bottom of the container, and the height of the steam baffle at the air inlet pipe opening from the bottom of the container is greater than the height of the steam baffle at the air outlet pipe opening from the bottom of the container.

Furthermore, the upper end of the steam baffle is flush with the upper end of the upright post, and is positioned at the lower part of the air outlet pipe orifice.

Furthermore, the air inlet pipe orifice protrudes out of the bottom plane in the container.

Furthermore, the air outlet pipe orifice protrudes out of the plane of the side wall in the container.

Furthermore, the liquid outlet pipe orifice is arranged flush with the bottom plane in the container.

The invention discloses a steam injection container, which comprises a container; the steam delivery device comprises a container, a steam inlet pipe, a steam outlet pipe, a steam baffle, a steam outlet pipe and a steam outlet pipe, wherein at least one channel for delivering steam is arranged in the container, the channel is formed by mutually splicing a plurality of steam baffles arranged in the container and the side wall of the container, and the two ends of the channel are respectively provided with the air inlet pipe orifice and the air; the container is also provided with a liquid outlet pipe orifice which is arranged below the air inlet pipe orifice and the air outlet pipe orifice.

The invention adopts the design of the spiral steam baffle, can prevent steam from directly discharging from the air outlet pipe orifice 102 after entering the container, the spiral channel arranged between the steam inlet and the steam outlet can increase the contact probability and the contact area of the steam and the side wall of the channel, and the spiral channel has larger contact surface, can ensure that the steam is fully contacted with the container, fully condenses and liquefies, and reduces the moisture content of the steam; the steam entrained water drops can be prevented from being directly sprayed out, and the water drops can be condensed into larger water drops after fully contacting the side wall of the container and then are discharged from the liquid outlet. Meanwhile, the steam baffle is utilized to divide the inside of the whole container into one or more channels, the sectional area of the divided channels can be reduced, certain high pressure can be formed firstly after steam enters the channels due to the arrangement of the steam inlet relative to the liquid outlet, and the high pressure can force the liquid gathered at the bottom to flow out of the container in an accelerated manner.

The spiral steam baffle plate adopts the design of combining the bottom and reserving the upper space, the steam entering the container directly enters the space above the container after passing through the channel, the steam moves along the direction of the steam baffle plate, the steam can contact the side wall before entering the container, then the whole space is filled, and finally the steam is discharged from the air outlet pipe orifice.

Drawings

FIG. 1 is a front view of a steam injection vessel of the present invention;

fig. 2 is a sectional view a-a of a steam spray container according to the present invention.

Detailed Description

Example (b):

referring to fig. 1-2, a steam injection vessel includes a vessel 1; the container 1 is internally provided with at least one channel 11 for conveying steam, the channel 11 is formed by mutually splicing a plurality of steam baffles 12 arranged in the container 1 and the side wall of the container 1, and both ends of the channel 11 are respectively provided with an air inlet pipe orifice 101 and an air outlet pipe orifice 102; the container 1 is also provided with a liquid outlet pipe orifice 103, and the liquid outlet pipe orifice 103 is arranged below the air inlet pipe orifice 101 and the air outlet pipe orifice 102;

the container 1 is cylindrical, and a cylindrical cavity 100 is arranged in the container;

the inside of the container 1 is provided with a vertical column 13;

the upright column 13 is cylindrical and is fixed on the bottom plane inside the container 1;

the upright column 13 is coaxially arranged with the container 1;

the steam baffle plate 12 is arranged inside the container 1;

the steam baffle 12 is spiral, the inner side edge of the steam baffle 12 is fixedly connected with the upright column 13, and the connection part is sealed;

the outer edge of the steam baffle 12 and the inner side cylinder wall of the container 1 are fixedly arranged, and the connection part is sealed;

the spiral length between the upper end part and the lower end part of the steam baffle plate 12 is at least two screw pitches;

the transition fillet size of the joint of the steam baffle plate 12 and the container 1 and the upright post 13 is smaller than the width of the channel 11 of 1/3;

the lower end part of the steam baffle plate 12 is connected with the bottom of the container 1, and the height of the steam baffle plate 12 at the air inlet pipe orifice 101 from the bottom of the container 1 is greater than the height of the steam baffle plate 12 at the air outlet pipe orifice 102 from the bottom of the container 1;

the upper end of the steam baffle 12 is flush with the upper end of the upright column 13 and is positioned at the lower part of the air outlet pipe mouth 102;

the air inlet pipe orifice 101 is arranged by protruding the bottom plane in the container 1;

the air outlet pipe orifice 102 is arranged to protrude out of the plane of the inner side wall of the container 1;

the liquid outlet pipe mouth 103 is flush with the bottom plane in the container 1.

When the steam-condensing type steam-condensing container is used, steam is introduced into the container from the air inlet pipe orifice 101, moves to the air outlet pipe orifice 102 through the channel 11, and is sprayed out from the air outlet pipe orifice 102, during the steam-condensing period, the steam is condensed through the channel 11, and condensed liquid flows downwards through the steam baffle plate 12 and is discharged through the liquid outlet pipe orifice 103.

After steam enters the container, the space is expanded sharply, the steam is sprayed in the direction, after the steam is sprayed into the container 1 through the air inlet pipe orifice 101, gas with water drops can collide with the steam baffle plate 12 arranged right above the air inlet pipe orifice 101, due to collision, the water drops can be separated from the steam, separated water drops can be condensed and gathered along the side wall, and gathered liquid can be discharged to the outside of the container through the liquid outlet pipe orifice 103; meanwhile, the steam can flow and diffuse upwards along the channel 11, the temperature of the steam is gradually reduced in the steam upwards diffusing process, the steam condensing process is continuously generated, and the condensed water drops flow downwards along the steam baffle 12 and are discharged to the outside of the container from the liquid outlet pipe opening 103 after reaching the bottom.

The invention adopts the design of the spiral steam baffle, can prevent steam from directly discharging from the air outlet pipe orifice 102 after entering the container, the spiral channel arranged between the steam inlet and the steam outlet can increase the contact probability and the contact area of the steam and the side wall of the channel, and the spiral channel has larger contact surface, can ensure that the steam is fully contacted with the container, fully condenses and liquefies, and reduces the moisture content of the steam; the steam entrained water drops can be prevented from being directly sprayed out, and the water drops can be condensed into larger water drops after fully contacting the side wall of the container and then are discharged from the liquid outlet. Meanwhile, the steam baffle is utilized to divide the inside of the whole container into one or more channels, the sectional area of the divided channels can be reduced, certain high pressure can be formed firstly after steam enters the channels due to the arrangement of the steam inlet relative to the liquid outlet, and the high pressure can force the liquid gathered at the bottom to flow out of the container in an accelerated manner.

The spiral steam baffle plate adopts the design of combining the bottom and reserving the upper space, the steam entering the container directly enters the space above the container after passing through the channel, the steam moves along the direction of the steam baffle plate, the steam can contact the side wall before entering the container, then the whole space is filled, and finally the steam is discharged from the air outlet pipe orifice.

The above-mentioned embodiments, objects, technical solutions and advantages of the present invention are further described in detail, it should be understood that the above-mentioned embodiments are only illustrative of the present invention and are not intended to limit the present invention, and any modifications, equivalents, improvements and the like made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (9)

1. A steam injection vessel characterized by: comprising a container (1); at least one channel (11) for conveying steam is arranged in the container (1), the channel (11) is formed by mutually splicing a plurality of steam baffles (12) arranged in the container (1) and the side wall of the container (1), and both ends of the channel (11) are respectively provided with an air inlet pipe orifice (101) and an air outlet pipe orifice (102); the container (1) is also provided with a liquid outlet pipe orifice (103), and the liquid outlet pipe orifice (103) is arranged below the air inlet pipe orifice (101) and the air outlet pipe orifice (102).

2. A steam injection vessel as set forth in claim 1 wherein: the steam container is characterized in that the container (1) is cylindrical, a stand column (13) is arranged in the container (1), and the steam baffle (12) is spirally arranged in the container (1) and fixedly connected with the side walls of the container (1) and the stand column (13).

3. A steam injection vessel as set forth in claim 2 wherein: the spiral length of the steam baffle (12) is at least two pitches.

4. A steam injection vessel as set forth in claim 3 wherein: the transition fillet size that the junction of steam baffle (12) and container (1), stand (13) be less than 1/3 passageway (11) width.

5. A steam injection vessel as set forth in claim 4 wherein: the lower side end part of the steam baffle (12) is connected with the bottom of the container (1), and the height of the steam baffle (12) at the air inlet pipe orifice (101) from the bottom of the container (1) is greater than the height of the steam baffle (12) at the air outlet pipe orifice (102) from the bottom of the container (1).

6. A steam injection vessel as set forth in claim 5 wherein: the upper end part of the steam baffle (12) is flush with the upper end part of the upright post (13) and is positioned at the lower part of the air outlet pipe orifice (102).

7. A steam injection vessel as set forth in claim 6 wherein: the air inlet pipe orifice (101) is arranged by protruding the bottom plane in the container (1).

8. A steam injection vessel as set forth in claim 7 wherein: the air outlet pipe orifice (102) is arranged to protrude out of the plane of the inner side wall of the container (1).

9. A steam injection vessel as set forth in claim 8 wherein: the liquid outlet pipe orifice (103) is flush with the bottom plane in the container (1).

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