CN211695193U - Gas-liquid mixed flow multiple atomization separation device - Google Patents

Abstract

The utility model discloses a gas-liquid mixed flow many times atomization separation device, the power distribution box comprises a box body, the water tank has been seted up to the box lower part, separate for fan chamber, atomizing chamber and pipeline chamber through the baffle in the water tank, many grades of fans are installed at fan chamber top, it has the passageway to reserve between baffle below and the water tank bottom, pipeline chamber upper portion intercommunication has the return bend, the inside right side of box is separated for the gas pump chamber through the little baffle, the air pump is installed to the air pump intracavity, the gas outlet of air pump has the air inlet of gas-liquid mixed flow nozzle through the outlet duct intercommunication, gas-liquid mixed flow nozzle is just to the water tank top. The gas-liquid mixed flow multiple atomization separation device adopts a gas-liquid mixed flow multiple atomization separation mode to make atomized particles finer; the gas-liquid mixed flow nozzle adopts a larger aperture, so that blockage is prevented, the service life is prolonged, and the stability is improved; the air pump adopts a low-power motor, so that the power is low, the energy consumption is low, and the cost is saved.

Description

Gas-liquid mixed flow multiple atomization separation device

Technical Field

The utility model relates to a humidification equipment field especially relates to a gas-liquid mixed flow many times atomizing separator.

Background

The air is everywhere, every equipment in the data center is in the surrounding of air, air around the equipment of computer lab can produce adverse effect and lead to the trouble to built-in components and parts, because equipment calorific capacity is very big in the computer lab, the temperature in room is very high after the heat dissipation, the air can become very dry, at this moment, spare part in the equipment just produces static very easily, static voltage can reach more than 2 ten thousand volts, very easily cause the component breakdown damage on the circuit board, need carry out the humidification to the air of computer lab, make the humidity in room keep about 50%, eliminate static, ensure the safe operation of computer lab equipment.

The conventional humidifying equipment mainly has the following modes: the electrode and the far infrared humidifier are a mode of boiling water and humidifying with steam, so that the energy consumption is high, the cost is high, and the container is easy to be damaged due to scale formation; the wet film evaporation humidifier naturally evaporates water on the surface of the wet film by utilizing heat in air, although the energy consumption is low, the cost of the wet film is high, the service life is short, the wet film needs to be frequently replaced, and the cost is high; the ultrasonic humidifier adopts the ultrasonic vibrating piece to produce the atomized particles for humidification, and the ultrasonic vibrating piece is easy to damage, corrode and need often be changed, and stability is not good.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a gas-liquid mixed flow multiple atomization separation device, which adopts a gas-liquid mixed flow multiple atomization separation mode to make atomized particles finer; the gas-liquid mixed flow nozzle adopts a larger aperture, so that blockage is prevented, the service life is prolonged, and the stability is improved; the air pump adopts a low-power motor, so that the power is low, the energy consumption is low, and the cost is saved.

In order to achieve the above purpose, the utility model provides a technical scheme is: the water tank is arranged at the lower part of the tank body, the water tank is internally divided into a fan cavity, an atomization cavity and a pipeline cavity through a partition plate, a multi-level fan is installed at the top of the fan cavity, a channel is reserved between the lower part of the partition plate and the bottom of the water tank, the upper part of the pipeline cavity is communicated with a bent pipe, the right side inside the tank body is separated into an air pump cavity through a small partition plate, an air pump is installed in the air pump cavity, an air outlet of the air pump is communicated with an air inlet of a gas-liquid mixed flow nozzle through an air outlet pipe, the gas-liquid mixed flow nozzle is right opposite to the top of the water tank, a water inlet of the gas-liquid mixed flow nozzle is communicated with the water tank through an inlet pipe, a fixed rod is welded on the inner wall of the atomization cavity and fixed with the, Fan gear switch, control panel, humidity inductive probe and humidity controller circuit link to each other, fan gear switch and many grades of fan circuit link to each other, control panel links to each other with humidity controller, air pump, protector circuit of cutting off the water supply respectively, install the ball-cock assembly on the water tank lateral wall.

Furthermore, the number of the gas-liquid mixed flow nozzles is not less than one.

Further, the atomizing chamber is hinged with an access door.

Furthermore, the bottom of the water tank is provided with a cleaning port.

Furthermore, a shutter is arranged on the right side wall of the box body below the control panel.

Further, the height of the water inlet of the float valve is lower than the height between the partition plate and the bottom of the water tank.

Furthermore, the upper end of the elbow is connected with an elbow through threads.

Furthermore, a filter is communicated with the water inlet pipe.

The utility model has the advantages that: a gas-liquid mixed flow multiple atomization separation device adopts a gas-liquid mixed flow multiple atomization separation mode to make atomized particles finer; the gas-liquid mixed flow nozzle adopts a larger aperture, so that blockage is prevented, the service life is prolonged, and the stability is improved; the air pump adopts a low-power motor, so that the power is low, the energy consumption is low, and the cost is saved.

Drawings

Fig. 1 is a front view of the present invention;

fig. 2 is a schematic view of the internal structure of the present invention;

FIG. 3 is an enlarged view of area A of FIG. 2 according to the present invention;

FIG. 4 is a schematic structural view of the gas-liquid mixed flow nozzle of the present invention;

fig. 5 is a right side view of the present invention.

Detailed Description

Example 1

As shown in fig. 1-5, a gas-liquid mixed flow multiple atomization separation device comprises a box body 1, a water tank 2 is arranged at the lower part of the box body 1, the water tank 2 is internally divided into a fan cavity 4, an atomization cavity 5 and a pipeline cavity 6 by a partition plate 3, a multi-stage fan 7 is arranged at the top of the fan cavity 4, a channel 8 is reserved between the lower part of the partition plate 3 and the bottom of the water tank 2, the upper part of the pipeline cavity 6 is communicated with a bent pipe 9, the right side inside the box body 1 is divided into a gas pump cavity 11 by a small partition plate 10, an air pump 12 is arranged in the gas pump cavity 11, the air outlet of the air pump 12 is communicated with an air inlet 33 of a gas-liquid mixed flow nozzle 14 through an air outlet pipe 13, the gas-liquid mixed flow nozzle 14 is over the top of the water tank 2, a water inlet 32 of the gas, the dead lever 16 is fixed with gas-liquid mixed flow nozzle 14 through the screw, water break protector 18 is installed to 2 bottoms of water tank, install humidity inductive probe 19, humidity controller 20, fan gear switch 21, control panel 22 on the outer wall of box 1 right side, humidity inductive probe 19 and humidity controller 20 circuit link to each other, fan gear switch 21 and the 7 circuit of many grades of fan link to each other, control panel 22 links to each other with humidity controller 20, air pump 17, water break protector 18 circuit respectively, install ball float valve 23 on the 2 lateral walls of water tank.

The number of the gas-liquid mixed flow nozzles 14 is not less than one, and a plurality of gas-liquid mixed flow nozzles are conveniently arranged according to actual conditions.

Atomizing chamber 5 articulates there is access door 24, conveniently overhauls the part in the atomizing chamber.

The bottom of the water tank 2 is provided with a cleaning opening 25, so that the water tank is convenient to clean.

A shutter 26 is arranged on the right side wall of the box body 1 below the control panel 22, so that heat dissipation of the air pump is facilitated, and air inlet of a multi-gear fan is facilitated.

The height of the water inlet of the ball float valve 23 is lower than the height between the partition plate 3 and the bottom of the water tank 2, so that the phenomenon that the channel is submerged by water and atomized particles pass through the channel is prevented.

The upper end of the elbow 9 is connected with an elbow 27 through threads, so that the mist can be conveniently controlled.

The water inlet pipe 15 is communicated with the filter 31, so that impurities in water can be filtered conveniently, and the impurities are prevented from entering the gas-liquid mixed flow nozzle to block the nozzle.

The gas-liquid mixed flow nozzle 14 comprises a water inlet 32, a gas inlet 33, a mist outlet 34 and a fixing foot 35, wherein the mist outlet 34, the water inlet 32 and the gas inlet 33 are communicated.

The control panel 22, the humidity controller 20, the air pump 17, the water break protector 18, the multi-gear fan 7 and the filter 31 are all existing products purchased in the market, the air pump 17 discharges air into the air outlet pipe from the air outlet pipe and enters the air-liquid mixed flow nozzle 14, the air-liquid mixed flow nozzle 14 sucks water from the water inlet pipe through the siphon principle, the water is sprayed out from the fog outlet 34 under the action of air pressure to form atomized particles, when the water level in the water tank is lower than the warning water level of the water break protector 18, a floating sheet of the water break protector 18 falls down, the circuit is conducted, a signal is transmitted to the control panel 22, the control panel 22 controls the air pump 13 to be powered off and stop working, no water idle running is prevented, the air pump is damaged, the humidity controller 20 controls humidity, a processor is arranged in the humidity controller, a humidity value can be set, the value of a humidity sensing probe is received and processed, the signal is transmitted to the control panel 22, the air release valve 29 discharges air in the air pump, the pressure gauge 30 displays the pressure value of the air pump, the floating ball valve 23 controls water inflow through the floating ball, when the water level rises to the highest position of the floating ball, the floating ball floats, the valve is closed, water inflow is stopped, and automatic water adding is achieved.

The gas-liquid mixed flow nozzle adopts a larger aperture, so that blockage is prevented, the service life is prolonged, and the stability is improved; the air pump adopts a low-power motor, so that the power is low, the energy consumption is low, and the cost is saved.

The specific working principle is as follows: the control panel is connected with an external power supply, the ball float valve is connected with an external water source, water enters the water tank from the ball float valve, the humidity controller is started, the humidity value of the humidity controller is set, the humidity controller transmits a signal to the control panel, the control panel controls the air pump to be started, air enters the air outlet pipe from the air pump and enters the air-liquid mixed flow nozzle, the air-liquid mixed flow nozzle sucks water from the water inlet pipe through the siphon principle, the water is sprayed out from the fog outlet under the action of air pressure to form atomized particles, the atomized particles continuously impact the top of the water tank and the access door and are separated into smaller particles, and some atomized particles attached to the top of the water tank, the access door and the partition plate are continuously condensed to form water drops and fall back into the water tank; meanwhile, a fan gear switch is turned on, the proper gear of the multi-gear fan is adjusted, the multi-gear fan starts to work, air is supplied through a channel, atomized particles enter a pipeline cavity along the channel under the action of air supply, the atomized particles are further separated into atomized particles with smaller particles when impacting the inner wall of an atomization cavity, and meanwhile, some atomized particles attached to the inner wall of the atomization cavity are condensed into water drops and fall back into a water tank; the atomized particles enter the elbow under the action of air supply, impact the bend of the elbow, are further separated into smaller particles, enter air of a machine room, the atomized particles are thinner, the humidification requirement of the machine room is met, meanwhile, some atomized particles attached to the inner wall of the elbow are condensed into water drops which fall back into a water tank, and enter a gas-liquid mixed flow nozzle for circulation, when the humidity value in the machine room reaches a set value, a humidity controller transmits an electric signal to a control panel, the control panel controls an air pump to be closed, the air pump to be closed is controlled to stop spraying humidification, a fan gear switch is closed, the wind power of a multi-gear fan can be adjusted by adjusting the fan gear switch, when the machine room is in a high gear, the wind power is larger, some larger particles can also be blown into the elbow along with the air, and are blown out from the elbow, and the mist output amount is larger; on the contrary, when the multi-gear fan is in a low gear, the wind power is small, only some small particles can be blown to come out from the elbow, and the fog output is small.

In the practical process, a corresponding remote control module and a remote control module can be added according to the actual needs, so that remote control and remote mobile phone control or some routine creative labor changes are realized, and the scheme belongs to the protection range of the scheme.

The gas-liquid mixed flow multiple atomization separation device of the embodiment adopts a gas-liquid mixed flow multiple atomization separation mode to make atomized particles finer; the gas-liquid mixed flow nozzle adopts a larger aperture, so that blockage is prevented, the service life is prolonged, and the stability is improved; the air pump adopts a low-power motor, so that the power is low, the energy consumption is low, and the cost is saved.

Claims (9)

1. The utility model provides a gas-liquid mixed flow many times atomizing separator which characterized in that: including box (1), water tank (2) have been seted up to box (1) lower part, separate for fan chamber (4), atomizing chamber (5) and pipeline chamber (6) through baffle (3) in water tank (2), many grades of fan (7) are installed at fan chamber (4) top, it has passageway (8) to reserve between baffle (3) below and water tank (2) bottom, pipeline chamber (6) upper portion intercommunication has return bend (9), the inside right side of box (1) is separated for air pump chamber (11) through little baffle (10), install air pump (12) in air pump chamber (11), the gas outlet of air pump (12) is through outlet duct (13) intercommunication has air inlet (33) of gas-liquid mixed flow nozzle (14), gas-liquid mixed flow nozzle (14) are just to water tank (2) top, the water inlet (32) of gas-liquid mixed flow nozzle (14) are linked together through inlet tube (15) and water tank (2), the welding has dead lever (16) on atomizing chamber (5) inner wall, dead lever (16) have gas-liquid mixed flow nozzle (14) through the screw fixation, water break protector (18) are installed to water tank (2) bottom, install humidity inductive probe (19), humidity controller (20), fan gear switch (21), control panel (22) on box (1) right side outer wall, humidity inductive probe (19) and humidity controller (20) circuit link to each other, fan gear switch (21) and many grades of fan (7) circuit link to each other, control panel (22) link to each other with humidity controller (20), air pump (12), water break protector (18) circuit respectively, install ball-cock assembly (23) on water tank (2) lateral wall.

2. A gas-liquid mixed flow multiple atomization separation device according to claim 1, characterized in that: the number of the gas-liquid mixed flow nozzles (14) is not less than one.

3. A gas-liquid mixed flow multiple atomization separation device according to claim 1, characterized in that: the atomizing cavity (5) is hinged with an access door (24).

4. A gas-liquid mixed flow multiple atomization separation device according to claim 1, characterized in that: the bottom of the water tank (2) is provided with a cleaning opening (25).

5. A gas-liquid mixed flow multiple atomization separation device according to claim 1, characterized in that: a shutter (26) is arranged on the right side wall of the box body (1) below the control panel (22).

6. A gas-liquid mixed flow multiple atomization separation device according to claim 1, characterized in that: the height of the water inlet of the float valve (23) is lower than the height between the partition plate (3) and the bottom of the water tank (2).

7. A gas-liquid mixed flow multiple atomization separation device according to claim 1, characterized in that: the upper end of the elbow (9) is in threaded connection with an elbow (27).

8. A gas-liquid mixed flow multiple atomization separation device according to claim 1, characterized in that: the water inlet pipe (15) is communicated with a filter (31).

9. A gas-liquid mixed flow multiple atomization separation device according to claim 1, characterized in that: the gas-liquid mixed flow nozzle (14) comprises a water inlet (32), a gas inlet (33), a mist outlet (34) and a fixing pin (35), wherein the mist outlet (34), the water inlet (32) and the gas inlet (33) are communicated.

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