CN212166909U - Double-venturi pneumatic wet dust removal system - Google Patents

Double-venturi pneumatic wet dust removal system Download PDF

Info

Publication number
CN212166909U
CN212166909U CN202020532549.6U CN202020532549U CN212166909U CN 212166909 U CN212166909 U CN 212166909U CN 202020532549 U CN202020532549 U CN 202020532549U CN 212166909 U CN212166909 U CN 212166909U
Authority
CN
China
Prior art keywords
dust
venturi
mixing chamber
pipe
fan
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Active
Application number
CN202020532549.6U
Other languages
Chinese (zh)
Inventor
张正均
苏朋
刘辉
牛卫军
张进
陈闻
吴江元
张珂源
苏风青
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Shandong Juhengyuan Environmental Protection Technology Co ltd
Original Assignee
Shandong Juhengyuan Environmental Protection Technology Co ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Shandong Juhengyuan Environmental Protection Technology Co ltd filed Critical Shandong Juhengyuan Environmental Protection Technology Co ltd
Priority to CN202020532549.6U priority Critical patent/CN212166909U/en
Application granted granted Critical
Publication of CN212166909U publication Critical patent/CN212166909U/en
Active legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Images

Landscapes

  • Separation Of Particles Using Liquids (AREA)

Abstract

A double-venturi type pneumatic wet dust removal system comprises a dust collector, a dust controller, a dust conveying pipe, a venturi pneumatic fan, a venturi inertial dust removal chamber, a three-state separator and an atomized dust mixing chamber. The dust collector be connected with the drilling rod exit of dust sediment controller, the bottom of dust sediment controller is provided with toper atomizer, the top of dust sediment controller be connected with dust pipeline through reducing elbow, dust pipeline is connected with the pneumatic fan of venturi, the venturi fan be connected with the atomizing dust mixing chamber, the atomizing dust mixing chamber is connected with venturi inertia clean room. A pneumatic wet process dust pelletizing system of two venturi types, its reasonable in design, convenient to use not only can improve the mixing efficiency of dust and water smoke, reduces water yield and air consumption, but also can improve the dust absorption volume, improves dust collection efficiency, especially improves the dust collection efficiency of respiratory dust more effectively.

Description

Double-venturi pneumatic wet dust removal system
Technical Field
The utility model relates to a colliery is ventilation dust collecting equipment in the pit especially relates to a pneumatic wet dedusting system of two venturi types.
Background
The coal mine gas extraction is a main means for solving the problem of large gas emission of a mine and eliminating the coal seam outburst danger. Along with the increase of the mining depth of a mine, the ground stress borne by a coal seam is increased, hole collapse is more and more obvious in the process of drilling by adopting a slag discharging process, the phenomenon of spraying holes is more and more, accidents are easily caused, accumulated water in the holes is not easy to discharge, the problem of water blockage is extremely prominent, and the gas extraction effect is seriously influenced. More and more mines are drilled by selecting a dry drilling process, so that the conditions of hole collapse and orifice spraying are reduced, and cleaning liquid is prevented from flowing into the drilled holes during drilling construction. The dry drilling generally adopts compressed air to remove slag, a large amount of coal slag and coal dust are blown out of a hole along with compressed air in the construction process, so that the dust concentration of a drilling site is seriously exceeded, the body health of construction personnel is influenced, and the danger of dust explosion is brought; meanwhile, the dust-containing gas sprayed from the drill hole is accompanied by high-concentration gas, so that the risk of explosion accidents is caused. Coal mine safety regulations prohibit the use of motors for power or fans with rotating impellers that produce frictional sparks to draw dust laden gases.
The mining dust removal device is indispensable in dry drilling places and is suitable for dust removal during dry drilling of various drill holes. At present, dust is generally reduced by means of an orifice spray device, a drilling wet dust collector, or the like, and a foam dust collector based on the foam dust removal principle is partially used. The dust removal mode has the following defects:
1. the orifice dust remover is mainly designed in an integrated manner, namely a dust hood, a negative pressure skeleton air duct, a dust removal fan, a spraying structure, a mixing chamber, a dust removal dehydration structure and the like are adopted. The dust is conveyed to a dust removal device through a pipeline under negative pressure, which is a common method at present, but because the space of a coal mine underground drilling field is narrow and the equipment is numerous, a dust removal fan can be placed at a place far away from a drilling hole due to the volume problem, the method increases the length of a skeleton air duct and the resistance of a dust removal system, the dust absorption amount is reduced under the same condition, and the dust removal effect is reduced; in addition, the pipeline is too long, the wind speed is gradually reduced, and dust is easy to settle in the pipeline, so that the problem of pipe blockage is caused.
2. The orifice dust collector mostly adopts a single venturi structure, air runs at a high speed in a venturi throat pipe, a large negative pressure is formed behind the air, a dust collection effect is generated, and most dust is mixed with spray in the venturi throat pipe. In order to have a sufficiently large underpressure, it must be ensured that the gas velocity in the throat must not fall below 180 m/s and that the throat cannot be too long (too long a resistance increases, the volume of the precipitator increases, which is unacceptable). Because the spray is combined with the dust in a short-distance and rapid state, the condensation probability is low, and the dust is not easy to remove, especially fine dust.
3. Most manufacturers usually solve the two defects by increasing the spraying amount, the water amount is increased, the dehydration process is incomplete, the sewage discharge amount of a drilling site is increased accordingly, and potential safety hazards exist.
4. The wind speed is changed as required in the whole dust removing process, the wind speed is as fast as possible in the dust removing process to prevent dust from settling, but the wind speed cannot be too fast, and the resistance of a system can be increased due to the too fast wind speed. The air speed at the throat of the venturi fan needs to be as fast as possible, and the subsonic speed can be generally achieved so as to generate enough negative pressure and absorb more dust. The running speed of the dust-containing gas in the atomized dust mixing chamber is not too fast so as to ensure that the dust is fully combined with the water mist, and the key of wet dust removal is that the dust is combined with the water mist for condensation. Centrifugal dehydration is adopted in the dehydration process, and in order to ensure the dehydration efficiency, the wind speed should be more than 80 m/s. The degree of resolution of this physical conflict determines the overall efficiency of the precipitator, which is not addressed by the prior art precipitators.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to overcome prior art's weak point, provide a pneumatic wet dedusting system of two venturi tube formulas, its reasonable in design, convenient to use not only can improve the mixing efficiency of dust and water smoke, reduces water yield and air consumption, but also can improve the dust absorption volume, improves dust collection efficiency, and especially the dust collection efficiency who improves respiratory dust is more effective.
A pneumatic wet dedusting system of two venturi types, including dirt sediment collector, dirt sediment controller, dust conveyer pipe, the pneumatic fan of venturi, atomizing dust mixing chamber, venturi inertial dust removal room and three-state separator. The dust collector be connected with the drilling rod exit of dust sediment controller, the bottom of dust sediment controller is provided with toper atomizer, the top of dust sediment controller be connected with dust pipeline through reducing elbow, dust pipeline is connected with venturi pneumatic fan, venturi pneumatic fan be connected with the atomizing dust mixing chamber, the atomizing dust mixing chamber is connected with venturi inertia clean room.
The venturi pneumatic fan comprises a fan reducing pipe, a fan throat pipe and a fan expanding pipe, wherein the wide opening end of the fan reducing pipe is connected with the dust conveying pipeline, the conical opening end of the fan reducing pipe is connected with the fan throat pipe, a high-pressure gas annular cavity and a circular seam injection nozzle are arranged in the fan throat pipe, the fan throat pipe is connected with the fan expanding pipe, the conical opening end of the fan expanding pipe is connected with the fan throat pipe, and the wide opening end of the fan expanding pipe is connected with the atomized dust mixing chamber.
The venturi inertial dust-removing chamber comprises a dust-removing reducing pipe, a throat accelerating mixing chamber and a dust-removing gradually-expanding pipe, wherein the wide-mouth end of the dust-removing reducing pipe is connected with the atomized dust mixing chamber, the conical-mouth end of the dust-removing reducing pipe is connected with the throat accelerating mixing chamber, the throat accelerating mixing chamber is connected with the dust-removing gradually-expanding pipe, the conical-mouth end of the dust-removing gradually-expanding pipe is connected with the throat accelerating mixing chamber, and the wide-mouth end of the dust-removing gradually-expanding pipe is connected with a tri-state.
Furthermore, the dust controller comprises an upper box body, a middle box body and a lower box body which are sequentially connected, the upper box body is connected with the middle box body through a connecting hinge, and an upper spray hole preventing baffle, an upper dust sealing sleeve, a lower spray hole preventing baffle, a lower dust sealing sleeve and a dust filter screen are arranged inside the upper box body and the middle box body.
Furthermore, the lower box body is internally provided with a water curtain dust control nozzle, and the bottom end of the lower box body is provided with a slag falling port.
Furthermore, the dust collector comprises a dust sealing conical pipe and a dust collecting cylindrical copper pipe, the outer diameter of the dust collecting cylindrical copper pipe is matched with the inner diameter of the drilled hole, the wide opening end of the dust sealing conical pipe is slightly larger than the drilled hole and can be partially inserted into the drilled hole, so that the inner wall of the drilled hole is tightly attached to the outer wall of the dust sealing conical pipe.
Further, the inside of atomizing dust mixing chamber be provided with spray nozzle, annular atomizer and the vertical longitude and latitude chord of placing move the filter.
Furthermore, the tri-state separator consists of a centrifugal fan blade and a rotational flow dehydration barrel, the rotational flow dehydration barrel consists of a separation cover and a sewage discharge outlet, and the separation cover consists of a conical rotational flow cover and a cylindrical separation cover.
A pneumatic wet process dust pelletizing system of two venturi types, its reasonable in design, convenient to use not only can improve the mixing efficiency of dust and water smoke, reduces water yield and air consumption, but also can improve the dust absorption volume, improves dust collection efficiency, especially improves the dust collection efficiency of respiratory dust more effectively.
Drawings
Fig. 1 is a schematic structural diagram of a dual-venturi pneumatic wet dust removal system according to the present invention.
Figure 2 is a schematic structural diagram of a venturi pneumatic fan of a double venturi pneumatic wet dust removal system of the utility model.
Fig. 3 is a schematic structural diagram of a draught fan throat of the double-venturi pneumatic wet dust removal system of the utility model.
Figure 4 is a schematic structural diagram of a venturi inertial dust removal chamber of a double venturi pneumatic wet dust removal system of the utility model.
Fig. 5 is a schematic structural diagram of a dust controller of a dual venturi pneumatic wet dedusting system.
Fig. 6 is a schematic structural diagram of a tri-state separator of a dual venturi pneumatic wet dust removal system according to the present invention.
Fig. 7 is a schematic structural diagram of a dust collector of a dual venturi pneumatic wet dust removal system.
Figure 8 is a schematic structural diagram of a longitude and latitude chord movable filter plate of a double-venturi pneumatic wet dust removal system.
Fig. 9 is a schematic view of a local structure of a warp and weft chord movable filter plate of the double-venturi pneumatic wet dust removal system.
1-dust collector 101-dust sealing conical pipe 102-dust collecting cylindrical copper pipe 2-dust controller 201-upper box 202-middle box 203-lower box 204-upper spray-proof baffle 205-upper dust sealing sleeve 206-lower spray-proof baffle 207-lower dust sealing sleeve 208-slag outlet 209-water curtain dust control nozzle 210-dust filter net 3-reducing elbow 4-dust delivery pipe 5-venturi pneumatic fan 501-fan reducing pipe 502-fan throat 503-high pressure gas annular cavity 504-annular seam injection nozzle 505-fan reducing pipe 6-venturi inertia dust removal chamber 601-dust removal reducing pipe 602-throat accelerating mixing chamber 603-dust removal reducing pipe 7-three-state separator 701-centrifugal fan blade 702-cyclone dewatering water tank 703-conical cyclone cover 704-cylindrical separation cover 705-sewage outlet 706-air outlet 707-air-water isolation cavity 8-atomized dust mixing chamber 801-atomized The nozzle 802-the annular atomizer 803-the longitude and latitude chord moving filter plate 804-the filter grid chord wire 805-the filter grid framework.
Detailed Description
Referring now to the drawings in the specification, in conjunction with specific embodiments, there is illustrated the following: a pneumatic wet dedusting system of two venturi types, including dirt sediment collector 1, dirt sediment controller 2, dust conveyer pipe 4, the pneumatic fan of venturi 5, venturi inertial dust removal chamber 6, three state separator 7 and atomizing dust mixing chamber 8. Dust collector 1 and dust controller 2's drilling rod exit be connected, dust controller 2's bottom is provided with toper atomizer, dust controller 2's top be connected with dust pipeline 4 through reducing elbow 3, dust pipeline 4 is connected with venturi pneumatic fan 5, venturi pneumatic fan 5 be connected with atomizing dust mixing chamber 8, atomizing dust mixing chamber 8 is connected with venturi inertial dust removal chamber 6.
The venturi pneumatic fan 5 comprises a fan reducing pipe 501, a fan throat 502 and a fan diverging pipe 505, wherein the wide-mouth end of the fan reducing pipe 501 is connected with 4 channels of the dust conveying pipe, the conical-mouth end of the fan reducing pipe 501 is connected with the fan throat 502, a high-pressure gas annular cavity 503 and a circular-seam injection nozzle 504 are arranged in the fan throat 502, the fan throat 502 is connected with the fan diverging pipe 505, the conical-mouth end of the fan diverging pipe 505 is connected with the fan throat 502, and the wide-mouth end of the fan diverging pipe 505 is connected with the atomized dust mixing chamber 8.
Preferably, the range of the gap of the circumferential injection nozzle 504 is recommended to be 0.04-0.25mm, the inner diameter of the fan throat 502 is phi 50 mm-phi 2100mm, the length of the fan throat 502 is about 0.6-2 times of the inner diameter, the diffusion angle beta of the fan divergent pipe 505 is 6-12 degrees, the outlet cross section area is 2-5 times of the cross section area of the fan throat 502, the contraction angle of the fan divergent pipe 501 is 45-60 degrees, and the inlet cross section area is 1.5-3 times of the cross section area of the fan throat 502.
Preferably, the sectional area of the atomized dust mixing chamber 8 is 2-4 times of the sectional area of the outlet of the fan divergent pipe 505, and the length of the atomized dust mixing chamber 8 is 2.5-0.6 times of the inner diameter thereof.
The venturi inertial dust removal chamber 6 comprises a dust removal reducing pipe 601, a throat accelerating mixing chamber 602 and a dust removal gradually expanding pipe 603, wherein the wide-mouth end of the dust removal reducing pipe 601 is connected with the atomized dust mixing chamber 8, the conical-mouth end of the dust removal reducing pipe is connected with the throat accelerating mixing chamber 602, the throat accelerating mixing chamber 602 is connected with the dust removal gradually expanding pipe 603, the conical-mouth end of the dust removal gradually expanding pipe 603 is connected with the throat accelerating mixing chamber 602, and the wide-mouth end of the dust removal gradually expanding pipe is connected with a tri-state separator 7.
Preferably, the inner diameter of the throat accelerating mixing chamber 602 is 3 to 1.5 times of the inner diameter of the fan throat 502, the length of the throat accelerating mixing chamber 602 is about 1.5 to 3 times of the inner diameter, the diffusion angle β of the dust removal gradually expanding pipe 603 is 10 to 20 °, and the contraction angle of the dust removal gradually expanding pipe 601 is 45 to 66 °.
Preferably, the cross-sectional area of the outlet of the dedusting divergent pipe 603 of the venturi inertial dedusting chamber 6 is 1.5 to 3 times of the cross-sectional area of the throat accelerating mixing chamber 602. The cross section of the inlet of the dust removal reducer 601 is equal to the cross section of the atomized dust mixing chamber 602, and the shape of the dust removal reducer is matched with that of the atomized dust mixing chamber.
The dust collector 1 and the dust controller 2 are matched with each other, and the dust is conveyed to the Venturi pneumatic fan 5 through the reducing elbow 3 and the dust conveying pipe 4. The dust and air are accelerated and transmitted to the fan throat 502 through the fan reducing pipe 501, the dust and air are transferred to the fan expanding pipe 505 after being mixed at high speed through the fan throat 502, the mixture of the dust and the air is accelerated and transmitted to the atomized dust mixing chamber 8 through the fan expanding pipe 505, and the dust and the water mist are mixed and transmitted to the venturi inertial dust removal chamber 6. The mixture of dust and water mist is accelerated by the dust removal reducing pipe 601, then is transmitted to the throat pipe acceleration mixing chamber 602 after being accelerated, is uniformly mixed in the throat pipe acceleration mixing chamber 602, then is transmitted to the dust removal gradually expanding pipe 603, is accelerated by the dust removal gradually expanding pipe 603, and is transmitted to the tri-state separator 7 for dehydration and separation after being accelerated.
The structure of the Venturi pneumatic fan 5 is the same as that of the Venturi tube of the Venturi inertial dust removal chamber 6, but the specification is different, the section of the Venturi throat of the Venturi inertial dust removal chamber 6 is larger, and the wind speed only needs to be controlled at a speed which is not too high. Overall, the larger the wind speed and water speed of the throat 502 of the venturi pneumatic fan 5 is, the better the suction force is. The wind speed of the atomized dust mixing chamber 8 is slow, the speed of the venturi inertial dust removal chamber 6 is fast, sufficient wind speed is provided for cyclone dehydration, and the requirement of kinetic energy is met.
Further, the dust controller 2 comprises an upper box 201, a middle box 202 and a lower box 203 which are connected in sequence, the upper box 201 and the middle box 202 are connected through a connecting hinge, and an upper blowout preventing hole baffle 204, an upper dust sealing sleeve 205, a lower blowout preventing hole baffle 206, a lower dust sealing sleeve 207 and a dust filter screen 210 are arranged in the upper box 201 and the middle box 202.
The upper blowout preventing hole baffle 204 and the lower blowout preventing hole baffle 206 are preferably provided with H62 copper plates, the copper plates are hard in texture and have certain strength, the copper plates are not easy to corrode in a wet environment underground, sparks cannot be generated even if a drill rod is occasionally rubbed with the copper plates, construction safety is guaranteed, a large amount of dust and gas are prevented from being sprayed outwards, and the effect of preventing spraying holes is achieved. The upper dust sealing sleeve 205 and the lower dust sealing sleeve 206 preferably recommend flame-retardant anti-static rubber plates which have strong plasticity and are tightly connected with the drill rod, and the outer end of the drill hole is sealed along the radial direction and the axial direction of the drill rod to prevent dust from escaping. The dust filter 210 prevents the large particle dust from being sucked into the dust remover due to the overlarge air volume injected by the venturi pneumatic fan 5.
Further, the inside of the lower box 203 is provided with a water curtain dust control nozzle 209 through a water pipe, and the bottom end of the lower box is provided with a slag falling port 208. The water curtain dust control nozzle 209 sprays a conical water curtain to wet dust slag and form a conical water curtain wall to prevent secondary dust emission.
Furthermore, the dust and slag collector 1 is fixedly connected with a dust sealing conical tube 101 and a dust collecting cylindrical copper tube 102, the outer diameter of the dust collecting cylindrical copper tube 102 is matched with the inner diameter of a drilled hole, the wide opening end of the dust sealing conical tube 101 is slightly larger than the drilled hole and can be partially inserted into the drilled hole, so that the inner wall of the drilled hole is tightly attached to the outer wall of the dust sealing conical tube 101, and the dust sealing effect is achieved. The cylindrical copper pipe 102 of collection dirt have good electric conductivity, the heat conductivity, it meets static, the spark takes place the possibility of exploding at drilling process to have reduced the gas, and copper pipe texture is hard moreover, difficult corruption in moist environment in the pit, simultaneously because the copper pipe have with drilling internal diameter assorted external diameter, make the copper pipe hug closely the drilling internal warp, prevent that gas, dust from leaking out between copper pipe and the drilling, have better sealed, also can not produce the spark if the drilling rod occasionally rubs with the copper pipe, guarantee construction safety.
Further, the inside of the atomized dust mixing chamber 8 is provided with a spray nozzle 801, an annular sprayer 802 and a vertically arranged longitude and latitude chord movable filter plate 803.
Further, the tri-state separator 7 is composed of a centrifugal fan blade 701 and a cyclone dewatering barrel 702, the cyclone dewatering barrel 702 is composed of a separating cover and a sewage draining outlet, and the separating cover is composed of a conical cyclone cover 703 and a cylindrical separating cover 704.
The dust-containing gas flowing at high speed enters the atomized dust mixing chamber 8, the speed is rapidly reduced, the atomized dust is generated through the atomizing nozzle 801 of the annular atomizer 802, a large amount of dust and water mist are wetted and condensed to form a large water mist dust group, and the fine dust is further wetted and condensed to form a large water mist dust group under the intercepting and swinging action of the filter grid plate string wires 804 when passing through the longitude and latitude string-moving filter plate 803.
The gas moving at high speed suddenly reduces the speed in the atomized dust mixing chamber 8, the speed is different from the speed of fog drops generated by spraying, the water fog and the dust are mutually sheared and fused, the time for combining the water fog and the dust is increased due to the reduction of the wind speed, the probability of combining the dust and the water fog is improved, and the dust removal efficiency is improved.
When the gas, dust, water mist and dust mixture enters the throat pipe accelerated mixing chamber 602 through the dust removal reducing pipe 601, the sectional area of the throat pipe accelerated mixing chamber 602 is far smaller than that of the atomized dust mixing chamber 8, so that the speed is increased, the quality and the speed of the gas, dust, water mist and dust mixture are different, and the dust and the water mist have the opportunity to be further moistened, mixed and condensed. When the mixture passes through the outlet of the dust removal gradually-expanding pipe 603, the speed is already increased to more than 120 m/s, and the requirement of dehydration and dust removal of the tri-state separator 7 is met.
The dust-containing gas is improved to the subsonic speed through the Venturi pneumatic fan 5, and can generate larger negative pressure after passing through the fan reducing pipe 501, so that more dust-containing air is sucked, and the dust collection efficiency is improved. The speed of the dust-containing gas passing through the atomized dust mixing chamber 8 is quickly reduced, time is provided for fully combining dust and water mist, and the key for improving the wet dust removal efficiency is that the dust and the water mist are fully combined. The dust removal efficiency can be greatly improved. The dust mixture and gas are decelerated and accelerated through the atomized dust mixing chamber 8 and the Venturi inertial dust removal chamber 6, the combination probability of dust and water mist is increased, the dust and the water mist are fully combined, the wind speed of the tri-state separator 7 during rotation inertial dehydration can be guaranteed, the requirements of the wind speed of each part can be met by optimizing the structure of each part, the dust-collecting capacity is maximum under the same air consumption and the same air pressure, the dust and the water mist are more fully mixed, the tri-state separator 7 is more ideal in dehydration, the system resistance is smaller at the moment, and the novel efficient energy-saving air-injection wet orifice dust collector is a new generation of air-injection wet orifice dust collector.
The basic principle of the venturi pneumatic fan 5 is the "hole effect", that is, compressed air fed from an external compressed air source enters a high-pressure gas annular cavity 503 through a compressed gas inlet valve, expands in the high-pressure gas annular cavity 503 to increase the flow rate, and then jets into an inner cavity of a fan gradually-expanding pipe 505 at a high speed through an annular seam jet nozzle 504, so that negative pressure is formed in the inner cavity of a fan throat 502, and fine dust in the sediment controller 2 is sucked into the atomized dust mixing chamber 8 and the venturi inertial dust removal chamber 6 through the dust conveying pipe 4 and the reducing elbow 3. The tail gas is discharged through an exhaust port 706 after being separated and dehydrated by the tri-state separator 7, and the dust-containing sewage flows into a designated position through a sewage discharge port 705 of the tri-state separator 7. The purpose of purifying dust on site is achieved, the whole process does not use electricity, and the device has no rotating part, simple structure, convenient operation, safety and reliability.
"a pneumatic wet dedusting system of two venturi" working process as follows: compressed gas enters a high-pressure gas annular cavity 503 through a compressed gas inlet valve, then is sprayed out at high speed through an annular seam injection nozzle 504 communicated with the high-pressure gas annular cavity 503, a vacuum environment is formed at a fan throat 502 at the outlet of the annular seam injection nozzle 504, dust-containing gas of the dust controller 2 is injected and mixed with injection gas through a dust conveying pipe 4 and a reducing elbow 3, and then is conveyed to an atomized dust mixing chamber 8 and a Venturi inertial dust removal chamber 6 through a fan gradually-expanding pipe 505. The suction capacity of the Venturi pneumatic fan 5 is strong, the efficiency is high, the used ejection gas is ordinary compressed air, the pressure of the ejection gas is larger than 0.12Mpa, the gap size of the annular gap ejection nozzle 504 of the Venturi pneumatic fan 5 is adjustable, the pressure range of the ejection gas is wide, the function of sucking different dust-containing gas flow is realized by adjusting the gap size of the annular gap ejection nozzle 504 of the Venturi pneumatic fan 5, the gap size of the annular gap ejection nozzle 504 and the inner diameter size of the fan throat 502 can be reasonably designed according to the size and resistance of the ejection air quantity, and accordingly the ejection efficiency is highest.
Dust controller 2 in the fine dust be inhaled to atomizing dust mixing chamber 8 and venturi inertia clean room 6 under drawing gaseous drive, wherein the large granule sediment is blockked and falls by falling the sediment mouth 208 under the action of gravity at dust filter screen 210, pressure water forms the toper spraying through water curtain pneumatic valve through water curtain accuse dirt nozzle 209, prevents the secondary raise dust.
The dust-containing gas injected enters the atomized dust mixing chamber 8 and the venturi inertial dust removal chamber 6, and then is sprayed with the mist generated by the annular sprayer 802 in the atomized dust mixing chamber 8, and the mist and dust mixture is formed by wetting, condensing and gathering through the intercepting and swinging work of the longitude and latitude chord movable filter plate 803. The mixed gas is further mixed and condensed in the throat accelerating mixing chamber 602. The fully mixed dust water mist mixture enters a tri-state separator 7 at a certain speed, and the mixed gas changes from longitudinal movement into rotary forward movement through a centrifugal fan blade 701. The dust and the water mist are further fused and condensed in the process of changing the running direction. Under the action of centrifugal force, the mixture of dust and water mist is thrown to the inner wall of the cyclone dewatering barrel 702, the water mist and dust mixture is separated from gas by the conical cyclone cover 703 and the cylindrical separating cover 704, the water mist and dust mixture is collected by the gas-water separating cavity 707 and then discharged through the sewage discharge port 705, and the separated gas is discharged through the inner cavity of the cylindrical separating cover 704 through the exhaust port 706. The purpose of on-site purification is achieved, no electricity is used in the whole process, no rotating part is needed, the structure is simple, the operation is convenient, and the device is safe and reliable.
A pneumatic wet process dust pelletizing system of two venturi types, its reasonable in design, convenient to use not only can improve the mixing efficiency of dust and water smoke, reduces water yield and air consumption, but also can improve the dust absorption volume, improves dust collection efficiency, especially improves the dust collection efficiency of respiratory dust more effectively.

Claims (6)

1. The utility model provides a pneumatic wet dedusting system of two venturi formulas, includes dirt sediment collector (1), dirt sediment controller (2), dust conveyer pipe (4), venturi pneumatic fan (5), venturi inertial dust removal room (6), three-state separator (7) and atomizing dust mixing chamber (8), its characterized in that: the dust collector (1) is connected with the outlet of a drill rod of the dust controller (2), the bottom of the dust controller (2) is provided with a conical spraying device, the top of the dust controller (2) is connected with a dust conveying pipeline (4) through a reducing elbow (3), the dust conveying pipeline (4) is connected with a Venturi pneumatic fan (5), the Venturi pneumatic fan (5) is connected with an atomized dust mixing chamber (8), and the atomized dust mixing chamber (8) is connected with a Venturi inertial dust removal chamber (6);
venturi inertial dust removal room (6) including dust removal reducer (601), venturi accelerating mixing chamber (602) and dust removal gradually-expanding pipe (603), the wide mouth end of dust removal reducer (601) is connected with atomizing dust mixing chamber (8), its bevel connection has venturi accelerating mixing chamber (602), venturi accelerating mixing chamber (602) are connected with dust removal gradually-expanding pipe (603), the bevel connection of dust removal gradually-expanding pipe (603) with the venturi accelerating mixing chamber (602) be connected, its wide mouth end is connected with tristate separator (7).
2. The dual venturi pneumatic wet dedusting system of claim 1, wherein: the dust and slag controller (2) comprises an upper box body (201), a middle box body (202) and a lower box body (203) which are sequentially connected, the upper box body (201) is connected with the middle box body (202) through a connecting hinge, and an upper blowout prevention hole baffle plate (204), an upper dust sealing sleeve (205), a lower blowout prevention hole baffle plate (206), a lower dust sealing sleeve (207) and a dust and slag filtering net (210) are arranged inside the dust and slag controller.
3. The dual venturi pneumatic wet dedusting system of claim 2, wherein: the interior of the lower box body (203) is provided with a water curtain dust control nozzle (209) through a water pipe, and the bottom end of the lower box body is provided with a slag falling port (208).
4. The dual venturi pneumatic wet dedusting system of claim 1, wherein: the dust and slag collector (1) comprises a dust sealing conical pipe (101) and a dust collecting cylindrical copper pipe (102), the outer diameter of the dust collecting cylindrical copper pipe (102) is matched with the inner diameter of a drilled hole, the wide opening end of the dust sealing conical pipe (101) is slightly larger than the drilled hole and can be partially inserted into the drilled hole, so that the inner wall of the drilled hole is tightly attached to the outer wall of the dust sealing conical pipe (101).
5. The dual venturi pneumatic wet dedusting system of claim 1, wherein: the inside of atomizing dust mixing chamber (8) be provided with spray nozzle (801), annular atomizer (802) and the longitude and latitude chord of vertical placing move filter plate (803).
6. The dual venturi pneumatic wet dedusting system of claim 1, wherein: the tri-state separator (7) is composed of a centrifugal fan blade (701) and a cyclone dewatering barrel (702), the cyclone dewatering barrel (702) is composed of a separation cover and a sewage discharge outlet, and the separation cover is composed of a conical cyclone cover (703) and a cylindrical separation cover (704).
CN202020532549.6U 2020-04-13 2020-04-13 Double-venturi pneumatic wet dust removal system Active CN212166909U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202020532549.6U CN212166909U (en) 2020-04-13 2020-04-13 Double-venturi pneumatic wet dust removal system

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202020532549.6U CN212166909U (en) 2020-04-13 2020-04-13 Double-venturi pneumatic wet dust removal system

Publications (1)

Publication Number Publication Date
CN212166909U true CN212166909U (en) 2020-12-18

Family

ID=73769844

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202020532549.6U Active CN212166909U (en) 2020-04-13 2020-04-13 Double-venturi pneumatic wet dust removal system

Country Status (1)

Country Link
CN (1) CN212166909U (en)

Similar Documents

Publication Publication Date Title
CN111298584B (en) Double-venturi pneumatic wet dust removal system
CN201818320U (en) Horizontal turbulence ball packing dust collector for mine
CN111878153B (en) Coal mine dust removal system and dust removal method
CN104492208B (en) A kind of wet type blower fan foam bumpy flow dedusting treater
CN106582121A (en) Tube bundle type dedusting and demisting device with liquid collection function
CN206730758U (en) Negative pressure dust removing device
CN208711342U (en) A kind of Wet type cyclone cleaner
CN111535761A (en) Cyclone foam integrated drilling and dust removing device and use method thereof
CN201891427U (en) Dust removal system for pneumatic dry drilling
CN203655341U (en) Novel wet-type mining cyclone dust remover
CN204233925U (en) A kind of foam bumpy flow blower fan dedusting treater
CN113648759A (en) Intelligent wet dust removal equipment
CN104606966A (en) Driving spiral cyclone dust remover
CN104453979B (en) The remodeling method of underground coal mine negative pressure-pumping dust collecting process
CN203017946U (en) Wet-type dust remover
CN206454382U (en) A kind of bundled tube dedusting demister collected with liquid
CN101963065A (en) Compressed air slag discharge drilling deduster for use under coal mines
CN212166909U (en) Double-venturi pneumatic wet dust removal system
CN205164414U (en) Wet -type whirlwind water curtain dust collector
CN106862220A (en) A kind of explosive place powder dog-house is calmed the anger low pressure water jet dust suction dust arrester
CN209271072U (en) A kind of wet scrubber
CN204447559U (en) Initiatively spiral cyclone dust collector
CN115263296A (en) Efficient and safe dust removal system for mine and operation method
CN202157821U (en) Drilling and slagging deduster for down-hole coal mine
CN201738943U (en) Rock lane and mixed coal rock lane wet type dust remover

Legal Events

Date Code Title Description
GR01 Patent grant
GR01 Patent grant