CN204973165U - Mudpan based on bubble is scattered in ultrasonic wave and pierces through separation - Google Patents

Abstract

The utility model relates to a mudpan based on bubble is scattered in ultrasonic wave and pierces through separation, including the sedimentation tank body, the center of sedimentation tank body is equipped with the pivot, and into water plate of distributor and main stirring vane are installed on being arranged in the pivot of sedimentation tank body to the upper end installation electricity of pivot, intake plate of distributor and inlet tube and with the water piping connection that leads that stretches into sedimentation tank body bottom, the last stirring vane that lies in both sides about the main stirring vane and stirring vane are down installed to the inner wall of sedimentation tank body, and main stirring vane's tip has a bending end who buckles downwards, go up stirring vane under and stirring vane's tip do not have the 2nd bending end who buckles downwards, go up and be provided with the honeycomb duct between stirring vane and the main stirring vane, be provided with flow guide disc between main stirring vane and the lower stirring vane, be located main stirring vane and be provided with supersonic generator down between the stirring vane, the upper portion outlet pipe and the vacuum suction pump of sedimentation tank body are connected, and the guide duct and the fan of its lower part lateral wall are connected.

Description

Penetrate the mudpan of separation in ultrasonic wave based on air bubbles dispersion

Technical field

The utility model relates to technical field of environment protection equipment, particularly mudpan.

Background technology

Sludge water in sedimentation basin generally needs to carry out pulverization process, the mud pulverized after filtering is discharged from the bottom of sedimentation basin, water after purification is discharged from the top of sedimentation basin. existing sedimentation basin, the central rotating shaft arranged is provided with stirring piece, the upper end of rotating shaft is driven by motor, under the rotation of stirring piece, mud is pulverized, reduce the existence of large clod.Because stirring piece is only arranged on central rotating shaft, be difficult to stir in sedimentation basin near the mud of its inwall, thus need long-time stirring could blend mud completely, its operating efficiency is lower.

Utility model content

The applicant is for the above-mentioned shortcoming of prior art, carry out studying and improving, provide a kind of mudpan penetrating separation based on air bubbles dispersion in ultrasonic wave, it adopts staggered stirring structure, what substantially increase mud blends efficiency and effect, shortens the sedimentation time.

In order to solve the problem, the utility model adopts following scheme:

A kind of mudpan penetrating separation based on air bubbles dispersion in ultrasonic wave, comprise sedimentation basin body, the center of sedimentation basin body is provided with rotating shaft, the upper end of rotating shaft is driven by motor, motor is arranged at the outside of sedimentation basin body, the rotating shaft being arranged in sedimentation basin body is provided with into water distribution plate and main stirring vane, water inlet distribution plate is connected with water inlet pipe and with the aqueduct stretching into sedimentation basin body bottom portion, the inwall of described sedimentation basin body is provided with the upper stirring vane and lower stirring vane that are positioned at the upper and lower both sides of main stirring vane, the end belt of main stirring vane has the first bending end of bending downwards, the end of upper stirring vane and lower stirring vane is respectively with the second bending end of bending downwards, be provided with mozzle between upper stirring vane and main stirring vane, be provided with flow guiding disc between main stirring vane and lower stirring vane, described mozzle is communicated with aqueduct, and the both sides up and down of mozzle are with through hole, and described flow guiding disc and rotating shaft are connected, between main stirring vane and lower stirring vane, be provided with supersonic generator, the transmitting terminal of supersonic generator is placed between the first bending end and the second bending end of lower stirring vane,

The top outlet pipe of described sedimentation basin body is connected with vacuum water pump, and the lower sides of sedimentation basin body is with guide duct, and guide duct is connected with blower fan.

Further improvement as technique scheme:

Described main stirring vane is with the first through pod apertures, and described upper stirring vane and lower stirring vane are respectively with the second pod apertures.

The oriented water conservancy diversion bending tube away from the bending of sedimentation basin body central of lower end band of described aqueduct, the upside of water conservancy diversion bending tube is with through hole.

Technique effect of the present utility model is:

In the utility model, flow guiding disc, main stirring vane are staggered with upper stirring vane and lower stirring vane the combining structure arranged respectively, penetrate isolation technics and combine, realize mud fast-crushing with ultrasonic wave; The flow-guiding structure that mozzle combines with water conservancy diversion bending tube, realizes the upper and lower two-layer dispersion of sludge water content and enters in sedimentation basin body, avoids concentrating entering; On main stirring vane, upper stirring vane and lower stirring vane with pod apertures, the bending end up or down that its end is arranged, realizes reducing the pressure of mud when stirring mud, reduces to stir resistance, is beneficial to dispersion of being kicked up by mud, raising mixing effect; The utility model is also used in the mode producing bubble bottom sedimentation basin, auxiliary to mud dispersion, raises the efficiency.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model.

In figure: 1, sedimentation basin body; 2, rotating shaft; 3, motor; 4, water inlet distribution plate; 5, main stirring vane; 51, the first bending end; 6, aqueduct; 61, water conservancy diversion bending tube; 7, upper stirring vane; 8, lower stirring vane; 9, mozzle; 10, the first pod apertures; 11, the second pod apertures; 12, water inlet pipe; 13, flow guiding disc; 14, supersonic generator; 141, transmitting terminal; 15, the second bending end; 16, blower fan; 17, guide duct; 18, vacuum water pump; 19, outlet pipe.

Detailed description of the invention

Below in conjunction with accompanying drawing, detailed description of the invention of the present utility model is described further.

As shown in Figure 1, the mudpan penetrating separation based on air bubbles dispersion in ultrasonic wave of the present embodiment, comprise sedimentation basin body 1, the center of sedimentation basin body 1 is provided with rotating shaft 2, the upper end of rotating shaft 2 is driven by motor 3, motor 3 is arranged at the outside of sedimentation basin body 1, the rotating shaft 2 being arranged in sedimentation basin body 1 is provided with into water distribution plate 4 and main stirring vane 5, water inlet distribution plate 4 is connected with water inlet pipe 12 and with the aqueduct 6 stretched into bottom sedimentation basin body 1, the inwall of sedimentation basin body 1 is provided with the upper stirring vane 7 and lower stirring vane 8 that are positioned at main stirring vane about 5 both sides, the end belt of main stirring vane 5 has the first bending end 51 of bending downwards, the end of upper stirring vane 7 and lower stirring vane 8 is respectively with the second bending end 15 of bending downwards, be provided with mozzle 9 between upper stirring vane 7 and main stirring vane 5, be provided with flow guiding disc 13 between main stirring vane 5 and lower stirring vane 8, mozzle 9 is communicated with aqueduct 6, and the both sides up and down of mozzle 9 are with through hole, and flow guiding disc 13 and rotating shaft 2 are connected, between main stirring vane 5 and lower stirring vane 8, be provided with supersonic generator 14, the transmitting terminal 141 of supersonic generator 14 is placed between the first bending end 51 and the second bending end 15 of lower stirring vane 8.The transmitting terminal 141 upwards bending of supersonic generator 14, the ultrasonic wave that supersonic generator 14 is launched upwards penetrates mud, combines, realizes mud fast-crushing, avoid stirring vane adheres to mud with stirring vane, reduces to stir resistance.

Discharge smoothly to accelerate the water after sedimentation and filtration, the top outlet pipe 19 of sedimentation basin body 1 is connected with vacuum water pump 18, under the swabbing action of vacuum water pump 18, realizes discharging fast smoothly of current; Meanwhile, the lower sides of sedimentation basin body 1 is with guide duct 17, and guide duct 17 is connected with blower fan 16.Air is directed in sedimentation basin body 1 by blower fan 16, produces bubble upwards bottom it, and bubble can prevent mud to be attached on stirring vane, and by mud fluffy, can improve the mixing effect of stirring vane.

Mozzle 9 is connected to the middle part of aqueduct 6, for being derived to both sides at the middle part of sludge water from aqueduct 6; The oriented water conservancy diversion bending tube 61 away from sedimentation basin body 1 center bending of lower end band of aqueduct 6, the upside of water conservancy diversion bending tube 61 is with through hole.Mozzle 9 combines with water conservancy diversion bending tube 61, realizes the upper and lower two-layer dispersion of sludge water content and enters in sedimentation basin body 1.

In the utility model, flow guiding disc 13 is followed rotating shaft 2 and is rotated, and for also and between stirring vane producing certain extruding force to mud water conservancy diversion, being beneficial to mud and blending.

Further, main stirring vane 5 with the first through pod apertures 10, its outer end downward bending; Upper stirring vane 7 and lower stirring vane 8 are respectively with the second pod apertures 11, and the outer end of upper stirring vane 7 and the outer end of lower stirring vane 8 are respectively to upper bending.

In the utility model, motor 3 drives rotating shaft 2 to rotate, and rotating shaft 2 drives main stirring vane 5 to stir in sedimentation basin body 1, and flow guiding disc 13 rotates thereupon simultaneously; Flow guiding disc 13, main stirring vane 5 are staggered with upper stirring vane 7 and lower stirring vane 8 respectively and arrange, and are beneficial to and carry out fast-crushing to mud; On main stirring vane 5, upper stirring vane 7 and lower stirring vane 8 with pod apertures, reduce the pressure of mud when realizing stirring mud, reduce to stir resistance; The bending end up or down that main stirring vane 5, upper stirring vane 7 and lower stirring vane 8 end are arranged, is beneficial to dispersion of being kicked up by mud, reduces stirring resistance equally, raising mixing effect.

Above illustrated embodiment is better embodiment of the present utility model, only be used for conveniently the utility model being described, not any pro forma restriction is done to the utility model, have in any art and usually know the knowledgeable, if do not depart from the utility model carry in the scope of technical characteristic, utilize the utility model disclose the Equivalent embodiments changed or modify in the done local of technology contents, and do not depart from technical characteristic content of the present utility model, all still belong in the scope of the utility model technical characteristic.

Claims (3)

1. one kind penetrates the mudpan of separation in ultrasonic wave based on air bubbles dispersion, comprise sedimentation basin body (1), the center of sedimentation basin body (1) is provided with rotating shaft (2), the upper end of rotating shaft (2) is driven by motor (3), motor (3) is arranged at the outside of sedimentation basin body (1), the rotating shaft (2) being arranged in sedimentation basin body (1) is provided with into water distribution plate (4) and main stirring vane (5), water inlet distribution plate (4) is connected with water inlet pipe (12) and with the aqueduct (6) stretching into sedimentation basin body (1) bottom, it is characterized in that: the inwall of described sedimentation basin body (1) is provided with the upper stirring vane (7) and lower stirring vane (8) that are positioned at the upper and lower both sides of main stirring vane (5), the end belt of main stirring vane (5) has the first bending end (51) of bending downwards, the end of upper stirring vane (7) and lower stirring vane (8) is respectively with the second bending end (15) of bending downwards, mozzle (9) is provided with between upper stirring vane (7) and main stirring vane (5), flow guiding disc (13) is provided with between main stirring vane (5) and lower stirring vane (8), described mozzle (9) is communicated with aqueduct (6), the both sides up and down of mozzle (9) are with through hole, and described flow guiding disc (13) and rotating shaft (2) are connected, be positioned between main stirring vane (5) and lower stirring vane (8) and be provided with supersonic generator (14), the transmitting terminal (141) of supersonic generator (14) is placed between the first bending end (51) and the second bending end (15) of lower stirring vane (8),

The top outlet pipe (19) of described sedimentation basin body (1) is connected with vacuum water pump (18), the lower sides of sedimentation basin body (1) is with guide duct (17), and guide duct (17) is connected with blower fan (16).

2. according to the mudpan penetrating separation based on air bubbles dispersion in ultrasonic wave according to claim 1, it is characterized in that: described main stirring vane (5) is with through the first pod apertures (10), and described upper stirring vane (7) and lower stirring vane (8) are respectively with the second pod apertures (11).

3. according to the mudpan penetrating separation based on air bubbles dispersion in ultrasonic wave according to claim 1, it is characterized in that: the oriented water conservancy diversion bending tube (61) away from sedimentation basin body (1) center bending of lower end band of described aqueduct (6), the upside of water conservancy diversion bending tube (61) is with through hole.