CN209865332U

CN209865332U - Steam of flash distillation carries temperature pressure boost structure

Info

Publication number: CN209865332U
Application number: CN201920564242.1U
Authority: CN
Inventors: 宋建忠
Original assignee: Suzhou Shengdeyi Energy Conservation And Environmental Protection Technology Co Ltd
Current assignee: Suzhou Shengdeyi Energy Conservation And Environmental Protection Technology Co Ltd
Priority date: 2019-04-24
Filing date: 2019-04-24
Publication date: 2019-12-31
Anticipated expiration: 2029-04-24

Abstract

The utility model provides a flash evaporation steam temperature-raising and pressure-increasing structure, which relates to the technical field of flash evaporation pressure-increasing structures, and comprises a pressure-increasing cavity, a hydraulic part and an air outlet pipe, wherein the hydraulic part is arranged above the inner part of the pressure-increasing cavity, and the air outlet pipe is inserted in the center of the bottom of the inner surface of the pressure-increasing cavity and communicated with the center; the hydraulic part comprises a pressurizing cover, a transverse plate, a main shaft, side shafts and a top plate, the pressurizing cover is fixed at the center of the bottom surface of the hydraulic part through screws, the transverse plate is horizontally fixed above the hydraulic part, the main shaft and the side shafts are both vertically welded above the transverse plate, the side shafts are provided with two side shafts which are respectively parallel to the left side and the right side of the main shaft, the top plate is horizontally welded above the main shaft and the side shafts, and the edges of the left side and the right side of the lower surface of the top plate are both; the beneficial effects of the utility model reside in that: improve the seal of pressure boost structure/avoid outside atmospheric pressure to get into the pressure boost intracavity, influence the effect of raising the temperature.

Description

Steam of flash distillation carries temperature pressure boost structure

Technical Field

The utility model belongs to the technical field of flash distillation pressure boost structure technique and specifically relates to a steam of flash distillation carries temperature pressure boost structure is related to.

Background

The principle of flash evaporation is that after high-pressure saturated liquid enters a lower-pressure container, the saturated liquid becomes saturated steam and saturated liquid under the pressure of a part of container due to sudden reduction of pressure, the tightness of a pressurizing structure is poor, the pressurizing effect is not strong, and an air outlet pipe in the pressurizing structure is generally in a two-way communication design, so that external air pressure is easily caused to enter the pressurizing structure, and the temperature raising effect is seriously influenced.

SUMMERY OF THE UTILITY MODEL

The utility model discloses adopt following technical scheme to realize according to above-mentioned problem: a flash evaporation steam temperature raising and pressure increasing structure comprises a pressure increasing cavity, a hydraulic part and an air outlet pipe, wherein the hydraulic part is arranged above the inner part of the pressure increasing cavity, and the air outlet pipe is inserted in the center of the bottom of the inner surface of the pressure increasing cavity and communicated with the pressure increasing cavity;

the hydraulic part comprises a pressurizing cover, a transverse plate, a main shaft, side shafts and a top plate, the pressurizing cover is fixed at the center of the bottom surface of the hydraulic part through screws, the transverse plate is horizontally fixed above the hydraulic part, the main shaft and the side shafts are vertically welded above the transverse plate, the side shafts are provided with two spring rods which are parallel to the left side and the right side of the main shaft respectively, the top plate is horizontally welded above the main shaft and the side shafts, the hydraulic shafts are vertically fixed at the edges of the left side and the right side of the lower surface of the top plate, the tail ends of the two hydraulic shafts are welded with the spring rods which are integrated with the hydraulic shafts through forge welding, and the bottom surfaces of the two spring rods are respectively welded and;

a through hole communicated with the pressurizing cavity is formed in the center above the pressurizing cavity, sealing assemblies are arranged on the left side and the right side of the inner wall of the through hole, the upper surface and the lower surface of each sealing assembly are welded with sealing strips integrated with the sealing assembly, five springs which are vertically and equidistantly arranged are fixed at the joint of each sealing assembly and the inner wall of the through hole, and the sealing assemblies are elastically connected with the inner wall of the through hole through the springs;

the outlet duct is including being located the overhead gage of its inner wall upper and lower below and baffle down respectively, just overhead gage and baffle down all rotate with the department of meeting of outlet duct inner wall and be connected with the pivot, overhead gage right side downside and baffle left side upper left side down all set up flutedly, just in the recess in the baffle is gone into down to the overhead gage left side downside card, in the recess in the overhead gage is gone into to baffle upper right side card down, just the side all is fixed with the dog that is on a parallel with the overhead gage and baffle down about the outlet duct inner wall.

Furthermore, the air outlet pipe is sealed by the upper baffle and the lower baffle, and the pressurizing cover is parallel to the upper part of the top pipe orifice of the air outlet pipe.

Further, the diaphragm runs through in the opening from last to down, and two the one side that sealing assembly kept away from the opening inner wall contacts with the diaphragm left and right sides respectively, two side shaft outer wall all with the diaphragm about on two outer walls be in same vertical horizontal line, just the hydraulic pressure piece is on a parallel with the opening below, the hydraulic pressure piece width is greater than the opening width.

Further, the pressure boost chamber includes vertical scroll, spring shaft and pole setting, just vertical scroll, spring shaft and pole setting all are equipped with two, two the vertical scroll bottom surface welds respectively in pressure boost intracavity surface bottom and is on a parallel with the mouth of pipe left and right sides in outlet duct top, and two the spring shaft welds respectively in two the vertical scroll top, two the pole setting is fixed in respectively in the spring shaft top, just pole setting top surface and the contact of hydraulic pressure spare bottom surface left and right sides, two the pole setting is on a parallel with the pressure boost cover left and right sides respectively, and the inside interior pole that all embeds of two pole settings.

Further, the height of the vertical shaft is larger than the height of the air outlet pipe penetrating through the inside of the pressurizing cavity.

Furthermore, steam pipes which are communicated with the inside of the pressurizing cavity and are parallel to the left side and the right side of the hydraulic part are inserted above the left side and the right side of the pressurizing cavity.

The utility model provides a steam of flash distillation carries temperature pressure boost structure, has following beneficial effect:

when the transverse plate slides downwards from the through hole, the two side shafts can slowly penetrate through the through hole and contact with the surface of the sealing assembly, so that the airtightness in the pressurizing cavity can be continuously kept, gaps between the sealing assembly and the through hole can be filled up through the seal, and the sealing performance of the sealing assembly is further enhanced;

in atmospheric pressure got into the outlet duct, overhead gage and lower baffle would rotate to the right-hand member of outlet duct through the pivot, make the outlet duct opened, make things convenient for atmospheric pressure to discharge, and when outside atmospheric pressure got into in the outlet duct, overhead gage and lower baffle rotated to the outlet duct left end through the pivot, utilize two dogs to play and block two baffles to left side pivoted effect, avoid two baffles to open the outlet duct, like this alright realize one-way communicating with each other, avoid outside atmospheric pressure to get into the pressure boost intracavity influence effect of raising the temperature.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is an enlarged view of the partial structure of the outlet tube A of the present invention;

fig. 3 is an enlarged schematic view of a partial structure of the sealing assembly B of the present invention.

The labels in the figure are: 1-a pressurizing cavity; 101-steam pipe; 102-a vertical shaft; 103-spring shaft; 104-upright stanchion; 105-an inner rod; 106-port; 2-air outlet pipe; 201-upper baffle; 202-lower baffle; 203-grooves; 204-a rotating shaft; 205-a stop block; 3-hydraulic part; 301-a plenum cage; 302-a transverse plate; 303-a main shaft; a 304-side shaft; 305-a top plate; 306-hydraulic shaft; 307-spring rods; 4-a sealing assembly; 401-seal; 402-spring.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention will be described in detail with reference to the accompanying drawings and specific embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

As shown in fig. 1-3, a steam temperature raising and pressurizing structure for flash evaporation, the utility model discloses adopt following technical scheme to realize according to above-mentioned problem: a flash evaporation steam temperature raising and pressurizing structure comprises a pressurizing cavity 1, a hydraulic part 3 and an air outlet pipe 2, wherein the hydraulic part 3 is arranged above the inner part of the pressurizing cavity 1, the air outlet pipe 2 is inserted in the center of the bottom of the inner surface of the pressurizing cavity 1 and communicated with the center, and steam pipes 101 which are communicated with the inner part of the pressurizing cavity 1 and are parallel to the left side and the right side of the hydraulic part 3 are inserted above the left side and the right side of the pressurizing cavity 1;

specifically, a user connects two steam pipes 101 with a steam source, the user can conveniently apply pressure to the pressurizing cavity 1 through the hydraulic part 3, and the pressurized air pressure can be transmitted to the flash evaporation equipment through the air outlet pipe 2;

the hydraulic part 3 comprises a pressurizing cover 301, a transverse plate 302, a main shaft 303, a side shaft 304 and a top plate 305, the pressurizing cover 301 is fixed at the center of the bottom surface of the hydraulic part 3 through screws, the transverse plate 302 is horizontally fixed above the hydraulic part 3, the main shaft 303 and the side shaft 304 are both vertically welded above the transverse plate 302, the side shaft 304 is provided with two spring rods 307 which are respectively parallel to the left side and the right side of the main shaft 303, the top plate 305 is horizontally welded above the main shaft 303 and the side shaft 304, the hydraulic shafts 306 are vertically fixed at the edges of the left side and the right side of the lower surface of the top plate 305, the tail ends of the two hydraulic shafts 306 are welded with spring rods 307 which are integrated with the two hydraulic shafts through forge welding, and the;

specifically, the user presses the whole top plate 305 downwards, the hydraulic shafts 306 on the left side and the right side below the top plate 305 are pressed downwards under the action of pressure, the spring rods 307 in the hydraulic shafts 306 can increase the resilience of the hydraulic shafts 306 to enhance the hydraulic effect, and as the top plate 305 and the hydraulic shafts 306 are pressed downwards, the main shaft 303 and the side shafts 304 in the hydraulic shafts are slowly moved downwards, so that the pressurizing cover 301 is also moved downwards, and a large air pressure is generated in the moving process;

the central position above the pressurizing cavity 1 is provided with a through hole 106 communicated with the pressurizing cavity, the left side and the right side of the inner wall of the through hole 106 are respectively provided with a sealing component 4, the upper surface and the lower surface of each sealing component 4 are respectively welded with a sealing strip 401 integrated with the sealing component, five springs 402 which are vertically arranged at equal intervals are fixed at the joint of each sealing component 4 and the inner wall of the through hole 106, the sealing components 4 are elastically connected with the inner wall of the through hole 106 through the springs 402, the transverse plate 302 penetrates through the through hole 106 from top to bottom, one surfaces of the two sealing components 4, far away from the inner wall of the through hole 106, are respectively contacted with the left side and the right side of the transverse plate 302, the outer walls of the two side shafts 304 and the outer walls of the left side and the;

specifically, since the transverse plate 302 penetrates through the through opening 106 from top to bottom, the transverse plate 302 will slide into the pressure chamber 1 from the through opening 106 when the user presses the top plate 305 downward, and the sealing assembly 4 on both sides of the inner wall of the through opening 106 can increase the sealing performance between the transverse plate 302 and the through opening 106, thereby preventing the external air from entering or leaking, and being beneficial to enhancing the pressure effect, while the outer walls of the two side shafts 304 and the left and right sides of the transverse plate 302 are on the same vertical horizontal line, so when the transverse plate 302 slides downward from the through opening 106, the two side shafts 304 will slowly pass through the through opening 106 and contact with the surface of the sealing assembly 4, thereby continuously maintaining the sealing performance inside the pressure chamber 1, and the elastic space between the sealing assembly 4 and the inner wall of the through opening 106 can be enhanced by the spring 402, thereby facilitating the up and down hydraulic operation of the user, and the gaps between the sealing assembly 4 and the through opening 106 can be filled up and down by the, further enhancing the sealing performance of the seal assembly 4;

the pressurizing cavity 1 comprises a vertical shaft 102, a spring 402 shaft 103 and upright posts 104, the vertical shaft 102, the spring 402 shaft 103 and the upright posts 104 are respectively provided with two numbers, the bottom surfaces of the two vertical shafts 102 are respectively welded at the bottom of the inner surface of the pressurizing cavity 1 and are parallel to the left side and the right side of a pipe orifice at the top of the gas outlet pipe 2, the two spring 402 shafts 103 are respectively and vertically welded above the two vertical shafts 102, the two upright posts 104 are respectively fixed above the spring 402 shaft 103, the top surfaces of the upright posts 104 are in contact with the left side and the right side of the bottom surface of the hydraulic part 3, the two upright posts 104 are respectively parallel to the left side and the right side of the pressurizing cover 301, an inner;

specifically, when the transverse plate 302 slides from the through opening 106, the hydraulic part 3 and the pressurizing cover 301 are pressed vertically downwards, the vertical rods 104 are shortened slowly through the inner rods 105 in the two vertical rods 104, the distance between the pressurizing cover 301 and the air outlet pipe 2 is shortened slowly, the resilience of the hydraulic part 3 in the hydraulic process can be enhanced through the spring 402 shaft 103 and the vertical shaft 102, and meanwhile, the function of assisting the hydraulic part 3 in working is achieved, because the height of the vertical shaft 102 is larger than the height of the air outlet pipe 2 penetrating through the pressurizing cavity 1, the hydraulic part 3 is still parallel to the air outlet pipe 2 up and down when being pressed to the bottom, and therefore, the phenomenon that the orifice of the air outlet pipe 2 is sealed by the hydraulic part 3 can be avoided;

the outlet pipe 2 comprises an upper baffle 201 and a lower baffle 202 which are respectively positioned above and below the inner wall of the outlet pipe 2, the joints of the upper baffle 201 and the lower baffle 202 with the inner wall of the outlet pipe 2 are rotatably connected with a rotating shaft 204, the right lower side of the upper baffle 201 and the left upper side of the lower baffle 202 are respectively provided with a groove 203, the left lower side of the upper baffle 201 is clamped into the groove 203 in the lower baffle 202, the right upper side of the lower baffle 202 is clamped into the groove 203 in the upper baffle 201, the upper side and the lower side of the inner wall of the outlet pipe 2 are respectively fixed with a stop block 205 which is parallel to the left sides of the upper baffle 201 and the lower baffle 202, the outlet pipe 2 is sealed by the upper baffle 201 and the lower baffle 202, and the pressurizing cover 301;

specifically, as the pressurizing cover 301 is slowly close to the orifice of the outlet pipe 2, the air pressure generated in the hydraulic process is uniformly brought into the outlet pipe 2, and is sent out through the outlet pipe 2, the air pressure enters the outlet pipe 2, under the impact force of the air pressure, the upper baffle 201 and the lower baffle 202 rotate towards the right end of the outlet pipe 2 through the rotating shaft 204, so that the outlet pipe 2 is opened, the air pressure is conveniently discharged, when the air pressure outside the outlet pipe 2 enters the outlet pipe 2, the upper baffle 201 and the lower baffle 202 rotate towards the left end of the outlet pipe 2 through the rotating shaft 204, the two baffles 205 parallel to the left side of the upper baffle 201 and the lower baffle 202 can be used for blocking the rotation towards the left side, the outlet pipe 2 is prevented from being opened by the two baffles, one-way communication can be realized, and the effect of temperature raising is avoided that the external air pressure enters the pressurizing cavity 1.

It should be understood that any modification, equivalent replacement, and improvement made within the spirit and principles of the present invention should be included within the scope of the present invention.

Claims

1. The utility model provides a steam of flash distillation carries temperature pressure boost structure, includes pressure boost chamber (1), hydraulic pressure spare (3) and outlet duct (2), its characterized in that: the hydraulic part (3) is arranged above the inside of the pressurizing cavity (1), and the gas outlet pipe (2) is inserted in the center of the bottom of the inner surface of the pressurizing cavity (1) and communicated with the pressurizing cavity;

the hydraulic part (3) comprises a pressurizing cover (301), a transverse plate (302), a main shaft (303), a side shaft (304) and a top plate (305), the pressurizing cover (301) is fixed at the center of the bottom surface of the hydraulic part (3) through screws, the transverse plate (302) is horizontally fixed above the hydraulic part (3), and the main shaft (303) and the side shaft (304) are vertically welded above the transverse plate (302), the side shafts (304) are provided with two side shafts which are respectively parallel to the left side and the right side of the main shaft (303), and the top plate (305) is horizontally welded above the main shaft (303) and the side shaft (304), hydraulic shafts (306) are vertically fixed on the edges of the left side and the right side of the lower surface of the top plate (305), spring rods (307) which are integrated with the hydraulic shafts (306) are welded at the tail ends of the two hydraulic shafts (306) through forge welding, and the bottom surfaces of the two spring rods (307) are respectively welded and fixed with the left side and the right side of the upper surface of the pressurizing cavity (1);

a through hole (106) communicated with the pressurizing cavity (1) is formed in the center of the upper portion of the pressurizing cavity (1), sealing assemblies (4) are arranged on the left side and the right side of the inner wall of the through hole (106), sealing strips (401) which are integrated with the sealing assemblies (4) are welded on the upper surface and the lower surface of the sealing assemblies (4), five springs (402) which are vertically and equidistantly arranged are fixed at the joint of the sealing assemblies (4) and the inner wall of the through hole (106), and the sealing assemblies (4) are elastically connected with the inner wall of the through hole (106) through the springs (402);

outlet duct (2) are including being located upper shield (201) and lower baffle (202) of below on its inner wall respectively, just upper shield (201) and lower baffle (202) all rotate with outlet duct (2) inner wall department of meeting and be connected with pivot (204), upper shield (201) right side downside and baffle (202) upper left side down all set up fluted (203), just in recess (203) in baffle (202) down are gone into to upper shield (201) left downside card, in baffle (202) upper right side card goes into recess (203) in upper shield (201) down, just the side all is fixed with and is on a parallel with upper shield (201) and baffle (202) left dog (205) down about outlet duct (2) inner wall.

2. A flashed steam temperature and pressure increasing structure according to claim 1, wherein: the air outlet pipe (2) is sealed by the upper baffle (201) and the lower baffle (202), and the pressurizing cover (301) is parallel to the upper part of the top pipe orifice of the air outlet pipe (2).

3. A flashed steam temperature and pressure increasing structure according to claim 1, wherein: diaphragm (302) is from last to running through in port (106) down, and two the one side that port (106) inner wall was kept away from in seal assembly (4) contacts with diaphragm (302) left and right sides respectively, two side shaft (304) outer wall all with diaphragm (302) about two outer walls be in on the same vertical horizontal line, just hydraulic pressure spare (3) are on a parallel with port (106) below, hydraulic pressure spare (3) width is greater than port (106) width.

4. A flashed steam temperature and pressure increasing structure according to claim 1, wherein: the booster cavity (1) comprises a vertical shaft (102), a spring shaft (103) and a vertical rod (104), the vertical shaft (102), the spring shaft (103) and the vertical rod (104) are respectively provided with two vertical shafts (102), two vertical shafts (102) and two vertical rods (104), the bottom surfaces of the vertical shafts are respectively welded to the bottom of the inner surface of the booster cavity (1) and are parallel to the left side and the right side of a pipe orifice at the top of an air outlet pipe (2), the spring shafts (103) are respectively and vertically welded to the two vertical shafts (102) and the two vertical rods (104) are respectively fixed above the spring shaft (103), the top surfaces of the vertical rods (104) are in contact with the left side and the right side of the bottom surface of a hydraulic part (3), the vertical rods (104) are respectively parallel to the left side and the right side.

5. A flash steam temperature and pressure raising structure according to claim 4, wherein: the height of the vertical shaft (102) is larger than the height of the air outlet pipe (2) penetrating through the inside of the pressurizing cavity (1).

6. A flashed steam temperature and pressure increasing structure according to claim 1, wherein: steam pipes (101) which are communicated with the inside of the pressurizing cavity (1) and are parallel to the left side and the right side of the hydraulic part (3) are inserted above the left side and the right side of the pressurizing cavity (1).