CN212947129U - Small-space scissor-type steel brush rust removal device - Google Patents

Abstract

A small-space scissor-type steel brush rust removal device belongs to the technical field of metal material rust removal equipment. The method is characterized in that: comprises a ring frame structure and a steel brush rust removal device; the ring frame structures are all cylindrical structures with two open ends; a steel brush rust removal device is arranged on the inner side of the ring frame structure; the steel brush rust removal device comprises at least three groups of steel brush rust removal functional bodies, and the steel brush rust removal functional groups are arranged on the inner side of the ring frame structure in an annular array mode. Rust cleaning device can carry out the high-efficient rust cleaning operation of surrounding type to the steel pipe, work efficiency is high, the effect is splendid.

Description

Small-space scissor-type steel brush rust removal device

Technical Field

The utility model discloses metal material rust cleaning equipment technical field, concretely relates to fork steel brush rust cleaning device is cut in little space.

Background

The method for removing rust of the steel pipe comprises two types of chemical rust removal and physical rust removal. The chemical rust removal method is a mode of removing rust on the surface of steel by reacting acid and alkali with the rust on the surface of the steel, and is called as chemical rust removal, the method is relatively simple and convenient, but some rust which is seriously corroded is not ideal for removing, part of rust on the surface of the steel remains, and the environment is polluted when the rust remover after being used is improperly treated. Physical rust removal refers to removing rust through contact and friction of solid such as grinding wheels, abrasive cloth and the like and the rust, and the rust removal method is slightly complex, good in effect and capable of achieving secondary cleaning of places which are not ideal in cleaning. The existing rust removal work is mostly that workers hold an electric rust remover, rust outside a steel pipe is polished manually, the work labor intensity is high, and the efficiency is low.

In view of this, the applicant has designed this device, can carry out high-efficient rust cleaning operation to the steel pipe, and work efficiency is high, and the effect is splendid.

Disclosure of Invention

The utility model aims to solve the technical problem that a small space is cut fork steel brush rust cleaning device is provided, can carry out the high-efficient rust cleaning operation of surrounding type to the steel pipe, work efficiency is high, and the effect is splendid.

In order to solve the technical problem, the technical scheme of the utility model is that: the utility model provides a fork steel brush rust cleaning device is cut to little space which characterized in that: comprises a ring frame structure and a steel brush rust removal device; the ring frame structures are all cylindrical structures with two open ends; a steel brush rust removal device is arranged on the inner side of the ring frame structure;

the steel brush rust removal device comprises at least three groups of steel brush rust removal functional bodies, and all the groups of steel brush rust removal functional groups are annularly arranged on the inner side of the ring frame structure in an array manner; the steel brush rust removal function group comprises a scissor type telescopic support, a rust remover mounting plate, a steel brush driving motor and a steel brush head, the scissor type telescopic support comprises two sets of scissor type telescopic mechanisms, the outer ends of the two sets of scissor type telescopic mechanisms are respectively mounted on two sides of the stand column, and the inner ends of the two sets of scissor type telescopic mechanisms are connected with and fixed with the rust remover mounting plate; the steel brush driving motor is fixed on the inner side surface of the rust remover mounting plate, and a steel brush head is mounted on a motor shaft of the steel brush driving motor; the steel brush driving motor can drive the steel brush head to rotate for derusting.

Preferably, the ring frame structure comprises a plurality of upright posts, an upper mounting plate and a lower mounting plate which are annular; the upper mounting plate and the lower mounting plate are coaxially arranged, the planes of the upper mounting plate and the lower mounting plate are parallel to each other, and a fixed upright post is arranged between the upper mounting plate and the lower mounting plate; the steel brush rust removal device is fixed on the inner side of the upright post.

Preferably, a protective net is arranged between adjacent upright posts, and the aperture of meshes of the protective net is 1-3 mm.

Preferably, the two groups of scissor telescopic mechanisms are respectively an active scissor telescopic mechanism and a passive scissor telescopic mechanism, the active scissor telescopic mechanism and the passive scissor telescopic mechanism both comprise a plurality of X-shaped scissor frames, and adjacent scissor frames are hinged and connected through an upper hinge shaft and a lower hinge shaft.

Preferably, the upper part of the outer end of the driving scissor telescoping mechanism or the driven scissor telescoping mechanism is hinged and fixed above one side of the upright post, a guide chute is vertically arranged below the side of the upright post, the lower part of the outer end of the driving scissor telescoping mechanism or the driven scissor telescoping mechanism is hinged with a lifting slide block, and the lifting slide block is inserted and fixed in the guide chute and can move up and down along the guide chute;

preferably, the active scissor telescopic structure is provided with a telescopic driving cylinder, the fixed end of the telescopic driving cylinder is connected with a lower hinge shaft between two adjacent scissor brackets, and the telescopic end of the telescopic driving cylinder is connected with an upper hinge shaft between two adjacent scissor brackets.

Preferably, the upper mounting plate comprises a first upper sub plate and a second upper sub plate; the lower mounting plate comprises a first lower sub plate and a second lower sub plate; the two sides of the first upper division plate and the first lower division plate are respectively and vertically connected through a first left flange upright post and a first right flange upright post, and the two sides of the second upper division plate and the second lower division plate are respectively and vertically connected through a second left flange upright post and a second inner right flange upright post; a plurality of left threaded through holes are formed in the first left flange upright post and the second left flange upright post, and left studs are installed in the left threaded through holes; and a plurality of right threaded through holes are formed in the first right flange stand column and the second right flange stand column, and right studs are arranged in the right threaded through holes.

Preferably, the ring frame structure is connected with a linear moving device, the linear moving device comprises a linear sliding rail and a mounting sliding block, the ring frame structure and the mounting sliding block are fixed together, and the mounting sliding block can move along the linear sliding rail under the driving of the traction power device.

Compared with the prior art, the beneficial effects of the utility model are that:

when the device is used, the ring frame structure can be split into a left part and a right part along the central axis only by detaching the left stud and the right stud, then the two parts are buckled around the steel pipe, then the left stud and the right stud are tightened to fix the device again into a whole, and the device is driven to move along the steel pipe for rust removal through the linear moving device; if the outer pipe diameter size of steel pipe is great, can correspond the steel brush head of changing the size matching, or make the end connection rotary driving device of steel pipe, rotary driving device can be the clamping jaw structure that the motor drove, the steel pipe is held to the clamping jaw structure centre gripping, and the motor can drive clamping jaw and steel pipe and rotate along the axis in step. Because the steel pipe is enabled to rotate around the central axis in the derusting process, the rust on the outer wall of the steel pipe can be completely removed, the working efficiency is high, and the effect is excellent.

This device steel brush rust cleaning function body utilize and cut fork telescopic bracket and install on the stand, can contract automatically when initial condition to set up the steel pipe in the device, then extend with cutting fork telescopic bracket, make each steel brush rust cleaning function body from the periphery centre gripping steel pipe, the self-adaptation can be strong, can carry out the rust cleaning operation to the steel pipe of different specifications.

The protective net is arranged between the stand columns of the ring frame structure, the mesh aperture of the protective net is set to be 1-3mm, large-particle rust slag can be effectively prevented from splashing, surrounding workers are prevented from being accidentally injured, and production safety is guaranteed.

Drawings

Fig. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic structural view of a steel brush rust removal functional group in a perspective view (installation direction of a passive scissor telescopic mechanism);

FIG. 3 is a schematic structural view of a steel brush rust removal functional group in a perspective view (installation direction of a driving scissor telescopic mechanism);

in the figure: 1. a ring frame structure; 1.1, a lower mounting plate; 1.2, upright columns; 1.3, mounting a plate; 1.4, a first upper division plate; 1.5, a first left flange upright post; 1.6, a left stud; 1.7, a second left flange upright post; 1.8, a second upper sub-plate; 1.9, a second right flange upright post; 1.10, a second lower sub-plate; 1.11, a first right flange upright post; 1.12, a first lower sub-plate;

2. a steel brush rust removal device; 2.1, a guide chute; 2.2, a passive scissor telescoping mechanism; 2.3, mounting a deruster plate; 2.4, a steel brush head; 2.5, driving a motor by a steel brush; 2.6, a driving scissor telescoping mechanism; 2.7, a telescopic driving cylinder.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

As shown in figure 1, the small-space scissor-type steel brush rust removal device comprises a ring frame structure and a steel brush rust removal device; the ring frame structures are all cylindrical structures with two open ends; a steel brush rust removal device is arranged on the inner side of the ring frame structure;

the steel brush rust removal device comprises at least three groups of steel brush rust removal functional bodies, and the steel brush rust removal functional groups are arranged on the inner side of the ring frame structure in an annular array mode. The ring frame structure comprises a plurality of stand columns, an upper mounting plate and a lower mounting plate which are annular; the upper mounting plate and the lower mounting plate are coaxially arranged, the planes of the upper mounting plate and the lower mounting plate are parallel to each other, and a fixed upright post is arranged between the upper mounting plate and the lower mounting plate; the steel brush rust removal device is fixed on the inner side of the upright post.

And protective nets are arranged between the adjacent upright posts, and the aperture of meshes of the protective nets is 1-3 mm.

As shown in fig. 2 and 3, the steel brush rust removal functional group comprises a scissor type telescopic support, a rust remover mounting plate, a steel brush driving motor and a steel brush head, the scissor type telescopic support comprises two groups of scissor type telescopic mechanisms, the outer ends of the two groups of scissor type telescopic mechanisms are respectively mounted on two sides of a stand column, and the inner ends of the two groups of scissor type telescopic mechanisms are respectively connected with and fixed to the rust remover mounting plate; the steel brush driving motor is fixed on the inner side surface of the rust remover mounting plate, and a steel brush head is mounted on a motor shaft of the steel brush driving motor; the steel brush driving motor can drive the steel brush head to rotate for derusting.

The two groups of scissor telescopic mechanisms are respectively an active scissor telescopic mechanism and a passive scissor telescopic mechanism, the active scissor telescopic mechanism and the passive scissor telescopic mechanism both comprise a plurality of X-shaped scissor frames, and adjacent scissor frames are hinged and connected through an upper hinge shaft and a lower hinge shaft.

The upper part of the outer end of the driving scissor telescopic mechanism or the driven scissor telescopic mechanism is hinged and fixed above one side of the upright post, a guide chute is vertically arranged below the side of the upright post, the lower part of the outer end of the driving scissor telescopic mechanism or the driven scissor telescopic mechanism is hinged with a lifting slide block, and the lifting slide block is inserted and fixed in the guide chute and can move up and down along the guide chute;

the active scissor fork telescopic structure is provided with a telescopic driving cylinder, the fixed end of the telescopic driving cylinder is connected with a lower hinged shaft between two adjacent scissor brackets, and the telescopic end of the telescopic driving cylinder is connected with an upper hinged shaft between two adjacent scissor brackets.

The upper mounting plate comprises a first upper sub plate and a second upper sub plate; the lower mounting plate comprises a first lower sub plate and a second lower sub plate; the two sides of the first upper division plate and the first lower division plate are respectively and vertically connected through a first left flange upright post and a first right flange upright post, and the two sides of the second upper division plate and the second lower division plate are respectively and vertically connected through a second left flange upright post and a second inner right flange upright post; a plurality of left threaded through holes are formed in the first left flange upright post and the second left flange upright post, and left studs are installed in the left threaded through holes; and a plurality of right threaded through holes are formed in the first right flange stand column and the second right flange stand column, and right studs are arranged in the right threaded through holes.

The ring frame structure is connected with the linear moving device, the linear moving device comprises a linear sliding rail and an installation sliding block, the ring frame structure and the installation sliding block are fixed together, and the installation sliding block can move along the linear sliding rail under the driving of the traction power device. The traction power device.

When the device is used, the ring frame structure can be split into a left part and a right part along the central axis only by detaching the left stud and the right stud, then the two parts are buckled around the steel pipe, then the left stud and the right stud are tightened to fix the device again into a whole, and the device is driven to move along the steel pipe for rust removal through the linear moving device; if the outer pipe diameter size of steel pipe is great, can correspond the steel brush head of changing the size matching, or make the end connection rotary driving device of steel pipe to make the steel pipe around the axis rotation, can get rid of the rust of steel pipe outer wall completely at the rust cleaning in-process, work efficiency is high, and the effect is splendid.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention. The technical solution of the present invention is not to be departed from, and any simple modification, equivalent change and modification made to the above embodiments according to the technical substance of the present invention still belong to the protection scope of the technical solution of the present invention.

Claims (8)

1. The utility model provides a fork steel brush rust cleaning device is cut to little space which characterized in that: the steel brush rust removing device comprises a ring frame structure and a steel brush rust removing device, wherein the ring frame structure is a cylindrical structure with two open ends; a steel brush rust removal device is arranged on the inner side of the ring frame structure;

the steel brush rust removal device comprises at least three groups of steel brush rust removal functional bodies, and each group of steel brush rust removal functional groups are annularly arranged on the inner side of the ring frame structure in an array manner; the steel brush rust removal function group comprises a scissor type telescopic support, a rust remover mounting plate, a steel brush driving motor and a steel brush head, the scissor type telescopic support comprises two sets of scissor type telescopic mechanisms, the outer ends of the two sets of scissor type telescopic mechanisms are respectively mounted on two sides of the stand column, and the inner ends of the two sets of scissor type telescopic mechanisms are connected with and fixed with the rust remover mounting plate; the steel brush driving motor is fixed on the inner side surface of the rust remover mounting plate, and a steel brush head is mounted on a motor shaft of the steel brush driving motor; the steel brush driving motor can drive the steel brush head to rotate for derusting.

2. The small-space scissor-type steel brush rust removing device according to claim 1, characterized in that: the ring frame structure comprises a plurality of stand columns, an upper mounting plate and a lower mounting plate which are annular; the upper mounting plate and the lower mounting plate are coaxially arranged, the planes of the upper mounting plate and the lower mounting plate are parallel to each other, and a fixed upright post is arranged between the upper mounting plate and the lower mounting plate; the steel brush rust removal device is fixed on the inner side of the upright post.

3. The small-space scissor-type steel brush rust removing device according to claim 2, characterized in that: and protective nets are arranged between the adjacent upright posts, and the aperture of meshes of the protective nets is 1-3 mm.

4. A small space scissor type steel brush rust removing device according to claim 3, characterized in that: the two groups of scissor telescopic mechanisms are respectively an active scissor telescopic mechanism and a passive scissor telescopic mechanism, the active scissor telescopic mechanism and the passive scissor telescopic mechanism both comprise a plurality of X-shaped scissor frames, and adjacent scissor frames are hinged and connected through an upper hinge shaft and a lower hinge shaft.

5. A small space scissor type steel brush rust removing device according to claim 4, characterized in that: the upper part of the outer end of the driving scissor telescopic mechanism or the driven scissor telescopic mechanism is hinged and fixed above one side of the stand column, a guide sliding groove is vertically arranged below the side of the stand column, the lower part of the outer end of the driving scissor telescopic mechanism or the driven scissor telescopic mechanism is hinged with a lifting slide block, and the lifting slide block is inserted and fixed in the guide sliding groove and can move up and down along the guide sliding groove.

6. A small space scissor type steel brush rust removing device according to claim 5, characterized in that: the active scissor fork telescopic structure is provided with a telescopic driving cylinder, the fixed end of the telescopic driving cylinder is connected with a lower hinged shaft between two adjacent scissor brackets, and the telescopic end of the telescopic driving cylinder is connected with an upper hinged shaft between two adjacent scissor brackets.

7. The small-space scissor-type steel brush rust removing device according to claim 6, wherein: the upper mounting plate comprises a first upper sub plate and a second upper sub plate; the lower mounting plate comprises a first lower sub plate and a second lower sub plate; the two sides of the first upper division plate and the first lower division plate are respectively and vertically connected through a first left flange upright post and a first right flange upright post, and the two sides of the second upper division plate and the second lower division plate are respectively and vertically connected through a second left flange upright post and a second inner right flange upright post; a plurality of left threaded through holes are formed in the first left flange upright post and the second left flange upright post, and left studs are installed in the left threaded through holes; and a plurality of right threaded through holes are formed in the first right flange stand column and the second right flange stand column, and right studs are arranged in the right threaded through holes.

8. The small-space scissor-type steel brush rust removing device according to claim 7, wherein: the ring frame structure is connected with the linear moving device, the linear moving device comprises a linear sliding rail and an installation sliding block, the ring frame structure and the installation sliding block are fixed together, and the installation sliding block can move along the linear sliding rail under the driving of the traction power device.

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