CN216642532U - Control device of water circulation utilization system of water ring type vacuum pump - Google Patents

Abstract

The utility model relates to a control device of a water circulation utilization system of a water ring vacuum pump, which comprises a water ring vacuum pump and an intelligent control instrument, and is characterized in that: the gas-liquid separator is provided with a gas-liquid separator air inlet, a gas-liquid separator air outlet, a gas-liquid separator water outlet, a water replenishing pipe and a water outlet, a floating ball control valve is arranged in the gas-liquid separator, a liquid level sensor and a water discharge control valve are arranged on the gas-liquid separator, one end of the gas-liquid separator is communicated with the air outlet of the water ring vacuum pump, and the other end of the gas-liquid separator is communicated with the gas inlet of the gas-liquid separator; circulating water pipeline one end and water ring vacuum pump water inlet intercommunication, the other end and vapour and liquid separator delivery port intercommunication, intelligent control instrument and level sensor, drainage control valve and floater control valve electric connection. The advantages are that: the frequent adjustment of the liquid discharge valve of the water ring vacuum pump along with the change of the working condition in the past is avoided, and the labor intensity of the post is reduced.

Description

Control device of water circulation utilization system of water ring type vacuum pump

Technical Field

The utility model belongs to the technical field of solid-liquid separation and dehydration, and particularly relates to a control device of a water circulation utilization system of a water ring type vacuum pump.

Background

The water-ring vacuum pump is used for pumping air or other non-corrosive, water-insoluble and solid particle-free gas, and a certain vacuum is formed in the pumped and sealed container. The inhaled gas is allowed to be mixed with a minute amount of liquid. The water ring vacuum pump belongs to a positive displacement pump, namely, the purpose of air suction and exhaust is achieved by utilizing the change of the volume. The impeller rotates eccentrically, when the impeller rotates (before the pump is started, a proper amount of water is injected into the pump), water is acted by centrifugal force to form a rotating water ring on the wall of the pump body, the inner surface of the upper part of the water ring is tangent to the hub and rotates along the arrow direction, and in the process of the first half rotation, the surface of the water ring is gradually separated from the hub, so that a space is formed between impeller blades and is gradually enlarged, and air is sucked in the air suction port. In the second half of the rotation process, the inner surface of the water ring is gradually close to the hub, the volume of the space between the blades is reduced, the volume of the space between the blades is changed once, the water between each blade reciprocates once like a piston, and the pump continuously pumps air. The working interval is-0.04 Mpa-0.09 Mpa, and the method is mainly applied to the industries of chemical industry, petrifaction, light industry, pharmacy, papermaking, metallurgy, building materials, electrical appliances, food, coal washing, mineral separation, chemical fertilizers and the like.

Many equipment all have the vacuum requirement when using, at present, the water ring vacuum pump of most ore dressing plants commonly used uses as disc vacuum filter's accessory equipment, start at water ring pump and continuous operation in-process, need to pour into in the pump behind the big water gaging into, the operation forms the vacuum, then discharge through water ring vacuum pump with water, water ring vacuum pump is when the operation, still need cool down it with the cooling water, directly discharge to the external world after the use, the water consumption is big, not only increased manufacturing cost, still wasted a large amount of water resources, be unfavorable for the production and the development of enterprise.

Disclosure of Invention

The utility model aims to solve the problems and provides a control device of a water recycling system of a water ring type vacuum pump.

The utility model is realized by the following technical scheme:

the utility model relates to a control device of a water recycling system of a water ring vacuum pump, which comprises a water ring vacuum pump, an exhaust port of the water ring vacuum pump, a water inlet of the water ring vacuum pump and an intelligent control instrument, and is characterized in that: the water-saving device is characterized by further comprising a gas-liquid separator, an exhaust pipeline and a circulating water pipeline, wherein a gas-liquid separator air inlet and a gas-liquid separator air outlet are formed in the upper portion of the gas-liquid separator, a gas-liquid separator water outlet is formed in the middle lower portion of the right side wall, a replenishing water pipe is formed in the upper portion of the left side wall, a water outlet is formed in the lower portion of the left side wall, a floating ball control valve communicated with the replenishing water pipe is arranged in the gas-liquid separator, a liquid level sensor and a water discharge control valve are arranged on the gas-liquid separator, one end of the exhaust and liquid discharge pipeline is communicated with a water outlet of the water ring vacuum pump, and the other end of the exhaust and liquid discharge pipeline is communicated with a gas-liquid separator air inlet in the upper portion of the gas-liquid separator; and one end of the circulating water pipeline is communicated with a water inlet of the water ring vacuum pump, the other end of the circulating water pipeline is communicated with a water outlet of the gas-liquid separator, and the intelligent control instrument is electrically connected with the liquid level sensor, the water discharge control valve and the floating ball control valve.

Preferably, a guide plate is arranged at the lower part of the gas-liquid separator close to the gas inlet of the gas-liquid separator.

Preferably, a manual regulating valve is further arranged on the circulating water pipeline.

The utility model has the advantages that:

under the normal working condition, working fluid (namely water) of the water ring vacuum pump is provided by the gas-liquid separator, the gas-liquid separator collects the water amount in a liquid-liquid mixture discharged by the water ring vacuum pump, when the water amount in the gas-liquid separator is excessive, the excessive water amount is automatically discharged through the water discharge control valve, and when the water level in the gas-liquid separator is too low, a water replenishing pipe replenishes water through the floating ball control valve, so that automatic adjustment is realized; the great outside moisturizing of having saved saves water resource supply, through adjusting manual control valve, can finely tune the water ring vacuum pump operating mode, reduces power consumption, avoids the post to change frequently the regulation to water ring vacuum pump flowing back valve along with the operating mode in the past, reduces post intensity of labour.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Detailed Description

The utility model will be further explained with reference to the drawings.

As shown in fig. 1, the control device of the water circulation utilization system of the water ring vacuum pump of the present invention comprises a water ring vacuum pump 1, a water ring vacuum pump exhaust port 11, a water ring vacuum pump water inlet 12 and an intelligent control instrument 4, and is characterized in that: the device is characterized by further comprising a gas-liquid separator 5, an exhaust pipeline 2 and a circulating water pipeline 3, wherein a gas-liquid separator air inlet 52 and a gas-liquid separator air outlet 51 are arranged at the upper part of the gas-liquid separator 5, a gas-liquid separator water outlet 55 is arranged at the middle lower part of the right side wall, a replenishing water pipe 57 is arranged at the upper part of the left side wall, a water outlet 53 is arranged at the lower part of the right side wall, a floating ball control valve 58 communicated with the replenishing water pipe 57 is arranged in the gas-liquid separator 5, a liquid level sensor 56 and a water discharge control valve 54 are arranged on the gas-liquid separator 5, one end of the exhaust pipeline 2 is communicated with the water ring vacuum pump air outlet 11, and the other end of the exhaust pipeline is communicated with the gas-liquid separator air inlet 52 at the upper part of the gas-liquid separator; one end of the circulating water pipeline 3 is communicated with the water inlet 12 of the water ring vacuum pump, the other end of the circulating water pipeline is communicated with the water outlet 55 of the gas-liquid separator, and the intelligent control instrument 4 is electrically connected with the liquid level sensor 56, the water discharge control valve 54 and the floating ball control valve 58. The intelligent control instrument 4 of the present invention is prior art, and will not be described herein, the gas outlet 51 of the gas-liquid separator is communicated with the exhaust pipe 6 for exhausting the gas separated by the gas-liquid separator, and the exhaust pipe 6 of the gas-liquid separator 5 is communicated with the atmosphere.

In the gas-liquid separator, a guide plate 59 is arranged at the lower part close to the gas inlet of the gas-liquid separator. After the gas-liquid mixture discharged from the water-ring vacuum pump enters the gas-liquid separator 5 from the upper gas-liquid separator air inlet 52, the liquid is condensed along the flow guide plate 59 to realize gas-liquid separation when passing through the flow guide plate 59, so that the gas-liquid separation effect is optimized, and the primary separation of sealing water and air discharged from the vacuum pump is realized.

According to the utility model, a floating ball control valve is adopted for water replenishing, so that automatic adjustment is realized; external water supplement is greatly saved, and water resource supply is saved.

According to the utility model, the manual regulating valve 7 is further arranged on the circulating water pipeline, the working condition of the water ring vacuum pump can be finely regulated by regulating the manual regulating valve 7, the power consumption is reduced, the frequent regulation of the liquid discharge valve of the water ring vacuum pump along with the change of the working condition in the past at a post is avoided, and the post labor intensity is reduced.

Claims (3)

1. The utility model provides a water ring vacuum pump water cyclic utilization system control device, includes water ring vacuum pump, water ring vacuum pump gas vent, water ring vacuum pump water inlet and intelligent control instrument, its characterized in that: the water-saving device is characterized by further comprising a gas-liquid separator, an exhaust pipeline and a circulating water pipeline, wherein a gas-liquid separator air inlet and a gas-liquid separator air outlet are formed in the upper portion of the gas-liquid separator, a gas-liquid separator water outlet is formed in the middle lower portion of the right side wall, a water replenishing pipe is formed in the upper portion of the left side wall, a water outlet is formed in the lower portion of the left side wall, a floating ball control valve communicated with the water replenishing pipe is arranged in the gas-liquid separator, a liquid level sensor and a water discharge control valve are arranged on the gas-liquid separator, one end of the exhaust pipeline is communicated with a water ring type vacuum pump water outlet, and the other end of the exhaust pipeline is communicated with a gas-liquid separator air inlet in the upper portion of the gas-liquid separator; and one end of the circulating water pipeline is communicated with a water inlet of the water ring vacuum pump, the other end of the circulating water pipeline is communicated with a water outlet of the gas-liquid separator, and the intelligent control instrument is electrically connected with the liquid level sensor, the water discharge control valve and the floating ball control valve.

2. The water ring vacuum pump water recycling system control device of claim 1, characterized in that: and a guide plate is arranged at the lower part of the gas-liquid separator, which is close to the gas inlet of the gas-liquid separator.

3. The water ring vacuum pump water recycling system control device of claim 1, characterized in that: and a manual regulating valve is also arranged on the circulating water pipeline.

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