CN204601909U - A kind of high-efficiency dust remover for industry - Google Patents

Abstract

A kind of high-efficiency dust remover for industry, comprise framework, feeding device, air-out apparatus, agitating device, inlet duct and water circle device, framework is provided with the first through hole, first screen pack, second through hole, third through-hole, second screen pack, hang plate, 3rd screen pack and liquid collecting bucket, feeding device comprises feed tube, fixed bar, first valve, 4th screen pack and tapping bucket, air-out apparatus comprises escape pipe and the first blower fan, agitating device comprises motor, first support, rotating shaft and rotating disk, inlet duct comprises air inlet pipe, second blower fan and the second valve, water circle device comprises Rose Box, filter, first drain pipe, second drain pipe, discharging tube and the first pipeline, hang plate is fixedly connected with the inner surface of framework, 3rd screen pack is fixedly connected with hang plate, liquid collecting bucket is fixedly connected with the inner surface of framework, the centre of liquid collecting bucket is provided with fourth hole.The utility model good dedusting effect, energy consumption is low, and maintenance cost is not high, is applicable to medium-sized and small enterprises and large enterprise.

Description

A kind of high-efficiency dust remover for industry

[technical field]

The utility model relates to dedusting technology field, particularly relates to a kind of high-efficiency dust remover for industry.

[background technology]

At present, industrial dust precipitator has a variety of, as cloth-bag type, electrostatic, cyclone type etc.But high, the viscosity of EGT of producing due to refractory material is large, the easy feature such as caking, makes raising efficiency of dust collection, reduction energy consumption becomes a difficult problem.Fiber bag precipitator efficiency of dust collection is high, but maintenance cost is high, and especially at refractories industry, dust easily lumps, and limits its application.Cyclone dust collector resistance is little, but efficiency of dust collection is low.Electrostatic precipitator efficiency of dust collection is high, but investment is large, and floor space is large, and energy consumption is high, and maintenance cost is high, inapplicable medium-sized and small enterprises.

Therefore, necessaryly a kind of new technical scheme that can effectively solve the problems of the technologies described above is provided.

[utility model content]

Main purpose of the present utility model is to provide a kind of high-efficiency dust remover for industry that can effectively solve the problems of the technologies described above.

To achieve these goals, the utility model adopts following technical scheme:

A kind of high-efficiency dust remover for industry, described high-efficiency dust remover for industry comprises framework, be positioned at the feeding device on the left of described framework, be positioned at the air-out apparatus above described framework, be positioned at the agitating device on the left of described air-out apparatus, the water circle device being positioned at the inlet duct on the left of described framework and being positioned on the right side of described framework, described framework is provided with the first through hole be located thereon on surface, be arranged at the first screen pack in described first through hole, be positioned at the second through hole at right surface, be positioned at third through-hole at left surface, be positioned at the second screen pack of framework inside, be positioned at the hang plate below described second screen pack, the liquid collecting bucket being arranged at the 3rd screen pack on described hang plate and being positioned at below described hang plate, described feeding device comprises feed tube, be arranged at the fixed bar on described feed tube, be positioned at the first valve below described fixed bar, the 4th screen pack being arranged at described feed tube inside and the tapping bucket be positioned at below described feed tube, described air-out apparatus comprises escape pipe and is arranged at the first blower fan on described escape pipe, and described agitating device comprises motor, be positioned at the first support on the left of described motor, the rotating disk being positioned at the rotating shaft below described motor and being positioned at below described rotating shaft, described inlet duct comprises air inlet pipe, the second valve being arranged at the second blower fan in described air inlet pipe and being arranged in described air inlet pipe, described water circle device comprises Rose Box, be positioned at the filter of described Rose Box, be positioned at the first drain pipe above described Rose Box, be positioned at the second drain pipe below described framework, be positioned at the discharging tube below described Rose Box and be positioned at the first pipeline on the right side of described Rose Box, described hang plate is round table-like, described hang plate is fixedly connected with the inner surface of described framework, described 3rd screen pack is fixedly connected with described hang plate, described liquid collecting bucket is round table-like, described liquid collecting bucket is fixedly connected with the inner surface of described framework, and the centre of described liquid collecting bucket is provided with fourth hole.

Described first screen pack is cylinder, and it is inner that described first screen pack is positioned at described first through hole.

Described second screen pack is cylinder, and described second screen pack is fixedly connected with the inner surface of described framework.

Described rotating shaft is cylinder, and the upper end of described rotating shaft is connected with described motor, and the lower surface of described rotating shaft is fixedly connected with the upper surface of described rotating disk.

Described rotating disk is cylinder, and the side of described rotating disk contacts with the inner surface of described framework, and described rotating disk is provided with the fifth hole running through its upper and lower surface, and described fifth hole comprises the upper end being positioned at top and the bottom being positioned at below.

Described Rose Box is cuboid, and described Rose Box is provided with the first open-work be positioned on upper surface and the second open-work be positioned on lower surface.

Described filter is cuboid, and the side of described filter is fixedly connected with the inner surface of described Rose Box.

Described feed tube is Z-shaped, and one end of described feed tube extends to the inside of described framework through the left surface of described framework.

Described tapping bucket is round table-like, and the lower surface of described tapping bucket is provided with some circular holes.

Described fixed bar is cuboid, and the right-hand member of described fixed bar is fixedly connected with the side of described framework.

Compared with prior art, the utility model has following beneficial effect: the utility model high-efficiency dust remover for industry structure is simple, and easy to use, floor space is little, can effectively purify the dust that industry produces simultaneously, prevent its contaminated environment, its inside is provided with water circulation system simultaneously, makes it possible to carry out continual purification to dust, good dedusting effect, its energy consumption is low simultaneously, and maintenance cost is not high, is applicable to medium-sized and small enterprises and large enterprise.

[accompanying drawing explanation]

Fig. 1 is the structural representation of the utility model high-efficiency dust remover for industry;

Fig. 2 is the partial enlarged drawing at the A position of the high-efficiency dust remover for industry of the utility model shown in Fig. 1.

[detailed description of the invention]

As shown in Figure 1, the utility model high-efficiency dust remover for industry water circle device 6 of comprising framework 1, being positioned at feeding device 2 on the left of described framework 1, being positioned at air-out apparatus 3 above described framework 1, being positioned at agitating device 4 on the left of described air-out apparatus 3, being positioned at the inlet duct 5 on the left of described framework 1 and being positioned on the right side of described framework 1.

As shown in Figure 1, described framework 1 is in cylinder, and described framework 1 is provided with the first through hole 11 be located thereon on surface, the first screen pack 12 be arranged in described first through hole 11, the liquid collecting bucket 19 that is positioned at the second through hole 13 at right surface, is positioned at third through-hole 14 at left surface, is positioned at the second screen pack 15 of framework 1 inside, is positioned at hang plate 17 below described second screen pack 15, is arranged at the 3rd screen pack 18 on described hang plate 17 and is positioned at below described hang plate 17.Described first through hole 11 is in cylindrical shape, and described first through hole 11 runs through the upper surface of described framework 1, and described first screen pack 12 is in cylinder, and described first screen pack 12 is positioned at described first through hole 11 inside and is fixedly connected with described framework 1.Described second through hole 13 is in cylindrical shape, and described second through hole 13 runs through the right surface of described framework 1.Described third through-hole 14 is in cylindrical shape, and described third through-hole 14 runs through the left surface of described framework 1.Described second screen pack 15 is in cylinder, and described second screen pack 15 horizontal positioned, described second screen pack 15 is fixedly connected with the inner surface of described framework 1.Described hang plate 17 is in round table-like, and described hang plate 17 is fixedly connected with the inner surface of described framework 1, the upper end of described hang plate 17 from the lower end of described hang plate 17 upwards and center extend to form.Described 3rd screen pack 18 is positioned at the top of described hang plate 17, and described 3rd screen pack 18 is fixedly connected with described hang plate 17, described 3rd screen pack 18 horizontal positioned.Described liquid collecting bucket 19 is in round table-like, and described liquid collecting bucket 19 is positioned at the below of described third through-hole 14, and described liquid collecting bucket 19 is fixedly connected with the inner surface of described framework 1.The centre of described liquid collecting bucket 19 is provided with fourth hole 191, and described fourth hole 191 is in cylindrical shape, and described fourth hole 191 runs through the upper and lower surface of described liquid collecting bucket 19.

As shown in Figures 1 and 2, described feeding device 2 comprises feed tube 21, the fixed bar 22 be arranged on described feed tube 21, is positioned at the first valve 23 below described fixed bar 22, the 4th screen pack 24 being arranged at described feed tube 21 inside and the tapping bucket 25 be positioned at below described feed tube 21.Described feed tube 21 is in Z-shaped, one end of described feed tube 21 extends to the inside of described framework 1 through the left surface of described framework 1, described tapping bucket 25 is in round table-like, described tapping bucket 25 is one-body molded with described feed tube 21, the inside of described tapping bucket 25 communicates with the inside of described feed tube 21, the lower surface of described tapping bucket 25 is provided with some circular holes 251, and the liquid in described tapping bucket 25 is entered in framework 1 by described circular hole 251.Described fixed bar 22 is in cuboid, and the right-hand member of described fixed bar 22 is fixedly connected with the side of described framework 1, described fixed bar 22 horizontal positioned, and described feed tube 21 runs through the upper and lower surface of described fixed bar 22 and is fixedly connected with described fixed bar 22.Described first valve 23 is arranged on described feed tube 21, and described first valve 23 is for controlling the flow of liquid in described feed tube 21.Described 4th screen pack 24 is in cylinder, and described 4th screen pack 24 is fixedly connected with the inner surface of described feed tube 21.

As shown in Figure 1, described air-out apparatus 3 comprises escape pipe 31 and is arranged at the first blower fan 32 on described escape pipe 31, described escape pipe 31 is in Z-shaped, one end of described escape pipe 31 is aimed at described first through hole 11 and is fixedly connected with the upper surface of described framework 1, the inside of described escape pipe 31 is communicated with the inside of described framework 1, and described first blower fan 32 is for being drawn into the inside of escape pipe 31 by the gas of framework 1 inside.

As shown in Figures 1 and 2, described agitating device 4 rotating disk 44 that comprises motor 42, be positioned at the first support 41 on the left of described motor 42, be positioned at the rotating shaft 43 below described motor 42 and be positioned at below described rotating shaft 43.Described first support 41 is in L-type, and one end of described first support 41 is fixedly connected with the upper surface of described framework 1, and the other end of described first support 41 is fixedly connected with the side of described motor 42.Described rotating shaft 43 is in cylinder, the upper end of described rotating shaft 43 is connected with described motor 42, rotating shaft 42 described in described driven by motor is rotated, and the lower surface of described rotating shaft 42 is fixedly connected with the upper surface of described rotating disk 44, and described rotating shaft 42 runs through the upper surface of described framework 1.Described rotating disk 44 is in cylinder, the side of described rotating disk 44 contacts with the inner surface of described framework 1, described rotating disk 44 is positioned at the top of described second screen pack 15, described rotating disk 44 is provided with the fifth hole 441 running through its upper and lower surface, described fifth hole 441 comprises the upper end being positioned at top and the bottom being positioned at below, described upper end and bottom are all in cylindrical shape, and the radius of described upper end is greater than the radius of described bottom.The liquid be positioned at above described rotating disk 44 enters into the below of described rotating disk 44 by described fifth hole 441.

As shown in Figures 1 and 2, described inlet duct 5 the second valve 53 of comprising air inlet pipe 51, being arranged at the second blower fan 52 in described air inlet pipe 51 and being arranged in described air inlet pipe 51.Described air inlet pipe 51 is in L-type, and one end of described air inlet pipe 51 is aimed at described third through-hole 14 and is fixedly connected with the left surface of described framework 1.Described second blower fan 52 is drawn in air inlet pipe 51 by needing the gas of purification, is then entered into the inside of framework 1 by third through-hole 14.Described second valve 53 is for controlling the flow of gas in described air inlet pipe 51.

As shown in Figures 1 and 2, described water circle device 6 comprises Rose Box 61, is positioned at the filter 62 of described Rose Box 61, is positioned at the first drain pipe 63 above described Rose Box 61, is positioned at the second drain pipe 64 below described framework 1, is positioned at the discharging tube 65 below described Rose Box 61 and is positioned at the first pipeline 66 on the right side of described Rose Box 61.Described Rose Box 61 is in cuboid, and described Rose Box 61 is in hollow shape, and described Rose Box 61 is provided with the first open-work 611 be positioned on upper surface and the second open-work 612 be positioned on lower surface.Described first open-work 611 is in cylindrical shape, and described first open-work 611 is provided with two and lays respectively at the left and right sides.Described second open-work 612 is in cylindrical shape, and described second open-work 612 is provided with two and lays respectively at the left and right sides.Described filter 62 is in cuboid, and the side of described filter 62 is fixedly connected with the inner surface of described Rose Box 61, and the inside of described Rose Box 61 is divided into upper and lower two spaces by described filter 62.Described first drain pipe 63 is in L-type, one end of described first drain pipe 63 is aimed at described second through hole 13 and is fixedly connected with the right surface of described framework 1, the other end of described first drain pipe 63 is aimed at the first open-work 611 on the right side of being positioned at and is fixedly connected with the upper surface of described Rose Box 61, the liquid on described hang plate 17 is made to enter into the first drain pipe 63 by the second through hole 13, then Rose Box 61 is entered into by the first open-work 611, described first drain pipe 63 is provided with the 3rd valve 631, described 3rd valve 631 is for controlling the flow of liquid in described first drain pipe 63.One end of described second drain pipe 64 extends to the inside of described framework 1 through the lower surface of described framework 1 and aims at described fourth hole 191, and be fixedly connected with the lower surface of described liquid collecting bucket 19, the other end of described second drain pipe 64 is aimed at the first open-work 611 on the left of being positioned at and is fixedly connected with the upper surface of described Rose Box 61, and the inside of described second drain pipe 64 is communicated with the inside of described Rose Box 61.Described second drain pipe 64 is provided with the 5th screen pack 641 and the 4th valve 642, and described 5th screen pack 641 is in cylinder, and described 5th screen pack 641 is fixedly connected with the inner surface of described second drain pipe 64.Described 4th valve 642 is for controlling the flow of liquid in described second drain pipe 64.Be positioned at second open-work 612 in left side described in the upper end of described discharging tube 65 and be fixedly connected with the lower surface of described Rose Box 61, described discharging tube 65 is provided with the 5th valve 651, and described 5th valve 651 is for controlling the flow of liquid in described discharging tube 65.One end of described first pipeline 66 is aimed at the second open-work 612 on the right side of being positioned at and is fixedly connected with the lower surface of described Rose Box 61, the inside of described first pipeline 66 is communicated with the inside of described Rose Box 61, the other end of described first pipeline 66 extends to the inside of described framework 1 through the right surface of described framework 1 and aims at the upper surface of described rotating disk 44, described first pipeline 66 is provided with water pump 661 and the second support 662, and described water pump 661 is for by the inside of the Liquid transfer in the first pipeline 66 to framework 1.Described second support 662 is in L-type, and one end of described second support 662 is fixedly connected with the side of described framework 1, and the other end of described second support 662 is fixedly connected with described first pipeline 66, for supporting described first pipeline 66.

As shown in Figures 1 and 2, when described the utility model high-efficiency dust remover for industry uses, first the liquid of dedusting the inside of framework 1 can be entered into by the feed tube 21 of inlet duct 2, then flow on the upper surface of rotating disk 44, then starter motor 42, rotating disk 44 is made to start to rotate, liquid on rotating disk 44 enters on the second screen pack 15 by fifth hole 441, then the filtration through the second screen pack 15 enters on hang plate 17 or the 3rd screen pack 18, flow into liquid deposition on hang plate 17 on hang plate 17, the liquid flow on the 3rd screen pack 18 enters on liquid collecting bucket 19 by the filtration of the 3rd screen pack 18, then the second drain pipe 64 is entered into through the 5th screen pack 641.Then will the gas of dedusting be needed to be entered by air inlet pipe 51, the inside of framework 1 is drawn under the effect of the second blower fan 52, then concentrate through the 3rd screen pack 18, due to the 3rd screen pack 18 having liquid, thus dedusting can be carried out to gas, then gas is through the second screen pack 15, due to the second screen pack 15 having liquid, dedusting can also be carried out to gas, then the top of rotating disk 44 is entered into through the fifth hole 441 on rotating disk 44, due to the upper right liquid of fifth hole 441, thus dedusting can also be carried out to gas, then the first blower fan 32 is started, the gas entered into above rotating disk 44 is drawn into escape pipe 31.Then the liquid be deposited on hang plate 17 enters into Rose Box 61 by the first drain pipe 63, the liquid entering into the second drain pipe 64 enters into Rose Box 61, then the below of filter 62 is entered into through the filtration of filter 62, then start water pump 661, the liquid in Rose Box 61 is drawn in the first pipeline 66, and then enters into the inside of framework 1, after purification, open the 5th valve 651, switch off the pump 661, the liquid in Rose Box 61 is discharged.So far, the use procedure of the utility model high-efficiency dust remover for industry is described.

Obviously, above-described embodiment is only used to clearly example is described, and the restriction not to embodiment.For those of ordinary skill in the field, other multi-form change or variations can also be made on the basis of the above description.Here without the need to also giving exhaustive to all embodiments.And thus the apparent change of amplifying out or variation be still among the protection domain that the utility model creates.

Claims (10)

1. a high-efficiency dust remover for industry, is characterized in that: described high-efficiency dust remover for industry comprises framework, be positioned at the feeding device on the left of described framework, be positioned at the air-out apparatus above described framework, be positioned at the agitating device on the left of described air-out apparatus, the water circle device being positioned at the inlet duct on the left of described framework and being positioned on the right side of described framework, described framework is provided with the first through hole be located thereon on surface, be arranged at the first screen pack in described first through hole, be positioned at the second through hole at right surface, be positioned at third through-hole at left surface, be positioned at the second screen pack of framework inside, be positioned at the hang plate below described second screen pack, the liquid collecting bucket being arranged at the 3rd screen pack on described hang plate and being positioned at below described hang plate, described feeding device comprises feed tube, be arranged at the fixed bar on described feed tube, be positioned at the first valve below described fixed bar, the 4th screen pack being arranged at described feed tube inside and the tapping bucket be positioned at below described feed tube, described air-out apparatus comprises escape pipe and is arranged at the first blower fan on described escape pipe, and described agitating device comprises motor, be positioned at the first support on the left of described motor, the rotating disk being positioned at the rotating shaft below described motor and being positioned at below described rotating shaft, described inlet duct comprises air inlet pipe, the second valve being arranged at the second blower fan in described air inlet pipe and being arranged in described air inlet pipe, described water circle device comprises Rose Box, be positioned at the filter of described Rose Box, be positioned at the first drain pipe above described Rose Box, be positioned at the second drain pipe below described framework, be positioned at the discharging tube below described Rose Box and be positioned at the first pipeline on the right side of described Rose Box, described hang plate is round table-like, described hang plate is fixedly connected with the inner surface of described framework, described 3rd screen pack is fixedly connected with described hang plate, described liquid collecting bucket is round table-like, described liquid collecting bucket is fixedly connected with the inner surface of described framework, and the centre of described liquid collecting bucket is provided with fourth hole.

2. high-efficiency dust remover for industry as claimed in claim 1, is characterized in that: described first screen pack is cylinder, and it is inner that described first screen pack is positioned at described first through hole.

3. high-efficiency dust remover for industry as claimed in claim 2, it is characterized in that: described second screen pack is cylinder, described second screen pack is fixedly connected with the inner surface of described framework.

4. high-efficiency dust remover for industry as claimed in claim 3, it is characterized in that: described rotating shaft is cylinder, the upper end of described rotating shaft is connected with described motor, and the lower surface of described rotating shaft is fixedly connected with the upper surface of described rotating disk.

5. high-efficiency dust remover for industry as claimed in claim 4, it is characterized in that: described rotating disk is cylinder, the side of described rotating disk contacts with the inner surface of described framework, described rotating disk is provided with the fifth hole running through its upper and lower surface, and described fifth hole comprises the upper end being positioned at top and the bottom being positioned at below.

6. high-efficiency dust remover for industry as claimed in claim 5, it is characterized in that: described Rose Box is cuboid, described Rose Box is provided with the first open-work be positioned on upper surface and the second open-work be positioned on lower surface.

7. high-efficiency dust remover for industry as claimed in claim 6, it is characterized in that: described filter is cuboid, the side of described filter is fixedly connected with the inner surface of described Rose Box.

8. high-efficiency dust remover for industry as claimed in claim 7, is characterized in that: described feed tube be Z-shaped, and the left surface that described framework is passed in one end of described feed tube extends to the inside of described framework.

9. high-efficiency dust remover for industry as claimed in claim 8, it is characterized in that: described tapping bucket is round table-like, the lower surface of described tapping bucket is provided with some circular holes.

10. high-efficiency dust remover for industry as claimed in claim 9, it is characterized in that: described fixed bar is cuboid, the right-hand member of described fixed bar is fixedly connected with the side of described framework.