CN213725307U - Novel gas-water separation device - Google Patents

Abstract

The utility model relates to a novel gas-water separation device. The technical scheme who adopts, including casing, the end cover of ventilating, water catch bowl, automatic drain valve, vortex subassembly. The utility model discloses a worm wheel assembly's unique design can make the air current of getting into form the vortex fast to the flabellum that drives the lower part rotates, thereby interact makes the air current can form the vortex more easily under rotatory flabellum drives, thereby makes liquid drop centrifugal separation's effect better, utilizes the automatic drain valve that has two floater cooperations to control the flowing back simultaneously, makes just set up the flowing back after the condensed liquid can gather an amount, and the flowing back can both be with the whole discharges of liquid at every turn. The device has compact integral structure and good separation effect on liquid drops, can realize automatic discharge and thorough discharge of collected liquid, and does not have residual liquid which cannot be discharged.

Description

Novel gas-water separation device

Technical Field

The utility model belongs to the gas-water separation equipment field relates to a novel gas-water separation device.

Background

The gas-water separation equipment is mainly used for separating gas and liquid in an industrial liquid-containing pressure system, so that the drying degree of steam is improved, the phenomenon that the steam carries water is reduced, the water removal efficiency is high, and the volume is small. The commonly used gas-water separator includes tubular separator, louver type separator, cyclone separator, etc. The separator has a structure in which the incoming air flow forms a vortex rotating at a high speed by using an internal structure, so that the liquid is separated from the separator adhered to the housing by using the generated centrifugal force, the effect of separating the liquid is influenced by the effect of forming the vortex, the separation effect is to be further improved, and the liquid cannot be completely discharged by using a liquid discharge valve used in liquid discharge of most separators, so that the liquid discharge effect is poor.

SUMMERY OF THE UTILITY MODEL

In view of the problem that exists among the prior art, the utility model discloses a novel gas-water separation device, the technical scheme of adoption is, which comprises a housin, the spout has been seted up to the casing side, sliding fit installs the buckle slider in the spout, the casing middle part has been seted up circular through-hole and its upper end screw-thread fit seal installs the end cover of ventilating, end cover bottom surface center department of ventilating installs the vortex subassembly through screw-thread fit seal, screw-thread fit seal installs the water catch bowl under the casing, the water catch bowl wholly is located in the casing and with the shells inner wall laminating, the water catch bowl bottom is seted up screw hole and wherein screw-thread fit seal installs automatic drain valve.

As an optimized scheme of the utility model, air outlet channel, inlet channel have been seted up in the end cover of ventilating, air outlet channel one end export is seted up a side of end cover of ventilating, and other end export is seted up the bottom surface center department of end cover of ventilating and wherein screw-thread fit seal installation the vortex subassembly, inlet channel's one end export is seted up the another side of end cover of ventilating, and other end export is seted up the bottom surface of end cover of ventilating just is located air outlet channel's side, on the bottom surface of end cover of ventilating with the buckle slider corresponds position department and has seted up positioning channel groove, the buckle slider is pegged graft in positioning channel groove.

As an optimized scheme of the utility model, automatic drain valve includes the outlet pipe, the upper portion of outlet pipe circumference wall is for seting up screwed threaded connection section, threaded connection section screw-thread fit is connected in the bottom screw hole of water catch bowl, the spacing seat of outlet pipe upper end fixedly connected with, the intake chamber has been seted up to spacing seat cavity and on it, place in the spacing inner chamber and seal the floater, it is located to seal the floater the mouth of pipe department of outlet pipe, spacing seat upper portion central point puts fixedly connected with direction slide bar, it has cup jointed the traction floater to slide on the direction slide bar, pull four haulage ropes of equidistant fixedly connected with in floater lower part, the lower extreme fixed connection of haulage rope is in seal on the floater.

As an optimized scheme of the utility model, it includes the hemisphere to seal the floater, hemisphere upper portion fixed connection clamp plate, the hemisphere shutoff is in the hemisphere groove of outlet pipe upper end, the clamp plate laminating is in on the spacing seat bottom surface.

As a preferred scheme of the utility model, the vortex subassembly includes the breather pipe, the gas outlet has been seted up for seting up screwed thread end and its tip in the breather pipe upper end, screw thread end screw-thread fit is connected in the air outlet channel, the gas outlet with air outlet channel intercommunication, be in on the breather pipe the fixedly connected with cover body in screw thread end lower part, the last sealed end diameter of the cover body is little, and lower open end diameter is big, equidistant fixedly connected with vortex plate on the wall of cover body upper end circumference, the vortex plate is located under the export of air inlet channel lower extreme, the air inlet has been seted up at breather pipe circumference wall middle part, the rotor plate is installed to breather pipe lower extreme normal running fit, the rotor plate lower part is the circular equidistant fixedly connected with flabellum of arranging.

The utility model has the advantages that: the utility model discloses a worm wheel assembly's unique design can make the air current of getting into form the vortex fast to the flabellum that drives the lower part rotates, thereby interact makes the air current can form the vortex more easily under rotatory flabellum drives, thereby makes liquid drop centrifugal separation's effect better, utilizes the automatic drain valve that has two floater cooperations to control the flowing back simultaneously, makes just set up the flowing back after the condensed liquid can gather an amount, and the flowing back can both be with the whole discharges of liquid at every turn. The device has compact integral structure and good separation effect on liquid drops, can realize automatic discharge and thorough discharge of collected liquid, and does not have residual liquid which cannot be discharged.

Drawings

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

FIG. 2 is a schematic half-sectional view of the present invention;

FIG. 3 is a schematic view of the structure of the venting end cap of the present invention;

fig. 4 is a sectional view of the automatic drain valve structure of the present invention;

fig. 5 is a sectional view of the vortex assembly structure of the present invention.

In the figure: 1-shell, 101-chute, 102-buckle slide block, 2-ventilation end cover, 201-air outlet channel, 202-air inlet channel, 203-positioning clamping groove, 3-water collecting tank, 4-automatic drain valve, 401-water outlet pipe, 402-sealing floating ball, 4021-hemisphere, 4022-pressing plate, 403-traction floating ball, 404-guiding slide bar, 405-limiting seat, 406-water inlet channel, 407-traction rope, 408-threaded connection section, 5-vortex component, 501-air outlet, 502-vortex plate, 503-air inlet, 504-cover body, 505-rotating plate, 506-fan blade, 507-ventilation pipe, 508-threaded end.

Detailed Description

Example 1

As shown in fig. 1 to 5, a novel gas-water separation device, the technical scheme of adoption is, including casing 1, spout 101 has been seted up to 1 side of casing, sliding fit installs buckle slider 102 in the spout 101, 1 middle part of casing has been seted up circular through-hole and its upper end screw-thread fit seal and has been installed end cover 2 of ventilating, 2 bottom surface centers department of end cover of ventilating has vortex subassembly 5 through screw-thread fit seal installation, 1 lower extreme screw-thread fit seal of casing installs water catch bowl 3, water catch bowl 3 wholly is located in casing 1 and with the laminating of 1 inner wall of casing, 3 bottoms of water catch bowl are seted up threaded hole and wherein screw-thread fit seal installs automatic drain valve 4.

An outlet channel 201 and an inlet channel 202 are arranged in the ventilation end cover 2, an outlet at one end of the outlet channel 201 is arranged on one side surface of the ventilation end cover 2, an outlet at the other end of the outlet channel is arranged at the center of the bottom surface of the ventilation end cover 2, the vortex component 5 is installed in a threaded fit and sealing manner, an outlet at one end of the inlet channel 202 is arranged on the other side surface of the ventilation end cover 2, an outlet at the other end of the inlet channel 202 is arranged on the bottom surface of the ventilation end cover 2 and is positioned at the side edge of the outlet channel 201, a positioning clamping groove 203 is arranged on the bottom surface of the ventilation end cover 2 corresponding to the buckle sliding block 102, and the buckle sliding block 102 is inserted into the positioning clamping groove 203.

Automatic drain valve 4 includes outlet pipe 401, the upper portion of outlet pipe 401 circumference wall is for seting up threaded connection section 408, threaded connection section 408 screw-thread fit connects in the bottom screw hole of water catch bowl 3, outlet pipe 401 upper end fixedly connected with spacing seat 405, spacing seat 405 cavity has seted up the intake chamber 406 on it, place in the spacing seat 405 inner chamber and seal floater 402, it is located to seal floater 402 the mouth of pipe department of outlet pipe 401, spacing seat 405 upper portion central point puts fixedly connected with direction slide bar 404, it pulls floater 403 to slide to cup joint on the direction slide bar 404, pull four haulage ropes 407 of equidistant fixedly connected with in floater 403 lower part, the lower extreme fixed connection of haulage rope 407 is in seal on the floater 402.

The sealing floating ball 402 comprises a hemisphere 4021, the upper part of the hemisphere 4021 is fixedly connected with a pressure plate 4022, the hemisphere 4021 is plugged in a hemispherical groove in the upper end of the water outlet pipe 401, and the pressure plate 4022 is attached to the bottom surface of the limiting seat 405.

Vortex subassembly 5 includes breather pipe 507, gas outlet 501 has been seted up for seting up screwed thread end 508 and its tip in breather pipe 507, screw thread end 508 screw-thread fit is connected in the air outlet channel 201, gas outlet 501 with air outlet channel 201 intercommunication, on breather pipe 507 screw thread end 508 lower part fixedly connected with covers body 504, the last sealed end diameter of the cover body 504 is little, and lower opening end diameter is big, cover body 504 upper end circumference wall equidistant fixedly connected with vortex plate 502, vortex plate 502 is located under the export of air inlet channel 202 lower extreme, air inlet 503 has been seted up at breather pipe 507 circumference wall middle part, breather pipe 507 lower extreme normal running fit installs rotor plate 505, rotor plate 505 lower part is circular equidistant fixedly connected with flabellum 506 of arranging.

The utility model discloses a theory of operation: connecting a ventilation pipeline to the air inlet channel 202 and the air outlet channel 201, so that the air enters the housing 1 from the air inlet channel 202, the air flow forms a vortex to rotate and descend around the periphery of the cover body 504 under the action of the vortex plate 502, the gap between the cover body 504 and the housing 1 is gradually narrowed from top to bottom, so that the flow rate of the passing air flow is gradually increased, the condensed liquid in the air flow in the rotating and descending process is thrown onto the inner wall of the housing 1 under the action of centrifugal force and flows downwards along the inner wall to enter the water collecting tank 3, the air flow finally enters the interior of the cover body 504 from the lower end of the cover body 504 and drives the fan blades 506 and the rotating plate 505 to rotate, the vortex forming effect of the subsequent air flow is enhanced by the rotation of the fan blades 506, the air flow of which is centrifugally separated into the air pipe 507 through the air inlet 503 and is discharged into the air outlet channel 201 through the air outlet 501, and is finally discharged, and the liquid flowing into the water collecting tank 3 from the inner wall, because the pressing plate 4022 is attached to the bottom surface of the limiting seat 405, the inflowing liquid is gathered on the upper surface of the pressing plate 4022, the sealing floating ball 402 is integrally pressed at the pipe orifice of the water outlet pipe 401 to achieve a sealing effect, the traction floating ball 403 floats under the buoyancy effect along with the increase of the liquid, so that the traction rope 407 is gradually straightened and the sealing floating ball 402 is finally pulled up through the traction rope 407, the pipe orifice of the water outlet pipe 401 is opened to enable the liquid to flow out, the floating ball 403 is finally pulled back to the original position along with the outflow of the liquid, the sealing floating ball 402 is always in a floating state when the liquid is not completely discharged until the sealing floating ball 402 falls back to the original position to plug the pipe orifice of the water outlet pipe 401 again after the liquid is completely discharged, the liquid cannot be discharged at the initial stage of liquid gathering, the liquid starts to be discharged after a certain amount is reached, the liquid can be sealed again after the liquid is completely discharged, and the liquid is prevented from remaining. When the device needs to be cleaned or maintained regularly, the buckle sliding block 102 can slide downwards to enable the buckle sliding block to be separated from the positioning clamping groove 203, so that the ventilation end cover 2 and the vortex assembly 5 can be taken out, the water collecting tank 3 and the automatic water discharge valve 4 can also be rotated and screwed off, and each component is cleaned and maintained conveniently.

Components not described in detail herein are prior art.

Although the present invention has been described in detail with reference to the specific embodiments, the present invention is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present invention within the knowledge range of those skilled in the art, and modifications or variations without creative efforts are still within the scope of the present invention.

Claims (5)

1. The utility model provides a novel gas-water separation device, a serial communication port, including casing (1), spout (101) have been seted up to casing (1) side, sliding fit installs buckle slider (102) in spout (101), casing (1) middle part has been seted up circular through-hole and its upper end screw-thread fit seal installs end cover (2) of ventilating, end cover (2) bottom surface center department of ventilating installs vortex subassembly (5) through screw-thread fit seal, screw-thread fit seal installs water catch bowl (3) under casing (1), water catch bowl (3) wholly are located in casing (1) and with casing (1) inner wall laminating, water catch bowl (3) bottom is seted up threaded hole and wherein screw-thread fit seal installs automatic drain valve (4).

2. The novel gas-water separation device of claim 1, which is characterized in that: an air outlet channel (201) and an air inlet channel (202) are arranged in the ventilation end cover (2), an outlet at one end of the air outlet channel (201) is arranged on one side face of the ventilation end cover (2), an outlet at the other end of the air outlet channel is arranged at the center of the bottom face of the ventilation end cover (2), the vortex assembly (5) is installed in a sealing mode in a threaded fit mode, an outlet at one end of the air inlet channel (202) is arranged on the other side face of the ventilation end cover (2), an outlet at the other end of the air inlet channel is arranged on the bottom face of the ventilation end cover (2) and located on the side edge of the air outlet channel (201), a positioning clamping groove (203) is formed in the position, corresponding to the buckle sliding block (102), of the bottom face of the ventilation end cover (2), and the buckle sliding block (102) is inserted into the positioning clamping groove (203).

3. The novel gas-water separation device of claim 1, which is characterized in that: the automatic drain valve (4) comprises a water outlet pipe (401), the upper part of the circumferential wall of the water outlet pipe (401) is a threaded connection section (408) provided with threads, the threaded connecting section (408) is in threaded fit connection with a threaded hole at the bottom of the water collecting tank (3), the upper end of the water outlet pipe (401) is fixedly connected with a limiting seat (405), the limiting seat (405) is hollow and is provided with a water inlet groove (406), a sealing floating ball (402) is arranged in the inner cavity of the limiting seat (405), the sealing floating ball (402) is positioned at the pipe orifice of the water outlet pipe (401), a guide sliding rod (404) is fixedly connected at the central position of the upper part of the limit seat (405), a traction floating ball (403) is sleeved on the guide sliding rod (404) in a sliding manner, four traction ropes (407) are fixedly connected to the lower part of the traction floating ball (403) at equal intervals, the lower end of the hauling rope (407) is fixedly connected to the sealing floating ball (402).

4. The novel gas-water separation device of claim 3, which is characterized in that: the sealing floating ball (402) comprises a hemisphere (4021), the upper part of the hemisphere (4021) is fixedly connected with a pressure plate (4022), the hemisphere (4021) is plugged in a hemispherical groove in the upper end of the water outlet pipe (401), and the pressure plate (4022) is attached to the bottom surface of the limiting seat (405).

5. The novel gas-water separation device of claim 2, which is characterized in that: vortex subassembly (5) includes breather pipe (507), breather pipe (507) upper end has seted up gas outlet (501) for seting up screwed thread end (508) and its tip, screw thread end (508) screw-thread fit is connected in air outlet channel (201), gas outlet (501) with air outlet channel (201) intercommunication, breather pipe (507) go up screw thread end (508) lower part fixedly connected with cover body (504), the last sealed end diameter of cover body (504) is little, and lower open end diameter is big, equidistant fixedly connected with vortex plate (502) on the cover body (504) upper end circumferential wall, vortex plate (502) are located under inlet channel (202) lower extreme export, air inlet circumferential wall (503) have been seted up at breather pipe (507) middle part, rotor plate (505) are installed to breather pipe (507) lower extreme normal running fit, the lower part of the rotating plate (505) is circularly arranged and is fixedly connected with fan blades (506) at equal intervals.

Images