CN201791605U

CN201791605U - Two-stage high-efficiency cyclone dust collector

Info

Publication number: CN201791605U
Application number: CN2010205017133U
Authority: CN
Inventors: 张妍娴
Original assignee: YANGZHOU TIANHONG TECHNOLOGY INDUSTRIAL Co Ltd
Current assignee: YANGZHOU TIANHONG TECHNOLOGY INDUSTRIAL Co Ltd
Priority date: 2010-08-20
Filing date: 2010-08-20
Publication date: 2011-04-13
Anticipated expiration: 2020-08-20

Abstract

The utility model relates to a two-stage high-efficiency cyclone dust collector, which belongs to the technical field of environment-friendly powder separation, in particular to the technical field of a structure of a cyclone dust collector. The upper end of a cylinder body is tangentially connected with an air inlet, the lower end of the cylinder body is provided with a dust discharging port, an exhaust pipe is concentrically arranged in the cylinder body, part of the exhaust pipe is arranged in the cylinder body, the rest of the exhaust pipe is arranged on the outer side of the upper end of the cylinder body, a vibration device is arranged on the cylinder body and on the side opposite to the air inlet, the outer side of the part of the exhaust pipe outside the cylinder body is concentrically provided with an outer sleeve, the upper end and the lower end of the outer sleeve are connected with the exhaust pipe in a sealing way respectively through an annular end cover, the sidewall of the part of the exhaust pipe in the outer sleeve is provided with an open slot, and the annular end cover at the lower end is connected with at least one dust discharging cylinder. The two-stage high-efficiency cyclone dust collector can greatly improve the efficiency of separating fine dust. Moreover, due to the vibrator, the two-stage high-efficiency cyclone dust collector is conducive to use on occasions with high dust viscosity or high moisture content.

Description

A kind of twin-stage high efficiency cyclonic dust collector

Technical field

The utility model relates to the technical field of structures of the environment-friendly type separation technology field, particularly cyclone dust collectors of powder.

Background technology

Along with the attention of people to environmental quality, discharging is all polluted, reduces to new technology, new technology, new equipment to reduce be the target research and development.Deduster is exactly a kind of reduction of discharging, oligosaprobic product.Be used for the atmosphere dedusting at present and mainly contain three class dedusting technologies: electric precipitation, cloth bag dust removal by filtration and cyclone dust removal.Owing to simple, the unpowered mechanism of cyclone duster structure drives, can adapt to the favor that advantages such as adverse circumstances, investment and operating costs such as high temperature, high pressure and the medium that is corrosive are few are subjected to people.Cyclone dust collectors are to utilize dust-contained airflow air-flow of rotation at a high speed in the whirlwind tube, make grit produce centrifugal and realize separating of dust and air-flow, but existing cyclone dust collectors to the capacity gauge of fine powder a little less than, cause dust removing effects not good enough.

The utility model content

The utility model purpose is to design the high tandem dual stage cyclone deduster of a kind of dust removal efficiency.

The utility model comprises cylindrical shell, tangential connection air inlet in the cylindrical shell upper end, lower end at cylindrical shell is provided with ash discharging hole, blast pipe is set in cylindrical shell with one heart, the part of described blast pipe is arranged in the cylindrical shell, another part is arranged on the outside, cylindrical shell upper end, be characterized on cylindrical shell, offside in air inlet is provided with vibrating device, blast pipe outer concentric outside cylindrical shell is provided with outer sleeve, on the described outer sleeve, the lower end is tightly connected by annular end cap and blast pipe respectively, blast pipe sidewall in described outer sleeve is offered open slot, connects at least one ash discharging cylinder on the annular end cap of lower end.

The utility model forms one-time dedusting by the ash discharging hole of cylindrical shell lower end, the main dust of removing larger particles, thinner dust enters in the blast pipe, continues the sidewall that centrifugation is arranged in blast pipe, open slot by blast pipe enters in the outer sleeve, is discharged by ash discharging cylinder.The utility model can improve the separative efficiency of fine dusts widely, and under the effect of vibrator, is beneficial to occasion big to dust viscosity or that moisture content is higher and uses.

In order further to improve the separative efficiency of fine dusts, open slot described in the utility model shape is in the shape of a spiral arranged.

In order in time to discharge the dust in the outer sleeve, described ash discharging cylinder is oblique to be connected on the annular end cap of lower end, and the central shaft of blast pipe is approached in the upper end of ash discharging cylinder than the lower end.

Description of drawings

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

The specific embodiment

As shown in Figure 1, prior art is identical, the utility model is provided with a cylindrical shell 1, tangential connection air inlet 3 in cylindrical shell 1 upper end, in the lower end of cylindrical shell 1 ash discharging hole 2 is set, blast pipe 4 is set in cylindrical shell 1 with one heart, and the part of blast pipe 4 is arranged in the cylindrical shell 1, and another part is arranged on the outside, cylindrical shell 1 upper end.

The utility model is also on cylindrical shell 1, connect vibrating device 5 in the offside of air inlet 3.Blast pipe 4 outer concentric outside cylindrical shell 1 are provided with outer sleeve 6, and the upper end of blast pipe 4 is arranged in outside the upper end of outer sleeve 6, and the upper and lower end of outer sleeve 6 is tightly connected with blast pipe 4 by last, annular end cap 7, following annular end cap 8 respectively.

Blast pipe 4 sidewalls in outer sleeve 6 are offered the open slot 9 of shape layout in the shape of a spiral, and symmetry connects two to four ash discharging cylinders 10 on following annular end cap 8.Each ash discharging cylinder 10 oblique being connected down on the annular end cap 8, the central shaft of blast pipe 4 is approached in the upper end of ash discharging cylinder 10 than the lower end.

Claims

1. twin-stage high efficiency cyclonic dust collector, tangential connection air inlet in the cylindrical shell upper end, lower end at cylindrical shell is provided with ash discharging hole, blast pipe is set in cylindrical shell with one heart, the part of described blast pipe is arranged in the cylindrical shell, another part is arranged on the outside, cylindrical shell upper end, it is characterized in that on cylindrical shell, offside in air inlet is provided with vibrating device, blast pipe outer concentric outside cylindrical shell is provided with outer sleeve, on the described outer sleeve, the lower end is tightly connected by annular end cap and blast pipe respectively, blast pipe sidewall in described outer sleeve is offered open slot, connects at least one ash discharging cylinder on the annular end cap of lower end.

2. according to the described twin-stage high efficiency cyclonic dust collector of claim 1, it is characterized in that described open slot shape layout in the shape of a spiral.

3. according to the described twin-stage high efficiency cyclonic dust collector of claim 1, it is characterized in that the central shaft of blast pipe is approached in the upper end of ash discharging cylinder on the oblique annular end cap that is connected the lower end of described ash discharging cylinder than the lower end.