CN210393790U - Intelligent negative-pressure-free water-gas separation device - Google Patents

Abstract

The utility model belongs to the technical field of the water-gas separation technique and specifically relates to a no negative pressure aqueous vapor separator of intelligence, including aqueous vapor separation storehouse, the gaseous emission ware and the symmetry that lead to and connect aqueous vapor separation storehouse both ends lead to the inlet channel and the outlet conduit who connect in aqueous vapor separation storehouse lateral wall, the one end that the equipment shell was kept away from to discharging equipment leads to and has connected the delivery pipe, discharging equipment's inside is provided with arc guide plate and lower arc guide plate, it all leads to and connects in the mutual expert of discharging equipment and three to go up arc guide plate and lower arc guide plate's both ends, internal plant storehouse and last arc guide plate with down form the passageway between the arc guide plate and with the delivery pipe, equipment shell leads to and connects. The utility model discloses a pressure detector carries out real-time control and then is used for controlling miniature driving motor's positive and negative rotation with signal transmission to master controller with the inside atmospheric pressure of aqueous vapor separation storehouse, controls exhaust opening, and then realizes the effect that the intelligence does not have the separation of negative pressure aqueous vapor.

Description

Intelligent negative-pressure-free water-gas separation device

Technical Field

The utility model relates to a water-gas separation technical field especially relates to an intelligence does not have negative pressure water-gas separation device.

Background

With the continuous deepening of the thick oil exploitation in China, the method of injecting steam by using a conventional boiler (so% steam dryness) cannot meet the increasing development requirement of a new thick oil exploitation technology, according to the latest overseas research results, the steam injected into the thick oil in the later period of high-frequency exploitation can effectively improve the recovery ratio, the steam dryness of the steam injected boiler in the actual operation of the boiler outlet of the steam injection boiler used at present is only about 75%, and the technological condition of the thick oil steam thermal exploitation cannot be met. In order to solve the problems, a high-efficiency small-sized separator with low investment is required to be searched for in an economical mode and in consideration of changes of operating conditions, the separation dryness of the small-sized separator is enabled to reach more than 95% effectively, the technical conditions of high-dryness steam injection are met, the steam-water separator is a pressure container structure carbon steel or stainless steel device, the interface type is a flange structure DN16/DN25/DN40, the steam-water separator needs to be installed on a horizontal pipeline, a water outlet is vertically downward, and the steam-water separators with all calibers are provided with installation supports to reduce pipeline bearing. In order to ensure the separated liquid to be discharged quickly, a proper set of drain valve combination is connected to a water outlet at the bottom of the steam-water separator, and the valve is generally horizontally arranged in a pipeline.

The water-gas separation device in the prior art often has certain negative pressure due to the particularity of the internal structure of the water-gas separation device, so that the air release phenomenon can be generated during separation, the safe use of equipment is not facilitated, meanwhile, the noise is high, and on the basis, an intelligent negative-pressure-free water-gas separation device is necessary to be designed to meet the requirements of people.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the defects existing in the prior art and providing an intelligent negative pressure-free water-gas separating device.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

an intelligent non-negative pressure water-gas separation device comprises a water-gas separation bin, gas dischargers communicated with two ends of the water-gas separation bin, a water inlet pipeline and a water outlet pipeline which are symmetrically communicated with the side wall of the water-gas separation bin, one end of the gas discharger, which is far away from the water-gas separation bin, is communicated with an equipment shell, one end of the equipment shell, which is far away from the gas discharger, is provided with a discharge device, one end of the discharge device far away from the device shell is communicated with a discharge pipe, an upper arc-shaped guide plate and a lower arc-shaped guide plate are arranged inside the discharge device, the two ends of the upper arc-shaped guide plate and the lower arc-shaped guide plate are communicated with the discharge equipment and the upper arc-shaped guide plate, the lower arc-shaped guide plate and the discharge equipment are communicated with each other, go up the arc guide plate and still be provided with the internal plant storehouse down between the arc guide plate, the internal plant storehouse forms the passageway and leads to with delivery pipe, equipment shell with last arc guide plate and down between the arc guide plate and connects.

Further, the inside miniature driving motor that is provided with of emission equipment, be provided with total controller on the miniature driving motor, miniature driving motor's output shaft end fixedly connected with driving-disc, the outer end circumference fixed distribution of driving-disc has the actuating lever, the one end fixed connection in the inner wall in internal plant storehouse of driving-disc is kept away from to the actuating lever.

Further, the inner wall equal circumference of going up arc guide plate and arc guide plate symmetry down is provided with the air discharge duct, the outer wall of internal plant storehouse all corresponds the air discharge duct circumference and is provided with the sealed piece that blocks water, the sealed piece that blocks water seals and sets up in the air discharge duct inner wall.

Furthermore, the inside confession battery, reserve confession battery, PLC control module and the overload protection module of being provided with of master controller, the inside in aqueous vapor separation storehouse is provided with the atmospheric pressure detector, PLC control module and atmospheric pressure detector and the equal mutual electric connection of overload protection module.

Furthermore, a reverse rotation module and a forward rotation module are further arranged on the master controller, and the reverse rotation module and the forward rotation module are both electrically connected to the micro driving motor.

Compared with the prior art, the utility model provides an intelligence does not have negative pressure aqueous vapor separator has following beneficial effect:

the utility model discloses will be used for not enough to add innovative improvement among the prior art, increase its actual result of use simultaneously.

The utility model discloses the one end that gas emission ware kept away from aqueous vapor separation storehouse leads to and has connect equipment shell, equipment shell keeps away from gas emission ware one end and is provided with discharging equipment, discharging equipment keeps away from equipment shell's one end expert and has connect the delivery pipe, discharging equipment's inside is provided with arc guide plate and lower arc guide plate, it all leads to and connects in discharging equipment and the mutual expert of three to go up arc guide plate and lower arc guide plate's both ends and connect, it still is provided with the internal plant storehouse to go up between arc guide plate and the lower arc guide plate, internal plant storehouse and last arc guide plate and form the passageway and with the delivery pipe down between the arc guide plate, equipment shell expert connects.

The utility model discloses a be provided with aqueous vapor separation storehouse, both ends at aqueous vapor separation storehouse all are provided with gas emission ware, through be provided with discharging equipment on gas emission ware, arc guide plate and lower arc guide plate are provided with in discharging equipment inside, still be provided with the internal device storehouse simultaneously, still be provided with miniature driving motor inside discharging equipment, miniature driving motor's model is 90YS40GV22, output shaft fixedly connected with driving-disc through at miniature driving motor, outer wall circumference fixedly connected with actuating lever at the driving-disc, the one end fixed connection in the internal device storehouse that the driving-disc was kept away from to the actuating lever, the outer wall in internal device storehouse is provided with the seal block that blocks water simultaneously, the seal block that blocks water is provided with the air discharge duct in the inner wall correspondence of last arc guide plate and lower arc guide plate, so design, thereby the drive through miniature driving motor will drive the positive and negative rotation that the internal device storehouse in the in actual use And then the size in control exhaust hole still is provided with total controller simultaneously on micro driving motor, certainly still is provided with the atmospheric pressure detector inside the water-gas separation storehouse, carries out real-time control and then with signal transmission to total controller and be used for controlling micro driving motor's positive and negative rotation with the inside atmospheric pressure of water-gas separation storehouse through the atmospheric pressure detector, control exhaust opening, and then realize the effect of the no negative pressure water-gas separation of intelligence.

Drawings

Fig. 1 is the utility model provides an intelligence does not have negative pressure water-gas separation device's schematic structure.

Fig. 2 is the utility model provides an intelligence does not have negative pressure water-gas separation device's schematic structure.

Fig. 3 is the utility model provides an intelligence does not have negative pressure water-gas separation device's schematic structure.

In the figure: 1 water-gas separation bin, 2 gas discharger, 3 water inlet pipeline, 4 water outlet pipeline, 5 equipment shell, 6 discharge equipment, 7 discharge pipe, 8 upper arc guide plate, 9 lower arc guide plate, 10 internal equipment bin, 11 micro driving motor, 12 master controller, 13 driving disk, 14 driving rod, 15 exhaust groove, 16 water-blocking sealing block, 17 battery supply, 18 standby battery supply, 19 PLC control module, 20 air pressure detector, 21 overload protection module, 22 reverse rotation module and 23 forward rotation module.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

Referring to fig. 1-3, an intelligent negative pressure-free water-gas separating device comprises a water-gas separating bin 1, gas dischargers 2 connected to two ends of the water-gas separating bin 1, and a water inlet pipe 3 and a water outlet pipe 4 symmetrically connected to a side wall of the water-gas separating bin 1, wherein one end of each gas discharger 2 away from the water-gas separating bin 1 is connected to an equipment housing 5, one end of each equipment housing 5 away from the gas dischargers 2 is provided with a discharge equipment 6, one end of each discharge equipment 6 away from the equipment housing 5 is connected to a discharge pipe 7, an upper arc-shaped guide plate 8 and a lower arc-shaped guide plate 9 are arranged inside the discharge equipment 6, two ends of each upper arc-shaped guide plate 8 and two ends of each lower arc-shaped guide plate 9 are connected to the discharge equipment 6, and are connected to each other, and an internal equipment bin 10 is further, and a channel is formed between the internal equipment bin 10 and the upper arc-shaped guide plate 8 and the lower arc-shaped guide plate 9 and is communicated with the discharge pipe 7 and the equipment shell 5.

The discharging equipment is characterized in that a micro driving motor 11 is arranged inside the discharging equipment 6, a master controller 12 is arranged on the micro driving motor 11, a driving disc 13 is fixedly connected to the output shaft end of the micro driving motor 11, a driving rod 14 is fixedly distributed on the circumference of the outer end of the driving disc 13, and one end, far away from the driving disc 13, of the driving rod 14 is fixedly connected to the inner wall of the internal equipment bin 10.

Go up the equal circumference of inner wall of arc guide plate 8 and lower arc guide plate 9 symmetry and be provided with exhaust duct 15, the outer wall of internal plant storehouse 10 all corresponds exhaust duct 15 circumference and is provided with the sealed piece 16 that blocks water, the sealed piece 16 that blocks water seals and sets up in exhaust duct 15 inner wall.

The inside confession battery 17, reserve confession battery 18, PLC control module 19 and the overload protection module 21 of being provided with of master controller 12, the inside of aqueous vapor separation storehouse 1 is provided with air pressure detector 20, PLC control module 19 and the equal electric connection each other of air pressure detector 20 and overload protection module 21.

The main controller 12 is further provided with a reverse rotation module 22 and a forward rotation module 23, and both the reverse rotation module 22 and the forward rotation module 23 are electrically connected to the micro driving motor 11.

In the utility model, when in use, the two ends of the water-gas separation bin 1 are both provided with the gas dischargers 2, the gas dischargers 2 are provided with the discharge equipment 6, the discharge equipment 6 is internally provided with the upper arc-shaped guide plate 8 and the lower arc-shaped guide plate 9, and is also provided with the internal equipment bin 10, the discharge equipment 6 is internally provided with the micro-drive motor 11, the micro-drive motor 11 is 90YS40GV22 in model, the output shaft of the micro-drive motor 11 is fixedly connected with the drive plate 13, the circumference of the outer wall of the drive plate 13 is fixedly connected with the drive rod 14, one end of the drive rod 14 far away from the drive plate 13 is fixedly connected with the internal equipment bin 10, the outer wall of the internal equipment bin 10 is provided with the water-blocking sealing block 16, the inner walls of the upper arc-shaped guide plate 8 and the, in actual use, the miniature driving motor 11 is driven to rotate positively and negatively to drive the internal equipment bin 10 to drive the water-blocking sealing block 16 to move positively and negatively in the exhaust duct 15, so as to control the size of the exhaust hole, meanwhile, the miniature driving motor 11 is also provided with the master controller 12, certainly, the air pressure detector 20 is also arranged in the water-gas separation bin 1, the air pressure in the water-gas separation bin 1 is monitored in real time through the air pressure detector 20, so that signals are transmitted to the master controller 12 to control the positive and negative rotation of the miniature driving motor 11, and an exhaust opening is controlled, so that the intelligent negative-pressure-free water-gas separation effect is realized.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. An intelligent negative-pressure-free water-gas separation device comprises a water-gas separation bin (1), gas dischargers (2) communicated with two ends of the water-gas separation bin (1), and a water inlet pipeline (3) and a water outlet pipeline (4) which are symmetrically communicated with the side wall of the water-gas separation bin (1), and is characterized in that one ends of the gas dischargers (2) far away from the water-gas separation bin (1) are communicated with an equipment shell (5), one ends of the equipment shell (5) far away from the gas dischargers (2) are provided with discharge equipment (6), one ends of the discharge equipment (6) far away from the equipment shell (5) are communicated with a discharge pipe (7), an upper arc-shaped guide plate (8) and a lower arc-shaped guide plate (9) are arranged inside the discharge equipment (6), two ends of the upper arc-shaped guide plate (8) and the lower arc-shaped guide plate (9) are communicated with the discharge, go up arc guide plate (8) and still be provided with internal device storehouse (10) down between arc guide plate (9), internal device storehouse (10) and last arc guide plate (8) and down form the passageway and lead to with delivery pipe (7), equipment shell (5) between arc guide plate (9) and connect.

2. The intelligent non-negative-pressure water-gas separation device is characterized in that a micro driving motor (11) is arranged inside the discharge device (6), a master controller (12) is arranged on the micro driving motor (11), a driving disc (13) is fixedly connected to the output shaft end of the micro driving motor (11), driving rods (14) are fixedly distributed on the circumference of the outer end of the driving disc (13), and one end, far away from the driving disc (13), of each driving rod (14) is fixedly connected to the inner wall of the internal device bin (10).

3. The intelligent non-negative-pressure water-gas separation device as claimed in claim 1, wherein the symmetrical inner walls of the upper arc-shaped guide plate (8) and the lower arc-shaped guide plate (9) are provided with air discharge grooves (15) on the circumference, the outer wall of the internal equipment bin (10) is provided with water-blocking sealing blocks (16) corresponding to the circumference of the air discharge grooves (15), and the water-blocking sealing blocks (16) are hermetically arranged on the inner walls of the air discharge grooves (15).

4. The intelligent non-negative-pressure water-gas separation device according to claim 2, wherein a battery (17), a standby battery (18), a PLC control module (19) and an overload protection module (21) are arranged inside the master controller (12), an air pressure detector (20) is arranged inside the water-gas separation bin (1), and the PLC control module (19), the air pressure detector (20) and the overload protection module (21) are electrically connected with each other.

5. The intelligent non-negative-pressure water-gas separation device as claimed in claim 2, wherein the master controller (12) is further provided with a reverse rotation module (22) and a forward rotation module (23), and both the reverse rotation module (22) and the forward rotation module (23) are electrically connected to the micro drive motor (11).

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