CN202338661U - Energy-saving water-gas separator - Google Patents

Abstract

The utility model discloses an energy-saving water-gas separator, which comprises a water-gas sensing device (1), a water flow ball valve (2), a relay (3), an electric two-way control valve (4) and an exhaust pipe (5). An annular floating valve (13) is sleeved on a floating valve sleeve (16). A water sensing head (14) and a gas sensing head (15) are arranged at an upper position and a lower position in the floating valve sleeve (16) respectively. When a gas does not exist in a main water pipe (8), the water sensing head (14) generates a power-off control signal, the relay (3) executes power-off, and the electric two-way control valve (4) closes an exhaust passage after being powered off; and when the gas exists in the main water pipe (8), the gas sensing head (15) generates a power-on control signal, and transmits the power-on control signal to the relay (3) through a sensing signal wire (18) to execute power-on, and the electric two-way control valve (4) opens the exhaust passage after being powered on, so that the gas can be exhausted from the main water pipe until a water pipe and the main water pipe are refilled with water. The energy-saving water-gas separator is fast and timely in exhaust and high in working reliability.

Description

Energy-conservation moisture separator

Technical field

The utility model relates to a kind of gas fractionation unit of waterpipe, specifically is the employed device that gas in the pipeline is discharged of a kind of air conditioner water pipe-line system.

Background technique

Traditional tube exhaust valve mainly is to make it go up and down to open by buoyancy of water or close the purpose that exhaust port reaches exhaust through a metal ball-valve; This device is in the water system process of refrigerastion, because water pump is when sending water, and also continuous output gas in pipeline, because flowing gas is greater than air displacement, the outlet valve pore is less in addition, so the unclean gas of row is always arranged in the pipeline; Moreover, make exhaust port blocked easily, thereby it is very short to cause device normally to move work, working life owing to often occur the various dregs phenomenon of getting rusty in the pipeline.

Summary of the invention

In order to solve the problem of the slow and easy blocking of said apparatus exhaust velocity.The utility model provides a kind of energy-conservation moisture separator, and the technological scheme of the utility model is: include an aqueous vapor induction installation, a current ball valve, a relay, one electronic two logical control valve and an outlet pipe; Described aqueous vapor induction installation is made up of a cylindrical shell, water main connecting tube, lower sealing cover, annular float valve, water induction head, gas-sensing head, float valve sleeve pipe, top cover labyrinth and induced signal lead; Described cylindrical shell and upper and lower sealing cover, float valve sleeve pipe form the housing of a sealing; The annular float valve is enclosed within on the float valve sleeve pipe; Upper-lower position in the float valve sleeve pipe is filled with water inductive head and gas-sensing head respectively; Its two be connected on the relay through the induced signal lead again, relay is controlled the switching of electronic two logical control valves; A described current ball valve links to each other with the aqueous vapor induction installation through the ball valve connecting tube, and described electronic two logical control valves link to each other with the current ball valve through the control valve connecting tube, and described outlet pipe is connected on the electronic two logical control valves, thereby forms an exhaust passageway.

The working principle of the utility model is: when not having gas in the water main; The annular float valve is in the position of water induction head under the buoyancy of water effect; The water induction head produces the outage control signal after sensing annular float valve; And pass to relay by the induced signal lead and carry out outage, after electronic two logical control valves are de-energized exhaust passageway is closed; When in the water main gas being arranged; The annular float valve is losing the position that is in gas-sensing head under the buoyancy of water effect; Gas-sensing head produces the energising control signal after sensing annular float valve; And pass to relay by the induced signal lead and carry out energising, after electronic two logical control valves are energized exhaust passageway is opened, in water pipe and water main, be full of water again thereby the gas in the water main discharged; Circulation according to this realizes fast, exhaust at any time.

The utility model adopts the beneficial effect of above technological scheme to be: adopt induction control; Exhaust velocity is fast and timely; Thereby solved the low problem of air-conditioning heat transfer efficiency that causes because the gas in the pipeline gathers, practiced thrift the energy, and this apparatus structure has been simple; Can can't not work because of the obstruction of gas exhaust piping, the product functional reliability is good.

Description of drawings

Fig. 1 is the broken section structural representation of the utility model.

Fig. 2 is the overall structure schematic representation of the utility model.

Among the figure, 1 aqueous vapor induction installation, 2 current ball valves, 3 relays, 4 electronic two logical control valves; 5 outlet pipes, 6 ball valve connecting tubes, 7 control valve connecting tubes, 8 water mains, 10 cylindrical shells; 11 water main connecting tubes, 12 lower sealing cover, 13 annular float valves, 14 water induction heads; 15 gas-sensing heads, 16 float valve sleeve pipes, 17 top cover labyrinths, 18 induced signal leads.

Embodiment

Like Fig. 1, shown in 2, the utility model includes an aqueous vapor induction installation 1, current ball valve 2, relay 3, electronic two a logical control valve 4 and outlet pipes 5; Described aqueous vapor induction installation 1 is made up of a cylindrical shell 10, water main connecting tube 11, lower sealing cover 12, annular float valve 13, water induction head 14, gas-sensing head 15, float valve sleeve pipe 16, top cover labyrinth 17 and induced signal lead 18; Described cylindrical shell 10 covers the housing of (17,12), a sealing of float valve sleeve pipe 16 formation with upper-lower seal; Annular float valve 13 is enclosed within on the float valve sleeve pipe 16; Upper-lower position in the float valve sleeve pipe 16 is filled with water inductive head 14 and gas-sensing head 15 respectively; Its two be connected on the relay 3 switching of relay 3 controls electronic two logical control valves 4 again through induced signal lead 18; A described current ball valve 2 links to each other with aqueous vapor induction installation 1 through ball valve connecting tube 6; Described electronic two logical control valves 4 link to each other with current ball valve 2 through control valve connecting tube 7; Described outlet pipe 5 is connected on the electronic two logical control valves 4, thereby forms an exhaust passageway.When not having gas in the water main 8; Annular float valve 13 is in the position of water induction head 14 under the buoyancy of water effect; Water induction head 14 is sensed annular float valve 13 backs and is produced the outage control signal; And pass to relay 3 by induced signal lead 18 and carry out outage, after electronic two logical control valves 4 are de-energized exhaust passageway is closed; When in the water main 8 gas being arranged; Annular float valve 13 is losing the position that is in gas-sensing head 15 under the buoyancy of water effect; Gas-sensing head 15 is sensed annular float valve 13 backs and is produced the energising control signal; And pass to relay 3 by induced signal lead 18 and carry out energising, after electronic two logical control valves 4 are energized exhaust passageway is opened, in water pipe and water main, be full of water again thereby the gas in the water main discharged; Circulation according to this realizes fast, exhaust at any time.

Above-mentioned embodiment is exemplary, is to be the restriction that this patent is comprised scope in order better to make those skilled in the art can understand this patent, can not to be interpreted as; So long as the technology contents essence of being made according to the disclosed technological scheme of this patent is identical or any change or the modification that are equal to, all fall into the scope that this patent comprises.

Claims (1)

1. energy-conservation moisture separator is characterized in that: include an aqueous vapor induction installation (1), a current ball valve (2), a relay (3), one electronic two logical control valve (4) and an outlet pipe (5); Described aqueous vapor induction installation (1) is made up of a cylindrical shell (10), water main connecting tube (11), lower sealing cover (12), annular float valve (13), water induction head (14), gas-sensing head (15), float valve sleeve pipe (16), top cover labyrinth (17) and induced signal lead (18); Described cylindrical shell (10) covers the housing of (17,12), a sealing of float valve sleeve pipe (16) formation with upper-lower seal; Annular float valve (13) is enclosed within on the float valve sleeve pipe (16); Upper-lower position in the float valve sleeve pipe (16) is filled with water inductive head (14) and gas-sensing head (15) respectively; Its two be connected on the relay (3) switching of relay (3) control electronic two logical control valves (4) again through induced signal lead (18); A described current ball valve (2) links to each other with aqueous vapor induction installation (1) through ball valve connecting tube (6); Described electronic two logical control valves (4) link to each other with current ball valve (2) through control valve connecting tube (7); Described outlet pipe (5) is connected on the electronic two logical control valves (4), thereby forms an exhaust passageway.

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