CN214699558U - Stainless steel blast pipe structure - Google Patents

Abstract

The utility model provides a stainless steel air duct structure, including cylindrical stainless steel air duct body, the middle part of stainless steel air duct body is equipped with at least one set of annular cavity that outwards protrudes, the indoor annular rotatory deashing portion that is equipped with of annular cavity, the annular outer wall middle part of rotatory deashing portion is equipped with round outer ring gear, the both sides of outer ring gear are equipped with two sets of annular direction sliding rings, the chamber bottom of annular cavity still is fixed with the multiunit direction slider with direction sliding ring sliding fit, the annular cavity is outdoor to install a driving motor, the motor shaft of driving motor is connected with the outer gear with outer ring gear meshing, still be fixed with at least one set of brush rotation axis on the annular inner wall of rotatory deashing portion, still be equipped with the gib block on the brush rotation axis, still overlap outside the brush rotation axis and be equipped with a rubber soft cover, the rubber soft cover is equipped with the brush body outward, the utility model discloses simple structure can conveniently carry out automatic clearance to the inner wall, and the cleaning tool is simpler and more convenient.

Description

Stainless steel blast pipe structure

Technical Field

The utility model relates to an tuber pipe structure, especially a stainless steel tuber pipe structure.

Background

At present, stainless steel air pipes can be applied to various process exhaust systems, solvent exhaust systems, organic exhaust systems, waste gas exhaust systems, outdoor parts of common exhaust systems, wet-heat exhaust systems, smoke exhaust and dust removal systems and the like because finished products of the stainless steel air pipes generally have excellent corrosion resistance, heat resistance, high strength and other physicochemical properties, but the existing stainless steel air pipes are inevitably mixed with impurities in the exhaust process, are accumulated for a long time and can be adhered to the inner wall of the air pipe, so that the cleaning at the later stage is more laborious, meanwhile, the inside of the air pipe is dirty, the use quality is also influenced, the existing cleaning equipment for the air pipe is generally huge, and the cleaning is also more time-consuming and labor-consuming.

Therefore, a stainless steel duct structure which has a simple structure, can conveniently and automatically clean the inner wall and is simpler and more convenient for a cleaning tool is urgently needed.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a stainless steel tuber pipe structure, simple structure can conveniently carry out automatic clearance to the inner wall, and the clearance instrument is also comparatively simple and convenient.

The utility model provides a following technical scheme:

a stainless steel air duct structure comprises a cylindrical stainless steel air duct body, wherein at least one group of annular chambers protruding outwards is arranged in the middle of the stainless steel air duct body, an annular rotary dust removing part is arranged in each annular chamber, a circle of outer gear ring is arranged in the middle of the annular outer wall of the rotary dust removing part, two groups of annular guide sliding rings are arranged on two sides of each outer gear ring, the guide sliding rings are arranged on the annular outer wall of the rotary dust removing part in parallel side by side, the outer gear rings and the guide sliding rings are collinear with the axis of the rotary dust removing part, a plurality of groups of guide sliding blocks which are uniformly distributed in an annular shape are fixed at the bottom of each annular chamber, guide sliding chutes in sliding fit with the guide sliding rings are arranged on the inner sides of the guide sliding blocks, a driving motor is arranged outside each annular chamber, a motor shaft of the driving motor extends into each annular chamber and is connected with an outer gear, and the outer gear is in meshing driving fit with the outer gear ring; still be fixed with at least a set of brush rotation axis on the annular inner wall of rotatory deashing portion, the both ends of brush rotation axis extend towards the both ends of stainless steel tuber pipe body along the axis direction of tuber pipe, still be equipped with the gib block on the brush rotation axis, the gib block sets up along the axis direction of brush rotation axis, the brush rotation axis still overlaps outward and is equipped with a soft cover of rubber, the soft cover of rubber is equipped with the brush body outward, one side butt of brush body is on the inner wall of stainless steel tuber pipe body, still be equipped with on the inner wall of the soft cover of rubber and lead complex guide way with the gib block.

Preferably, the side wall of the stainless steel air duct body is further provided with a soft sleeve replacing hole correspondingly matched with the end part of the brush rotating shaft, and a sealing cover is further installed in the soft sleeve replacing hole in a matched mode.

Preferably, the annular inner wall of the rotary ash removal part is flush with the inner wall of the stainless steel air duct body.

Preferably, the middle part of the stainless steel air duct body is provided with a group of annular chambers.

Preferably, the middle part of the brush rotating shaft is fixed on the annular inner wall of the rotary ash removing part through a positioning block.

Preferably, a sealing sleeve is arranged between a motor shaft of the driving motor and the annular chamber.

Preferably, a fixing block rotatably connected with the end part of a motor shaft of the driving motor is further arranged in the annular chamber.

The utility model has the advantages that: through setting up annular chamber and the rotatory deashing portion that is arranged in annular chamber, the brush rotation axis, thereby the accessible starts the driving motor who is located the outside, meshing through outer gear and outer ring gear, realize the rotation of rotatory deashing portion, thereby drive the rotation of brush rotation axis on it, thereby realize the cover establish the brush body along the scrubbing motion of lateral wall with the inner wall laminating of stainless steel tuber pipe body outside the brush rotation axis, thereby can clear up the dirty impurity of adhesion on stainless steel tuber pipe body lateral wall, and then through the operation of ventilation, the impurity that will break away from the stainless steel tuber pipe inner wall blows away, the cleaning structure compares current equipment simple structure, can conveniently carry out automatic clearance to the inner wall.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention. In the drawings:

FIG. 1 is a front sectional view of the present invention;

FIG. 2 is a side sectional view of the present invention;

notation in the figure: 1 is the stainless steel tuber pipe body, 2 is annular cavity, 3 is rotatory deashing portion, 4 is outer ring gear, 5 is the guide sliding ring, 6 is the guide slide block, 7 is driving motor, 8 is the external gear, 9 is the brush rotation axis, 10 is the gib block, 11 is the soft cover of rubber, 12 is the brush body.

Detailed Description

Example 1

Referring to fig. 1 to 2, a stainless steel duct structure is shown, in this embodiment, the stainless steel duct structure includes a cylindrical stainless steel duct body 1, at least one set of annular chamber 2 protruding outward is disposed in the middle of the stainless steel duct body 1, an annular rotary ash removing portion 3 is disposed in the annular chamber 2, a circle of external gear ring 4 is disposed in the middle of the annular outer wall of the rotary ash removing portion 3, two sets of annular guiding sliding rings 5 are disposed on two sides of the external gear ring 4, the guiding sliding rings 5 are disposed in parallel side by side on the annular outer wall of the rotary ash removing portion 3, the external gear ring 4 and the guiding sliding rings 5 are collinear with the axis of the rotary ash removing portion 3, a plurality of sets of guiding sliding blocks 6 distributed uniformly and annularly are further fixed at the bottom of the annular chamber 2, a guiding sliding chute slidably matched with the guiding sliding rings 5 is disposed on the inner side of the guiding sliding blocks 6, a driving motor 7 is mounted outside the annular chamber 2, a motor shaft of the driving motor 7 extends into the annular chamber 2 and is connected with an external gear 8, the external gear 8 is meshed with the external gear ring 4 in a driving fit; still be fixed with at least a set of brush rotation axis 9 on the annular inner wall of rotatory deashing portion 3, the axis direction of tuber pipe is followed at the both ends of brush rotation axis 9 extends towards the both ends of stainless steel tuber pipe body 1, still be equipped with gib block 10 on the brush rotation axis 9, gib block 10 sets up along the axis direction of brush rotation axis 9, brush rotation axis 9 still overlaps outward and is equipped with a rubber soft cover 11, rubber soft cover 11 is equipped with brush body 12 outward, one side butt of brush body 12 is on stainless steel tuber pipe body 1's inner wall, still be equipped with on the inner wall of rubber soft cover 11 with gib block 10 direction complex guide way.

The annular inner wall of the rotary ash removal part 3 is flush with the inner wall of the stainless steel air pipe body 1.

The middle part of the stainless steel air pipe body 1 is provided with a group of annular chambers 2.

The middle part of the brush rotating shaft 9 is fixed on the annular inner wall of the rotary ash removing part 3 through a positioning block.

A sealing sleeve is arranged between a motor shaft of the driving motor 7 and the annular chamber 2.

A fixed block which is rotationally connected with the end part of the motor shaft of the driving motor 7 is also arranged in the annular chamber 2.

Example 2

With reference to fig. 1 to 2, in this embodiment, the difference from embodiment 1 lies in that, in order to facilitate the replacement of the brush body 12, a soft sleeve replacement hole corresponding to the end of the brush rotation axis 9 can be provided on the sidewall of the stainless steel air duct body 1, and a sealing cover is further installed in the soft sleeve replacement hole in a matching manner, so that when the brush body 12 needs to be replaced, only the sealing cover needs to be opened, and the rubber soft sleeve 11 having the brush body 12 on the surface is sleeved from the end of the brush rotation axis 9 inward, which is convenient.

The utility model discloses a theory of operation is: through setting up annular chamber 2 and being located the rotatory deashing portion 3 of annular chamber 2, brush rotation axis 9, thereby the accessible starts and is located outside driving motor 7, through the meshing of external gear 8 and outer ring gear 4, realize the rotation of rotatory deashing portion 3, thereby drive the rotation of brush rotation axis 9 on it, thereby realize the cover establish brush rotation axis 9 outer with the scrubbing motion of brush body 12 along the lateral wall of the inner wall laminating of stainless steel tuber pipe body 1, thereby can clear up the dirty impurity of adhesion on stainless steel tuber pipe body 1 lateral wall, and then through the operation of ventilation, the impurity that will break away from the stainless steel tuber pipe inner wall blows away, the existing equipment simple structure is compared to the clearance structure, can conveniently carry out automatic clearance to the inner wall.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. A stainless steel air pipe structure comprises a cylindrical stainless steel air pipe body and is characterized in that at least one group of annular chambers protruding outwards is arranged in the middle of the stainless steel air pipe body, an annular rotary ash removal portion is arranged in each annular chamber, a circle of outer gear ring is arranged in the middle of the annular outer wall of the rotary ash removal portion, two groups of annular guide sliding rings are arranged on two sides of each outer gear ring, the guide sliding rings are arranged on the annular outer wall of the rotary ash removal portion in parallel side by side, the outer gear ring and the guide sliding rings are collinear with the axis of the rotary ash removal portion, a plurality of groups of guide sliding blocks which are uniformly distributed in an annular shape are fixed at the bottom of each annular chamber, guide sliding chutes which are in sliding fit with the guide sliding rings are arranged on the inner sides of the guide sliding blocks, a driving motor is installed outside the annular chamber, and an outer gear is connected in the annular chamber through a motor shaft of the driving motor, the external gear is meshed with the external gear ring in a driving fit;

still be fixed with at least a set of brush rotation axis on the annular inner wall of rotatory deashing portion, the both ends of brush rotation axis are followed the axis direction orientation of tuber pipe the both ends of stainless steel tuber pipe body are extended, still be equipped with the gib block on the brush rotation axis, the gib block is followed the axis direction setting of brush rotation axis, the brush rotation axis is outer still to be equipped with a rubber flexible cover, the rubber flexible cover is equipped with the brush body outward, one side butt of brush body is in on the inner wall of stainless steel tuber pipe body, still be equipped with on the inner wall of rubber flexible cover with gib block direction complex guide way.

2. The stainless steel air duct structure as claimed in claim 1, wherein a soft sleeve replacing hole correspondingly matched with the end of the brush rotating shaft is further formed in the side wall of the stainless steel air duct body, and a sealing cover is further fittingly installed in the soft sleeve replacing hole.

3. The stainless steel ducted air structure according to claim 1, wherein an annular inner wall of the rotary ash removal portion is flush with an inner wall of the stainless steel ducted air body.

4. The stainless steel air duct structure according to claim 1, wherein a group of annular chambers are arranged in the middle of the stainless steel air duct body.

5. The stainless steel blast pipe structure according to claim 1, wherein the middle part of the rotating shaft of the brush is fixed on the annular inner wall of the rotary ash removal part through a positioning block.

6. The stainless steel duct structure according to claim 1, wherein a sealing sleeve is arranged between a motor shaft of the driving motor and the annular chamber.

7. The stainless steel wind pipe structure according to claim 1, wherein a fixing block rotatably connected with the end of the motor shaft of the driving motor is further arranged in the annular chamber.

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