CN110468911B - Gas lift lifts and lifts formula of lifting and synthesizes recharging system - Google Patents

Abstract

The invention discloses a gas lift and lift type comprehensive recharging system, which comprises a valve body, a water inlet valve, a tee joint, a recharging well and a water discharge valve, wherein the recharging well is provided with a sealing well cover; the tee joint is T-shaped, the lower port of the tee joint is connected with a sewer pipe and is communicated with the interior of the recharging well, and the sewer pipe is connected with a water-steam mixer positioned in the recharging well; the valve body is provided with an adjusting valve, the water outlet end of the valve body is connected with a water inlet valve, the water inlet valve is connected with one side interface of the tee joint, and the other side interface of the tee joint is connected with a water discharge valve; the sealing well cover is penetrated with a gas pipe, the upper end of the gas pipe is connected with a pneumatic valve, and the lower end of the gas pipe is communicated with the side wall of the lower part of the water-steam mixer; and a ball float valve is arranged in the recharging well and is communicated with the valve body through a ball float pipeline. The invention can integrate normal pressure and pressurized recharging mode and lifting cleaning mode in the sub recharging into a set of comprehensive pipeline system for control, the equipment is easy to operate and maintain, the whole system adopts mechanical control, and the fault is low.

Description

Gas lift lifts and lifts formula of lifting and synthesizes recharging system

Technical Field

The invention relates to a recharging system for a building construction site, in particular to a gas lift type lifting type comprehensive recharging system.

Background

At present, the recharging system has single model selection, and normal pressure equipment, pressurizing equipment and lifting equipment are independently operated, so that a complete integrated recharging control system is not formed. Multiple cannula systems are required for recharging and cleaning back up. The back-lifting cleaning equipment is complex, and the later maintenance and repair difficulty of the equipment is high. The overall seal phase difference of the recharging system. Therefore, in order to solve the problems of high efficiency and integration of recharging control equipment, more operability of recharging control and reduction of equipment maintenance complexity, the development of a gas lift type lifting type comprehensive recharging system is a problem to be solved urgently by those skilled in the art.

Disclosure of Invention

The invention aims to solve the defects and provides a gas lift type lifting type comprehensive recharging system. The system can effectively integrate two parts of normal pressure recharging and pressurizing recharging in the recharging system into one set of equipment, and the recharging mode adopts a gas lift recharging principle and adopts a pipeline of the recharging system to integrate the recharging system and the recharging system into a whole.

The above object of the present invention is achieved by the following technical solutions: the gas lift and lift type comprehensive recharging system comprises a valve body, a water inlet valve, a tee joint, a recharging well and a water discharge valve, wherein the recharging well is provided with a sealing well cover;

The tee joint is T-shaped, the lower port of the tee joint is connected with a sewer pipe and is communicated with the interior of the recharging well, and the sewer pipe is connected with a water-steam mixer positioned in the recharging well;

the valve body is provided with an adjusting valve, the water outlet end of the valve body is connected with a water inlet valve, the water inlet valve is connected with one side interface of the tee joint, and the other side interface of the tee joint is connected with a water discharge valve;

the sealing well cover is penetrated with a gas pipe, the upper end of the gas pipe is connected with a pneumatic valve, and the lower end of the gas pipe is communicated with the side wall of the lower part of the water-steam mixer;

A float valve is arranged in the recharging well and is communicated with a cavity on the upper side of a diaphragm inside the valve body through a float pipe.

Further, the valve body is a diaphragm type remote control ball float valve.

Further, the water inlet end of the valve body is connected with a water meter.

Further, the sealing well cover and the recharging well are both made of metal.

Further, the sealing well cover is connected with the recharging well in a welding mode.

Further, a reinforcing support rib pipe is arranged between the gas pipe and the sewer pipe or the water-vapor mixer.

The working mode of the invention is as follows:

the recharging system can perform normal pressure recharging and pressurization control by adopting a single pipeline, and the water level in the recharging well is controlled by separating the water level ball float valve from the valve body.

Normal pressure recharging mode: the float valve is arranged in the recharging well to control the height of the water level, when the water level in the recharging well reaches the position of the floating ball, the float valve blocks the water outlet to control the valve body to be closed, recharging is suspended, when the water level is lower than the float valve, the float valve gives a signal to the control valve body, the control valve body is opened, and recharging is started. The water level is always kept at the position of the float valve.

Pressurization mode: the induction sensitivity of the control valve body to the float valve is regulated to ensure that the float valve is disabled, the control valve body is in a normally open mode, the recharging well is filled with water, the pressure in the well is consistent with the pressure of an external pipeline, and the recharging pressure is controlled by regulating the pressure of the pipeline. At this time, the two recharging modes in recharging can be operated in a mutually switching mode without changing equipment.

And (3) a lifting mode: the water inlet pipeline is closed, the original recharging pipeline in the well is adopted as a lifting drainage pipeline, the water vapor mixer arranged at the bottom of the recharging well and connected with the pipeline enables water in the well to be discharged outside through compressed air input from the outside through the lifting air pipe, and the air is mixed with the water in the well to wash the well wall for lifting and cleaning.

Compared with the prior art, the invention has the advantages that: the invention can integrate normal pressure and pressurized recharging mode and lifting cleaning mode in the sub recharging into a set of comprehensive pipeline system for control, the equipment is easy to operate and maintain, the whole system adopts mechanical control, and the fault is low.

Drawings

Fig. 1 is a schematic view of the installation of the apparatus of the present invention.

FIG. 2 is a schematic diagram of the operation of the normal pressure recharge mode of the present invention.

FIG. 3 is a schematic diagram of the operation of the pressurized recharge mode of the present invention.

Fig. 4 is a schematic diagram of the operation of the present invention in the fly-back mode.

In the drawing, a valve body 1, a water vapor mixer 2, a water meter 3, a recharging well 4, a float valve 5, a sealing well cover 6, a gas pipe 7, a pneumatic valve 8, a drainage valve 9, a water inlet valve 10, a regulating valve 11, a sewer pipe 12, a tee joint 13, a float pipe 14 and a reinforced support rib pipe 15.

Detailed Description

The invention is further described in detail below with reference to the accompanying drawings.

As shown in fig. 1, the gas lift and lift type comprehensive recharging system comprises a valve body 1, a water inlet valve 10, a tee joint 13, a recharging well 4 and a water discharge valve 8, wherein the recharging well 4 is provided with a sealing well cover 6;

the tee joint 13 is T-shaped, the lower port of the tee joint 13 is connected with a sewer pipe 12 and is communicated with the interior of the recharging well 4, and the sewer pipe 12 is connected with the water-steam mixer 2 positioned in the recharging well 4;

the valve body 1 is provided with an adjusting valve 11, the water outlet end of the valve body 1 is connected with a water inlet valve 10, the water inlet valve 10 is connected with one side interface of a tee joint 13, and the other side interface of the tee joint 13 is connected with a water outlet valve 9;

The sealing well cover 6 is provided with a gas pipe 7 in a penetrating way, the upper end of the gas pipe 7 is connected with a pneumatic valve 8, and the lower end of the gas pipe 7 is communicated with the side wall of the lower part of the water-vapor mixer 2;

a float valve 5 is arranged in the recharging well 4, and the float valve 5 is communicated with a cavity on the upper side of a diaphragm in the valve body 1 through a float pipe 14.

Further, the valve body 1 is a diaphragm type remote control ball float valve.

Further, the water inlet end of the valve body 1 is connected with a water meter 3.

Further, the sealing well cover 6 and the recharging well 4 are both made of metal.

Further, the sealing well cover 6 is connected with the recharging well 4 in a welding mode.

Further, a reinforcing support rib pipe 15 is arranged between the air pipe 7 and the sewer pipe 12 or the water vapor mixer 2.

The working process of the invention is as follows:

In fig. 2, in the normal pressure recharging mode, recharging water enters the recharging well 4 through the water meter 3 and the valve body 1 in two paths, the path 1 enters through the ball float valve 5 connected with the valve body 1, the path 2 enters through the water inlet valve 10 and the tee joint 13 through the sewer pipe 12 and the water vapor mixer 2, when the water level in the well contacts with the ball float valve 5, the valve body 1 closes the water inlet path 2, and the water inlet path in the recharging well is blocked. When the water level in the well is not reduced and is not contacted with the float valve 5, the valve body 1 is automatically opened, the water inlet path 2 is opened, and recharging is continued.

In the invention, the working principle of the diaphragm type remote control ball float valve is as follows: when the float valve is in a closed state, the upper part of the float valve pipeline and the upper part of the valve body are continuously filled with water, the pressure in the valve body is increased, the rubber diaphragm is applied with pressure, the rubber diaphragm in the valve body moves downwards, the pipeline is closed for water outlet, and the valve body is closed. When the float valve is in an open state, the pressure on the upper part of the valve body is small, the valve core is restored to the original position under the action of the spring, and the valve body is opened.

In fig. 3, in the pressurized recharging mode, recharging water passes through the water meter 3 and the valve body 1, the valve body 11 is regulated to enable the float valve to be invalid, a recharging well enters through the water inlet valve 10 and the tee joint 13 through the sewer pipe 12 and the water vapor mixer 2, the pressure of water in the well is kept consistent with the pressure in the pipeline, and the recharging pressure in the well can be controlled by regulating the pressure in the pipeline of the water inlet pipe.

In fig. 4, in the lifting mode, the water inlet valve 10 is closed, the air pressure valve 8 is opened, the water discharge valve 9 is opened, compressed air is connected to the air pressure valve 8, the compressed air is delivered into the water-vapor mixer 2 through the air delivery pipe 7 and is mixed with water, and the water-vapor mixture and impurities are discharged out of the well through the sewer pipe 12, the tee joint 13 and the water discharge valve 9 under the action of air pressure. Working principle: the compressed air and water are mixed in a water-steam mixer to form a water-steam mixture, the density of the water-steam mixture is much smaller than that of the water, water pressure is outside the water-steam mixer, the compressed air is arranged in a gas pipe, the pressure is larger than that in the water-steam mixer, and the water-steam mixture is conveyed outside the pipe along with the compressed air under the two pressures; at the drain pipe orifice, water and gas are separated, and water is removed.

The foregoing description is only illustrative of the present invention and is not intended to limit the scope of the invention, and all equivalent structures or equivalent processes or direct or indirect application in other related technical fields are included in the scope of the present invention.

Claims (6)

1. The utility model provides a gas lift lifts and lifts formula comprehensive recharging system which characterized in that: the device comprises a valve body, a water inlet valve, a tee joint, a recharging well and a drainage valve, wherein the recharging well is provided with a sealing well cover;

The tee joint is T-shaped, the lower port of the tee joint is connected with a sewer pipe and is communicated with the interior of the recharging well, and the sewer pipe is connected with a water-steam mixer positioned in the recharging well;

the valve body is provided with an adjusting valve, the water outlet end of the valve body is connected with a water inlet valve, the water inlet valve is connected with one side interface of the tee joint, and the other side interface of the tee joint is connected with a water discharge valve;

the sealing well cover is penetrated with a gas pipe, the upper end of the gas pipe is connected with a pneumatic valve, and the lower end of the gas pipe is communicated with the side wall of the lower part of the water-steam mixer;

and a ball float valve is arranged in the recharging well and is communicated with the valve body through a ball float pipeline.

2. A gas lift lifts formula and synthesizes system of recharging according to claim 1 wherein: the valve body is a diaphragm type remote control ball float valve.

3.A gas lift lifts formula and synthesizes system of recharging according to claim 1 wherein: the water inlet end of the valve body is connected with a water meter.

4. A gas lift lifts formula and synthesizes system of recharging according to claim 1 wherein: the sealing well cover and the recharging well are both made of metal.

5. A gas lift lifts formula and synthesizes system of recharging according to claim 1 wherein: the sealing well cover is connected with the recharging well in a welding mode.

6. A gas lift lifts formula and synthesizes system of recharging according to claim 1 wherein: and a reinforced support rib pipe is arranged between the gas pipe and the sewer pipe or the water vapor mixer.