CN112030158A

CN112030158A - Novel water-cooled wall laser cladding equipment

Info

Publication number: CN112030158A
Application number: CN202010938039.3A
Authority: CN
Inventors: 庞旭坤; 王春冬; 梁静; 李涛; 王坤; 修洪伟; 王成震
Original assignee: Jiangsu Keneng Zengmai Intelligent Manufacturing Technology Co ltd; Tianjin Keneng Zhixiang Photoelectric Technology Co ltd; Harbin Keneng Cladding Technology Co ltd
Current assignee: Harbin Keneng Cladding Technology Co ltd; Jiangsu Keneng Huanneng Power Technology Co ltd
Priority date: 2020-09-09
Filing date: 2020-09-09
Publication date: 2020-12-04
Anticipated expiration: 2040-09-09
Also published as: CN112030158B

Abstract

The invention discloses novel water-cooled wall laser cladding equipment, and relates to the field of cladding equipment; the laser powder collecting device comprises a laser head moving mechanism, a bottom supporting mechanism, a main frame, a turnover mechanism, a powder collecting hopper, a working platform and an equipment storing platform; the water-cooled wall tube panel fixing devices are symmetrically arranged at two ends of the main frame, and the water-cooled wall tube panels are fixedly arranged between the water-cooled wall tube panel fixing devices; the water wall tube panel fixing device is arranged on the turnover mechanism, and the turnover mechanism is arranged on the main frame; two laser head moving mechanisms are arranged on two sides of the water wall tube panel, and a powder feeder is arranged on each laser head moving mechanism and connected with a laser head; the powder collecting funnels are uniformly arranged below the water wall tube panel; a working platform is arranged on one side of the bottom supporting mechanism, and an equipment storage platform is arranged above the working platform. The invention accelerates the deposition speed, deposits on multiple surfaces, reduces the times of feeding and discharging, and indirectly reduces the production cost of enterprises.

Description

Novel water-cooled wall laser cladding equipment

Technical Field

The invention relates to the technical field of cladding equipment, in particular to novel water-cooled wall laser cladding equipment.

Background

The water-cooled wall is an indispensable main part in a power plant boiler, and the problems of abrasion, corrosion and the like inevitably occur in daily use, so that the local water-cooled wall becomes thin, the service life is influenced, and the safe operation of the boiler is influenced. A layer of metal material is deposited on the surface of the water-cooled wall, so that the water-cooled wall is wear-resistant and corrosion-resistant, the service life is greatly prolonged, and the production cost is also reduced; this technology has been accepted by more and more businesses. The existing deposition technology mainly adopts surfacing welding and laser, wherein the laser deposition is well formed, and a deposition layer is uniform and gradually becomes a mainstream mode; however, the existing laser cladding equipment is often slow in speed, large in occupied area, troublesome in feeding and discharging and the like, greatly limits cladding efficiency, and increases working procedures and workload.

Disclosure of Invention

The invention aims to provide novel water-cooled wall laser cladding equipment, which aims to solve the problems in the prior art, accelerate the cladding speed, clad in multiple surfaces, reduce the times of feeding and discharging and indirectly reduce the production cost of enterprises.

In order to achieve the purpose, the invention provides the following scheme:

the invention provides novel water-cooled wall laser cladding equipment which comprises a laser head moving mechanism, a bottom supporting mechanism, a main frame, a turnover mechanism, a powder collecting funnel, a working platform and an equipment storage platform, wherein the laser head moving mechanism is arranged on the main frame; the water-cooled wall tube panel fixing devices are symmetrically arranged at two ends of the main frame, and the water-cooled wall tube panels are fixedly arranged between the water-cooled wall tube panel fixing devices; the water wall tube panel fixing device is arranged on the turnover mechanism, and the turnover mechanism is arranged on the main frame; two laser head moving mechanisms are arranged on two sides of the water wall tube panel, and powder feeders are arranged on the laser head moving mechanisms and connected with laser heads; the bottom of the main frame is fixedly arranged on the bottom supporting mechanism, the bottom supporting mechanism is provided with a powder collecting funnel, and a plurality of powder collecting funnels are uniformly arranged below the water wall tube panel; the bottom supporting mechanism is arranged on one side of the working platform, and the equipment storage platform is arranged above the working platform.

Optionally, laser head moving mechanism is connected with servo, just laser head moving mechanism includes the X axis nature module that fixed level set up, slidable mounting has the Z axis nature module of vertical setting on the X axis nature module, it is provided with Y axis nature module to slide on the Z axis nature module, S axle motion is installed to Y axis nature module one end, the laser head install in on the S axle motion, send the powder ware install in Z axis nature module top one side.

Optionally, the S-axis movement mechanism is slidably connected to the Y-axis linear module through a slider; the S-axis movement mechanism comprises an adapter, the laser head is mounted at the bottom of the adapter, the top of the adapter is connected with a servo motor through a speed reducer, and the servo motor can drive the adapter to horizontally rotate; adaptor one end is through connecting plate fixedly connected with scanner, the scanner is located the laser head top.

Optionally, the main frame comprises two main frame risers which are symmetrically arranged, the main frame risers are fixedly connected through a horizontal connecting plate, circular through holes are formed in the main frame risers, and the turnover mechanism is arranged at the positions of the circular through holes.

Optionally, the turnover mechanism includes a rotary bearing installed in the circular through hole, meshing teeth are formed on the outer side of the rotary bearing, the meshing teeth are in meshing connection with a gear, the gear is connected with a stepping motor through a speed reduction mechanism, and the stepping motor is fixedly arranged on the main frame; the water-cooled wall tube panel fixing device is fixedly connected to the end face of one end of the slewing bearing through a slewing bearing mounting disc, and rectangular holes are formed in the slewing bearing mounting disc.

Optionally, the water-cooled wall tube panel fixing device comprises a rectangular frame fixedly arranged on the turnover mechanism, a plurality of tightening bolts penetrate through the side wall of the rectangular frame, and the end portion of the water-cooled wall tube panel is arranged in the rectangular frame and is fixedly clamped through the tightening bolts.

Optionally, two rolling carrier rollers are symmetrically arranged at the inner top and the inner bottom of the rectangular frame, and the two rolling carrier rollers are horizontally arranged in the rectangular frame in a rolling manner.

Optionally, two the fixed horizontal bracket that is provided with between the main frame riser, evenly seted up a plurality of mounting holes on the horizontal bracket, it is a plurality of the powder is collected the funnel and is fixed mounting in proper order in the mounting hole.

Compared with the prior art, the invention has the following technical effects:

the invention has simple structure and convenient use; the laser head can move between any space point and any point in the process, and is controlled by a servo system, so that the accuracy and the stability are ensured. The Y-axis stroke is calculated, the water-cooled wall tube panel can be in close contact with the Y-axis stroke, the optimal deposition distance can be conveniently measured through a deposition process, and the Y-axis stroke is far away from the water-cooled wall tube panel, so that the water-cooled wall tube panel is prevented from collision during rotation. The S-axis movement mechanism adjusts the angle position of the laser head, and better deposits the cambered surface. The rolling carrier roller can enable the tube panel to be conveniently moved when the tube panel is hoisted in feeding and discharging. The powder that has not utilized completely among the cladding process falls on the bottom funnel, but through handling reuse after the funnel is collected, and then improves the powder utilization ratio. The work platform is higher than the funnel plane, and the grid net has been laid on the work platform, and the powder that falls to the platform like this can fall to the funnel through the grid net, conveniently collects the powder.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without inventive exercise.

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic structural diagram of the turnover mechanism and the working platform of the present invention;

FIG. 3 is an exploded view of the turnover mechanism of the present invention;

FIG. 4 is a schematic structural view of a water wall tube panel fixing device according to the present invention;

FIG. 5 is a schematic view of the position of the canting mechanism and powder collection hopper of the present invention;

FIG. 6 is a schematic view of the S-axis motion mechanism of the present invention;

FIG. 7 is a schematic structural diagram of a laser head moving mechanism according to the present invention;

FIG. 8 is an elevation view of the deposition process of the novel water wall laser deposition apparatus of the present invention;

FIG. 9 is a side view of the deposition process of the novel water wall laser deposition apparatus of the present invention;

FIG. 10 is a schematic diagram of the welding mode of the novel water-cooled wall laser welding equipment;

the device comprises a laser head moving mechanism 1, an X-axis linear module 101, a Z-axis linear module 102, a Y-axis linear module 103, an S-axis moving mechanism 104, a bottom supporting mechanism 2, a main frame 3, a turnover mechanism 4, a slewing bearing 401, a gear 402, a stepping motor 403, a slewing bearing mounting disc 404, a powder collecting funnel 5, a working platform 6, an equipment storage platform 7, a water wall tube panel fixing device 8, a rectangular frame 801, a jacking bolt 802, a rolling carrier roller 803, a water wall tube panel 9, a powder feeder 10, a laser head 11, an adapter 12, a servo motor 13, a scanner 14 and a speed reducer 15.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in further detail below.

The invention provides novel water-cooled wall laser cladding equipment, which comprises a laser head moving mechanism 1, a bottom supporting mechanism 2, a main frame 3, a turnover mechanism 4, a powder collecting funnel 5, a working platform 6 and an equipment storage platform 7, wherein the laser head moving mechanism is arranged on the upper portion of the equipment storage platform; the two ends of the main frame 3 are symmetrically provided with water wall tube panel fixing devices 8, and water wall tube panels 9 are fixedly arranged between the water wall tube panel fixing devices 8; the water wall tube panel fixing device 8 is arranged on the turnover mechanism 4, and the turnover mechanism 4 is arranged on the main frame 3; two laser head moving mechanisms 1 are arranged on two sides of a water wall tube panel 9, a powder feeder 10 is arranged on each laser head moving mechanism 1, and each powder feeder 10 is connected with a laser head 11; the bottom of the main frame 3 is fixedly arranged on the bottom supporting mechanism 2, the powder collecting funnels 5 are arranged on the bottom supporting mechanism 2, and the powder collecting funnels 5 are uniformly arranged below the water wall tube panel 9; a working platform 6 is arranged on one side of the bottom supporting mechanism 2, and an equipment storage platform 7 is arranged above the working platform 6.

Further preferably, the laser head moving mechanism 1 is connected with a servo system, the laser head moving mechanism 1 comprises an X-axis linear module 101 which is horizontally arranged fixedly, a Z-axis linear module 102 which is vertically arranged is arranged on the X-axis linear module 101 in a sliding mode, a Y-axis linear module 103 is arranged on the Z-axis linear module 102 in a sliding mode, an S-axis moving mechanism 104 is arranged at one end of the Y-axis linear module 103, the laser head 11 is arranged on the S-axis moving mechanism 104, and the powder feeder 10 is arranged on one side of the top of the Z-axis linear module 102. Each motion module of the laser head moving mechanism 1 includes a high-precision guide rail. The whole moving mechanism can move between any space point and any point in the process, and is controlled by a servo system, so that the accuracy and the stability are ensured. The Y-axis stroke is calculated, the tube panel can be contacted in a short distance, the optimal deposition distance can be conveniently measured by a deposition process, and the tube panel is far away from the tube panel after the tube panel is retreated, so that the tube panel is prevented from being collided when rotating.

The S-axis movement mechanism 104 is in sliding connection with the Y-axis linear module 103 through a sliding block; the S-axis movement mechanism 104 comprises an adapter, the laser head 11 is installed at the bottom of the adapter 12, the top of the adapter 12 is connected with a servo motor 13 through a speed reducer 15, and the servo motor 13 can drive the adapter 12 to horizontally rotate; one end of the adapter 12 is fixedly connected with a scanner 14 through a connecting plate, and the scanner 14 is positioned above the laser head 11. The adaptor 12 can adjust the angle position of the laser head 11, and better deposits the arc surface. The main frame 3 comprises two main frame risers which are symmetrically arranged, a circular through hole is formed in each main frame riser through a horizontal connecting plate fixedly connected with each other, and the turnover mechanism 4 is arranged at the position of the circular through hole.

Tilting mechanism 4 is including installing slewing bearing 401 in circular through-hole, and slewing bearing 401 is the customization, and the bearing inner race is the gear, and the inner circle is connected with main frame 3 to form the motion of whole tilting mechanism 4. The outer side of the slewing bearing 401 is provided with meshing teeth, the meshing teeth are in meshing connection with a gear 402, the gear 402 is connected with a stepping motor 403 through a speed reducing mechanism, and the stepping motor 403 is fixedly arranged on the main frame 3; the end face of one end of the slewing bearing 401 is fixedly connected with a water-cooled wall tube panel fixing device 8 through a slewing bearing mounting disc 404, and a rectangular hole is formed in the slewing bearing mounting disc 404. Thereby step motor 403 is connected with the speed reducer and drives tilting mechanism 4 through the gear and rotate, and step motor 403 top has the metal powder that the shield avoided dropping to get into step motor 403, influences life. The powder collection funnel 5 is made of sheet metal and is used for collecting falling powder. The powder that has not utilized completely among the cladding process falls on bottom powder collection funnel 5, but through handling reuse behind powder collection funnel 5 collection, and then improves the powder utilization ratio. Work platform 6 is higher than the funnel plane, and work platform 6 is last to be spread has the grid net, and the powder that falls on work platform 6 like this can fall in powder collection funnel 5 through the grid net, conveniently collects the powder.

The water wall tube panel fixing device 8 comprises a rectangular frame 801 fixedly arranged on the turnover mechanism 4, a plurality of tightening bolts 802 penetrate through the side wall of the rectangular frame 801, and the end portion of the water wall tube panel 9 is arranged in the rectangular frame 801 and is fixedly clamped through the tightening bolts 802. Two rolling supporting rollers 803 are symmetrically arranged at the inner top and the inner bottom of the rectangular frame 801, and the two rolling supporting rollers 803 are horizontally arranged in the rectangular frame 801 in a rolling manner. The horizontal frame is fixedly arranged between the two main frame vertical plates, a plurality of mounting holes are uniformly formed in the horizontal frame, and the powder collecting funnels 5 are sequentially and fixedly mounted in the mounting holes.

The equipment storage platform 7 is arranged on the upper part of the working platform 6, so that the space can be saved, workers can directly get on the equipment storage platform 7 from the working platform 6, and the equipment is convenient to detect and maintain. Because most of water-cooling walls adopt horizontal cladding's mode, water-cooling wall surface deposits the powder easily, influences follow-up cladding, so adopt rotatory cladding mechanism can effectively avoid the influence that the powder caused to cladding, can also collect the powder simultaneously, improve the powder rate of utilization. Based on the defects of the existing equipment, the invention improves and innovates the melting mode, the production cost, the automation control and the like.

The deposition process of the invention is as shown in fig. 8-10, after fixing the water wall tube panel 9, the two laser heads 11 start to collect the position points of movement and set parameters by manual operation at the same time, the equipment can automatically move according to the route, because of the need of laser deposition process, the laser head 11 can only deposit the upper half surface of the water wall tube panel 9, namely the surface A of each tube in the figure, from the top to deposit along the axial direction of the tube, after the end point, the angle is adjusted to return along the axial direction and deposit, until the surface A of one tube moves to the top of the next tube to continue to deposit, the laser heads on the two sides deposit at the same time, after all the surfaces A of the water wall tube panels 9 on the two sides are deposited, the laser head 11 returns to the zero point, the turnover mechanism 4 works, the whole water wall tube panel 9 is turned over, the water wall tube panel 9 on the lower side is turned, and further welding is continued. The upper surfaces of the two water-cooled wall tube panels 9 are deposited on one side of the water-cooled wall tube panels simultaneously by the laser heads 11 on the two sides, the moving mechanisms on the two sides are not interfered with each other, one set of control and deposition system is independently used, and the other side is not influenced in use and convenient to detect and maintain even if one side of equipment goes wrong.

The principle and the implementation mode of the invention are explained by applying a specific example, and the description of the embodiment is only used for helping to understand the method and the core idea of the invention; meanwhile, for a person skilled in the art, according to the idea of the present invention, the specific embodiments and the application range may be changed. In view of the above, the present disclosure should not be construed as limiting the invention.

Claims

1. The utility model provides a novel water-cooled wall laser deposition equipment which characterized in that: the laser powder collecting device comprises a laser head moving mechanism, a bottom supporting mechanism, a main frame, a turnover mechanism, a powder collecting hopper, a working platform and an equipment storing platform; the water-cooled wall tube panel fixing devices are symmetrically arranged at two ends of the main frame, and the water-cooled wall tube panels are fixedly arranged between the water-cooled wall tube panel fixing devices; the water wall tube panel fixing device is arranged on the turnover mechanism, and the turnover mechanism is arranged on the main frame; two laser head moving mechanisms are arranged on two sides of the water wall tube panel, and powder feeders are arranged on the laser head moving mechanisms and connected with laser heads; the bottom of the main frame is fixedly arranged on the bottom supporting mechanism, the bottom supporting mechanism is provided with a powder collecting funnel, and a plurality of powder collecting funnels are uniformly arranged below the water wall tube panel; the bottom supporting mechanism is arranged on one side of the working platform, and the equipment storage platform is arranged above the working platform.

2. The novel water-cooled wall laser cladding apparatus of claim 1, characterized in that: laser head moving mechanism is connected with servo, just laser head moving mechanism includes the X axis nature module that fixed level set up, slidable mounting has the Z axis nature module of vertical setting on the X axis nature module, it is provided with Y axis nature module to slide on the Z axis nature module, S axle motion is installed to Y axis nature module one end, the laser head install in on the S axle motion, powder feeder install in Z axis nature module top one side.

3. The novel water-cooled wall laser cladding apparatus of claim 2, characterized in that: the S-axis movement mechanism is in sliding connection with the Y-axis linear module through a sliding block; the S-axis movement mechanism comprises an adapter, the laser head is mounted at the bottom of the adapter, the top of the adapter is connected with a servo motor through a speed reducer, and the servo motor can drive the adapter to horizontally rotate; adaptor one end is through connecting plate fixedly connected with scanner, the scanner is located the laser head top.

4. The novel water-cooled wall laser cladding apparatus of claim 1, characterized in that: the main frame comprises two main frame vertical plates which are symmetrically arranged, the main frame vertical plates are fixedly connected through a horizontal connecting plate, circular through holes are formed in the main frame vertical plates, and the turnover mechanism is arranged at the positions of the circular through holes.

5. The novel water-cooled wall laser cladding apparatus of claim 4, characterized in that: the turnover mechanism comprises a rotary bearing arranged in the circular through hole, meshing teeth are arranged on the outer side of the rotary bearing, the meshing teeth are in meshing connection with a gear, the gear is connected with a stepping motor through a speed reducing mechanism, and the stepping motor is fixedly arranged on the main frame; the water-cooled wall tube panel fixing device is fixedly connected to the end face of one end of the slewing bearing through a slewing bearing mounting disc, and rectangular holes are formed in the slewing bearing mounting disc.

6. The novel water-cooled wall laser cladding apparatus of claim 5, characterized in that: the water-cooled wall tube panel fixing device comprises a rectangular frame fixedly arranged on the turnover mechanism, a plurality of tightening bolts penetrate through the side wall of the rectangular frame, and the end part of the water-cooled wall tube panel is arranged in the rectangular frame and is fixedly clamped through the tightening bolts.

7. The novel water-cooled wall laser cladding apparatus of claim 6, characterized in that: two rolling carrier rollers are symmetrically arranged at the inner top and the inner bottom of the rectangular frame, and the two rolling carrier rollers are horizontally arranged in the rectangular frame in a rolling manner.

8. The novel water-cooled wall laser cladding apparatus of claim 5, characterized in that: two the fixed horizontal stand that is provided with between the main frame riser, evenly seted up a plurality of mounting holes on the horizontal stand, it is a plurality of the powder is collected the funnel and is fixed mounting in proper order in the mounting hole.