CN214719016U - Rust removal equipment - Google Patents

Abstract

The utility model discloses a rust cleaning equipment, include and treat the location platform of rust cleaning piece for the location, still include to be used for right the last rust cleaning executive component who treats the rust cleaning of rust cleaning piece of location bench and with the control system that rust cleaning executive component links to each other, rust cleaning executive component is configured to can control system's control moves down to the rust cleaning piece rust cleaning is treated in the realization. The rust removing equipment can greatly improve the rust removing efficiency through automatic rust removing, reduces the labor intensity of workers, generates no waste slag and waste water in the rust removing process, is environment-friendly and pollution-free, and has good rust removing effect without repeated rust removing operation, thereby reducing the production cost.

Description

Rust removal equipment

Technical Field

The utility model relates to a rail transit technical field, in particular to rust cleaning equipment.

Background

The axle box has the functions of transferring the weight and load of the vehicle body to the wheel set, reducing friction and reducing running resistance through lubricating the shaft neck, and rust on the inner wall of the axle box hole needs to be removed in regular subway frame overhaul operation. In the prior art, the rust removal operation on the inner wall of the axle box mainly comprises the following steps: derusting a shaft box by using a high-pressure cleaning machine, wherein a rust layer is impacted by high-pressure water flow to be separated from the surface of a base material; and secondly, coating the rust remover on the surface of the rust by workers, and polishing the rust remover by using sand paper. However, the above arrangement mode has high labor cost, rust can be removed only by repeatedly erasing each axle box after the rust remover is coated on each axle box, residue or waste water can be generated on a rust removing site, the arrangement mode is not environment-friendly, the rust position needs to be judged by manual rust removal, and the arrangement mode is low in working efficiency and poor in rust removing effect by matching with manual polishing and a high-pressure water gun.

Therefore, how to avoid the problem that the production cost is high due to low working efficiency of the existing rust removal technology is a technical problem to be solved by the technical personnel in the field at present.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a rust cleaning equipment can realize automatic rust cleaning, and the rust cleaning is effectual, and is friendly to the environment, and is pollution-free to can the greatly reduced cost of labor.

In order to realize the above-mentioned purpose, the utility model provides a rust cleaning equipment, including the location platform that treats the rust cleaning piece for the location, still include to be used for right the epaxial rust cleaning executive component who treats the rust cleaning piece rust cleaning of location and with the control system that rust cleaning executive component links to each other, rust cleaning executive component is configured to can move under control system's control to the rust cleaning piece rust cleaning is treated in the realization.

Optionally, the rust removal executing assembly comprises a driving mechanism and a laser head arranged on the driving mechanism and used for emitting laser to the rust removal surface of the part to be subjected to rust removal to achieve rust removal.

Optionally, the driving mechanism includes a transverse transfer part, a longitudinal transfer part, and a sliding table, the longitudinal transfer part is connected to the transverse transfer part, the sliding table is connected to the longitudinal transfer part, the longitudinal transfer part can move in the horizontal direction, and the sliding table can move in the vertical direction.

Optionally, the laser head is movably connected to the sliding table.

Optionally, the rust removing device further comprises a vision system connected with the control system and used for acquiring image information of a rust part of the workpiece to be subjected to rust removal, and the acquired image information is transmitted to the control system through the vision system so that the control system can control the laser head to move.

Optionally, the control system is specifically an industrial personal computer, and when the industrial personal computer receives the image information acquired by the vision system, the industrial personal computer generates a preset derusting track according to an image information processing result, so that the laser head can remove rust according to the movement of the preset derusting track.

Optionally, the positioning device further comprises a support, the support comprises an I-beam, a stand column and a base, the driving mechanism is installed on the I-beam, and the positioning table is fixedly connected to the base.

Optionally, the positioning table comprises a circular table and a three-jaw chuck arranged on the circular table and used for fixing a part to be derusted.

Optionally, a smoke purification system connected with the positioning table and used for absorbing smoke generated by rust removal and purifying the smoke to discharge purified gas is further included.

Optionally, the smoke purifying system comprises a dust suction device and a smoke purifier connected with the dust suction device.

Compared with the prior art, the embodiment of the utility model provides a rust cleaning equipment, including location platform, rust cleaning executive component and control system, wherein, the location platform is used for the location to treat the rust cleaning piece, and the rust cleaning executive component is used for treating the rust cleaning piece rust cleaning to the location bench, and control system links to each other with the rust cleaning executive component, and the rust cleaning executive component is configured to move under control system's control to the rust cleaning piece rust cleaning is treated in the realization. The rust removing equipment which is arranged like this has the advantages that: when in rust removal, the part to be subjected to rust removal is placed on the positioning table, and the control system and the rust removal execution assembly are started to automatically remove rust on the rust part of the part to be subjected to rust removal.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a rust removing apparatus provided by an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a sliding table, a vision system, a laser head and a positioning table in the rust removing device provided by the embodiment of the utility model;

fig. 3 is a schematic view of an assembly structure of a visual system and a laser head in the rust removing device provided by the embodiment of the utility model;

fig. 4 is a schematic structural diagram of a driving mechanism in the rust removing apparatus provided by the embodiment of the present invention;

fig. 5 is a schematic structural view of a bracket in the rust removing device provided by the embodiment of the present invention;

FIG. 6 is a schematic view of an assembly structure of a positioning table and a bracket in the rust removing device provided by the embodiment of the present invention;

fig. 7 is a schematic diagram of a rust removing track edited by the rust removing equipment provided by the embodiment of the utility model;

fig. 8 is a schematic view of a smoke and dust purification system in the rust removing device provided by the embodiment of the present invention.

Wherein:

01-to-be-derusted parts, 1-bracket, 11-I-beam, 12-upright post, 13-base, 2-four-corner supporting platform, 3-positioning platform, 31-round platform, 32-three-jaw chuck, 4-derusting executing component, 41-driving mechanism, 411-transverse shifting part, 412-longitudinal shifting part, 413-sliding platform, 42-laser head, 43-rotating shaft, 5-visual system, 6-control system, 7-smoke purification system, 71-dust collector and 72-smoke purifier.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The core of the utility model is to provide a rust cleaning equipment can realize automatic rust cleaning, and the rust cleaning is effectual, and is friendly to the environment, and is pollution-free to can the greatly reduced cost of labor.

In order to make the technical field of the present invention better understand, the present invention will be described in detail with reference to the accompanying drawings and the detailed description.

It should be noted that the following directional terms such as "upper end, lower end, left side, right side" and the like are defined based on the drawings of the specification.

Referring to fig. 1 and 8, fig. 1 is a schematic structural diagram of a rust removing apparatus provided in an embodiment of the present invention; fig. 2 is a schematic structural diagram of a sliding table, a vision system, a laser head and a positioning table in the rust removing device provided by the embodiment of the utility model; fig. 3 is a schematic view of an assembly structure of a visual system and a laser head in the rust removing device provided by the embodiment of the utility model; fig. 4 is a schematic structural diagram of a driving mechanism in the rust removing apparatus provided by the embodiment of the present invention; fig. 5 is a schematic structural view of a bracket in the rust removing device provided by the embodiment of the present invention; FIG. 6 is a schematic view of an assembly structure of a positioning table and a bracket in the rust removing device provided by the embodiment of the present invention; fig. 7 is a schematic diagram of a rust removing track edited by the rust removing equipment provided by the embodiment of the utility model; fig. 8 is a schematic view of a smoke and dust purification system in the rust removing device provided by the embodiment of the present invention.

The embodiment of the utility model provides a rust cleaning equipment, this rust cleaning equipment can be high-speed, high efficiency, green's the rust cleaning work of completion railcar axle box, rust cleaning equipment includes location platform 3, rust cleaning executive component 4 and control system 6, wherein, location platform 3 is used for the location to treat rust cleaning 01, rust cleaning executive component 4 is used for treating rust cleaning 01 rust cleaning to location platform 3, control system 6 links to each other with rust cleaning executive component 4, rust cleaning executive component 4 is configured to move under control system 6's control, treat rust cleaning 01 rust cleaning with the realization.

Therefore, when in rust removal, the part 01 to be subjected to rust removal can be automatically rust-removed on the rusted part of the part 01 to be subjected to rust removal only by placing the part on the positioning table 3 and starting the control system 6 and the rust removal executing assembly 4, compared with the traditional manual rust removal, the arrangement mode can greatly improve the rust removal efficiency through automatic rust removal, reduces the labor intensity of workers, generates no waste slag and waste water in the rust removal process, is environment-friendly, has good rust removal effect, does not need repeated rust removal operation for many times, and can reduce the production cost.

Certainly, according to actual needs, the to-be-derusted part 01 is specifically an axle box of a subway vehicle, the positioning table 3 may be configured to include a circular table 31 and a three-jaw chuck 32 arranged on the circular table 31, the to-be-derusted part 01 is accurately positioned by the three-jaw chuck 32, and the outer diameter of the circular table 31 should be larger than that of a main body part of the axle box.

Further, the rust removal executing assembly 4 comprises a driving mechanism 41 and a laser head 42 arranged on the driving mechanism 41, wherein the laser head 42 is used for emitting laser to the rust removal surface of the to-be-removed part 01 so as to remove rust. Specifically, the laser head 42 can realize a laser cleaning function, which is a new technology based on the interaction between laser and a substance, and applies ultra-high peak value, short pulse laser to a workpiece, so that dirt, rust or a coating on the surface of the workpiece is instantly evaporated or peeled after absorbing the laser, and the substrate hardly absorbs the laser, thereby achieving the effect of removing the dirt on the surface without damaging the substrate. Compared with the traditional cleaning method, the laser cleaning method has the advantages of non-contact, no damage to the base material, accurate cleaning, environmental protection, online capability and the like, and is particularly suitable for high-speed online cleaning of a specified area.

Obviously, the driving mechanism 41 may be specifically a servo mechanism, the driving mechanism 41 includes a transverse transfer unit 411, a longitudinal transfer unit 412 and a sliding table 413, the laser head 42 is disposed on the sliding table 413, the longitudinal transfer unit 412 is connected to the transverse transfer unit 411, the sliding table 413 is connected to the longitudinal transfer unit 412, the longitudinal transfer unit 412 is movable on the transverse transfer unit 411 to realize the movement of the sliding table 413 and the laser head 42 in the horizontal direction, and the sliding table 413 is movable on the longitudinal transfer unit 412 to realize the movement of the sliding table 413 and the laser head 42 in the vertical direction. Of course, both the lateral transfer unit 411 and the vertical transfer unit 412 may be provided as servo cylinder devices.

More specifically, the laser head 42 is movably connected to the sliding table 413, preferably, the laser head 42 is rotatably connected to the sliding table 413 through a rotating shaft 43, for example, a rotating shaft 43 may extend from a bottom of the sliding table 413, and a mounting seat for mounting the laser head 42 is fixedly connected to the rotating shaft 43, so that the laser head 42 can freely rotate 360 ° around the rotating shaft 43, and if necessary, the laser head 42 can also deflect at a certain angle, that is, deflect upwards to realize a "head raising" operation, and deflect downwards to realize a "head lowering" operation.

The laser head 42 arranged in this way can remove rust on the inner wall of the axle box through 360-degree rotation. Since the zero point of the x-axis of the servo mechanism (which can be the middle point of the transverse shifting part 411) is on the central line of the axle box positioned by the three-jaw chuck 32, and the sliding table 413 is designed according to the inner diameter of the axle box and the focal length of the laser head 42, the distance between the laser head 42 and the inner wall when the laser head 42 descends into the axle box can be just in the focal length range of the laser, so that accurate focusing and accurate rust removal are realized.

Of course, the equipment further comprises a support 1, the support 1 comprises an i-beam 11, upright columns 12 and a base 13, a driving mechanism 41 is installed on the i-beam 11, the two upright columns 12 are arranged oppositely and used for supporting and fixing the i-beam 11, and the positioning table 3 is fixedly connected to the base 13 through the four-corner support table 2.

In order to further realize accurate rust cleaning, the equipment is further provided with a vision system 5, the vision system 5 is detachably connected to the sliding table 413, the vision system 5 can comprise a camera arranged on the sliding table 413, and the camera can be jointly installed on a mounting seat at the bottom of the sliding table 413 together with the laser head 42, so that the synchronous rotary motion of the camera and the laser head 42 is realized.

The vision system 5 is connected with the control system 6, the vision system 5 is used for collecting image information of a rust part of a to-be-derusted part 01, and the acquired image information is transmitted to the control system 6 through the vision system 5 so that the control system 6 can control the movement of the laser head 42. The control system 6 is specifically an industrial personal computer, and when the industrial personal computer receives the image information acquired by the vision system 5, the industrial personal computer performs image recognition and preprocessing operations, and generates a preset rust removal track according to the image information processing result, so that the laser head 42 moves according to the preset rust removal track to remove rust.

It should be noted that the derusting process of the derusting equipment comprises the following steps:

loading, namely installing the axle box on the positioning table 3;

the control system 6 is started, and the driving mechanism 41 controls the sliding table 413 to enter the inner wall of the axle box;

starting the vision system 5, and starting image acquisition and recognition, wherein at the moment, the laser head 42 and the camera can rotate by 360 degrees to match with image recognition and laser derusting;

the control system 6 automatically edits the track according to the image recognition result to generate a preset derusting track, and controls the laser head 42 to derust along the track after judging that the preset derusting track is correct;

after the laser head 42 finishes moving according to the preset rust removal track, image recognition is carried out again to check whether the rust is removed completely, and if not, the track is edited according to the new rust position; if the defects are completely removed, the control system 6 can automatically judge whether the inner wall of the axle box has cracks and other damages according to the image recognition function, if the defects exist, the detection is carried out, and if the defects do not exist, the blanking is carried out, and the rust removal work of the next axle box is started.

Regarding the image capturing method: the camera is placed at the middle point of the axis of the axle box, one picture is shot and marked every 60 degrees from the initial position, six pictures are shot in total, and the image of one circle of the axle box can be acquired; if the height of the axle box is large, all images cannot be acquired at one time, two points can be selected at the axis position, and the images are acquired by rotating for two circles; if the field of view of the camera is small, the rotation angle can be slightly reduced, and more images can be acquired.

Regarding image processing: the rust and metal color distinguishing scale is obvious, firstly, the acquired image is converted into a gray scale image or a monochromatic image, then, an automatic threshold segmentation method is adopted after denoising, a rust part can be found, and the degree of the rust is judged according to the depth of the rust color.

Editing a preset derusting track: the laser head 42 is installed at the same axis position of the camera, the consistency of the initial coordinates is guaranteed, a rectangle tangent to the periphery of the rust can be generated according to the position of the rust in the image processing result, as shown in fig. 7, length and width information and coordinate points of the rectangle can be obtained according to the image processing result, after all rectangle information of the rust on the inner wall of the axle box is obtained, tracks can be edited according to the information, rust removal can be carried out along the tracks, laser power can be properly increased in an area with deep rust color, the moving speed is reduced, and the rust removal is guaranteed to be clean.

For the workpiece of the axle box, different rust grades can have a rust color matched with the workpiece, and the rust degree grade can be set to A, B, C, D, wherein A is a steel surface which is covered with adhered scale in a large area and has little rust; b is the steel surface which has started to rust and the scale has started to peel off; c is the steel surface which has scale spalled or can be scraped due to corrosion, but only a small amount of pitting corrosion is observed under normal visual observation; d is the steel surface which has been peeled off due to corrosion and has been observed to have commonly occurred pitting under normal visual observation. The rust of each grade can be matched with the laser power and the moving speed suitable for the rust through experiments, and during image recognition, the rust of which grade is judged through colors, and then the power and the speed matched with the rust are adjusted.

It should be noted that the image processing function of the control system 6 and the function of controlling the laser head 42 to move according to the preset rust removing track, the image acquisition function of the vision system 5, and the laser rust removing function of the laser head 42 are all well known by those skilled in the art, and the specific setting mode may refer to the prior art, which is not a protection focus of the present application, and the present application is mainly to implement the rust removing function of the axle box through the connection relationship of the control system 6, the vision system 5, the laser head 42, and the like.

The setting mode can meet the operation requirements of axle boxes of different models, the circle center of the inner diameter of the axle box can be accurately positioned, the rust position can be automatically identified by utilizing the image identification function of the control system 6, and the track is edited according to the identification result and the operation is carried out; the control system 6 can have two kinds of manual and automatic operation modes, and the operator can select according to the requirement of oneself, and in case the system breaks down, manual operation also can work accurately safely, under the condition that certain operation link breaks down, can not influence other part functions, can not lead to the paralytic production of system influence.

Meanwhile, the equipment adopts laser to remove rust, so that a medium such as a rust remover is not required to be added, a special cleaning area is not required to be established, the environment is protected, and resources are saved; the system has perfect safety guarantee functions, including but not limited to: the anti-misoperation function and the fault diagnosis, detection and alarm display function are realized; the equipment is fully opened, so that an operator can conveniently observe the working condition of the equipment at any time and can timely stop the emergency; the equipment reservation information management interface can upload the self state and the working state of the equipment according to the management requirement.

On the basis, rust peeling exists in the laser rust removing process, smoke and dust can be generated, and therefore the equipment is provided with the smoke and dust purification system 7, the smoke and dust purification system 7 is connected with the positioning table 3, specifically, the smoke and dust purification system 7 comprises a dust suction device 71 and a smoke and dust purifier 72 connected with the dust suction device 71, one end of a dust suction pipe of the dust suction device 71 is in seamless connection with the positioning table 3, and is matched with a high-power suction fan to absorb all wastes generated in the rust removing process, the other end of the dust suction pipe is connected with the smoke and dust purifier 72 to heavily filter the wastes, and gases exhausted by the smoke and dust purification system 7 can reach the standard of indoor emission, so that the cleanness and tidiness of the environment are ensured.

It is noted that, in this specification, relational terms such as first and second, and the like are used solely to distinguish one entity from another entity without necessarily requiring or implying any actual such relationship or order between such entities.

It is right above the utility model provides a rust cleaning equipment has carried out detailed introduction. The principles and embodiments of the present invention have been explained herein using specific examples, and the above descriptions of the embodiments are only used to help understand the solution and its core idea of the present invention. It should be noted that, for those skilled in the art, without departing from the principle of the present invention, the present invention can be further modified and modified, and such modifications and modifications also fall within the protection scope of the appended claims.

Claims (10)

1. The rust removal equipment is characterized by comprising a positioning table (3) used for positioning a to-be-derusted part (01), a rust removal executing assembly (4) used for removing rust on the to-be-derusted part (01) on the positioning table (3) and a control system (6) connected with the rust removal executing assembly (4), wherein the rust removal executing assembly (4) is configured to be movable under the control of the control system (6) so as to remove rust on the to-be-derusted part (01).

2. The rust removing apparatus as claimed in claim 1, wherein the rust removal performing assembly (4) comprises a driving mechanism (41) and a laser head (42) provided on the driving mechanism (41) to emit laser to a rust removing surface of the member (01) to be rust removed to achieve rust removal.

3. The rust removing apparatus as claimed in claim 2, wherein the drive mechanism (41) includes a lateral transfer portion (411), a longitudinal transfer portion (412), and a slide table (413), the longitudinal transfer portion (412) is connected to the lateral transfer portion (411), the slide table (413) is connected to the longitudinal transfer portion (412), and the longitudinal transfer portion (412) is movable in the horizontal direction, and the slide table (413) is movable in the vertical direction.

4. The derusting apparatus as recited in claim 3, wherein the laser head (42) is movably connected to the slide table (413).

5. The rust removing apparatus as claimed in claim 2, further comprising a vision system (5) connected to the control system (6) for acquiring image information of a rust portion of the member (01) to be rust removed, wherein the acquired image information is transmitted to the control system (6) through the vision system (5) so that the control system (6) can control the movement of the laser head (42).

6. The rust removing device as claimed in claim 5, wherein the control system (6) is specifically an industrial personal computer, and when the industrial personal computer receives the image information acquired by the vision system (5), the industrial personal computer generates a preset rust removing track according to the image information processing result, so that the laser head (42) can move according to the preset rust removing track to remove rust.

7. The rust removing apparatus as claimed in claim 2, further comprising a support (1), wherein the support (1) comprises an i-beam (11), a column (12) and a base (13), the driving mechanism (41) is mounted on the i-beam (11), and the positioning table (3) is fixedly connected to the base (13).

8. The rust removing apparatus as claimed in claim 7, characterized in that the positioning table (3) comprises a circular table (31) and a three-jaw chuck (32) provided on the circular table (31) for fixing the member (01) to be rust removed.

9. The descaling apparatus according to any one of claims 1 to 8, further comprising a smoke purification system (7) connected to the positioning table (3) for sucking smoke generated by descaling and purifying the smoke to discharge purified gas.

10. The rust removing apparatus as claimed in claim 9, wherein said smoke cleaning system (7) comprises a dust suction device (71) and a smoke cleaner (72) connected to said dust suction device (71).

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