CN115011959A

CN115011959A - Laser cladding powder distributor

Info

Publication number: CN115011959A
Application number: CN202210497239.9A
Authority: CN
Inventors: 范平一; 冯奕鑫; 冯亚程
Original assignee: Nantong Debang New Material Technology Co ltd
Current assignee: Nantong Debang New Material Technology Co ltd
Priority date: 2022-05-09
Filing date: 2022-05-09
Publication date: 2022-09-06

Abstract

The invention discloses a laser cladding powder distributor, and relates to the technical field of laser cladding powder distributors; in order to solve the problem of uneven powder distribution; the novel powder guide device comprises a main body cylinder, the bottom outer wall of the main body cylinder is provided with a guide cylinder, the bottom outer wall of the guide cylinder is provided with powder discharging nozzles distributed equidistantly, the top outer wall of the main body cylinder is opened with a mounting groove, the circumferential inner wall of the mounting groove is provided with a material cylinder, the top outer wall of the main body cylinder is bonded with a handle, a rotary guide mechanism is arranged inside the main body cylinder, a guide groove is formed in the guide cylinder, the bottom outer wall of the guide cylinder is fixed with a guide shaft through a bearing, the structure of the guide shaft is a hexagonal structure, the relative outer wall of the guide shaft is bonded with a plastic soft guide piece respectively, the outer walls of the other two sides of the guide shaft are bonded with filter screens respectively, and the circumferential inner wall of the main body cylinder is bonded with a guide disc through a sealing ring. The invention ensures that the metal powder uniformly falls into the powder outlet nozzle, and avoids the problem of nonuniform powder outlet.

Description

Laser cladding powder distributor

Technical Field

The invention relates to the technical field of laser cladding powder distributors, in particular to a laser cladding powder distributor.

Background

The laser cladding is a technological method which is characterized in that a selected coating material is placed on the surface of a cladded substrate in different material adding modes, is simultaneously melted with a thin layer on the surface of the substrate through laser irradiation, is rapidly solidified to form a surface coating with extremely low dilution and is metallurgically combined with the substrate, and the wear resistance, corrosion resistance, heat resistance, oxidation resistance and electrical characteristics of the surface of a base layer are obviously improved, so that the aim of surface modification or repair is fulfilled.

Through retrieval, the patent with the Chinese patent application number of CN201520252340.3 discloses a laser cladding coaxial three-way powder feeding device, belonging to the corollary equipment of laser processing equipment. The upper end of the copper focusing lens connecting cylinder is provided with a focusing lens, the lower end of the copper focusing lens connecting cylinder is connected with the adjustable light guide cylinder through a flange plate, the lower part of the adjustable light guide cylinder is connected with the copper light guide cylinder through a flange plate, and the copper light guide cylinder is connected with the conical copper seat. The laser cladding coaxial three-way powder feeding device in the patent has the following defects:

although the whole device performs the powder feeding operation on the laser, if the powder distributor is not in a vertical state, the metal powder is easily uneven under the influence of gravity, and therefore a laser cladding powder distributor is needed.

Disclosure of Invention

The invention aims to solve the defects in the prior art and provides a laser cladding powder distributor.

In order to achieve the purpose, the invention adopts the following technical scheme:

the utility model provides a laser cladding divides whitewashed ware, including a main part section of thick bamboo, the bottom outer wall of a main part section of thick bamboo is provided with the guide cylinder, and the bottom outer wall of guide cylinder is provided with the play powder mouth that the equidistance distributes respectively, the top outer wall of a main part section of thick bamboo is opened there is the mounting groove, and the circumference inner wall of mounting groove is provided with the feed cylinder, the top outer wall of a main part section of thick bamboo bonds and has the handle, the inside rotatory guide mechanism that is provided with of a main part section of thick bamboo, be provided with the guide slot in the guide cylinder, and the bottom outer wall of guide cylinder is fixed with the guide shaft through the bearing, the structure of guide shaft is the hexagon structure, the relative outer wall of guide shaft bonds respectively has the soft guide piece of plastic, and the other looks both sides outer wall of guide shaft bonds respectively has the filter screen.

Preferably: the inner wall of the circumference of the main body cylinder is bonded with a material guide disc through a sealing ring, three sides of the circumference of the material guide disc are respectively provided with two rotary cylinders and a guide connection cylinder, and the outer wall of the top of the material guide disc is provided with a material guide groove.

Further: the inner wall of the circumference of the bottom of the guide chute is provided with guide holes distributed at equal intervals, the outer wall of the bottom of the guide plate is provided with a groove, the outer wall of the circle center of the groove is bonded with a mounting ring, an annular chute is arranged between the groove and the mounting ring, and the inner wall of the circumference of the top of the guide chute is connected with the bottom of the charging barrel through a hopper.

On the basis of the scheme: the rotary material guide mechanism comprises two rotary drums, a guide connecting cylinder, a first transmission wheel, a transmission belt, a second transmission wheel, a motor, a triangular guide plate, three guide rods, three rotating shafts and a receiving cylinder, the two rotary drums and the guide connecting cylinder are respectively bonded on the circumferences of three sides of the material guide plate, and the motor is fixed on one side of the top of the material guide plate through a support block.

The better scheme in the scheme is as follows: the three rotating shafts are respectively connected into the two rotating drums and the guide connecting barrel through bearings, the first driving wheel is arranged at the top end of the rotating shaft in the rotating drums, the output end of the motor is provided with a connecting shaft, and the second driving wheel is sleeved on the circumference of the bottom of the connecting shaft.

As a further scheme of the invention: the transmission belt is sleeved on the circumferences of the first transmission wheel and the second transmission wheel, the three guide rods are respectively sleeved on the circumferences of the bottom ends of the three rotating shafts, and the three ends of the triangular guide plate are respectively connected to one ends of the three guide rods through rotating shafts.

Meanwhile, the bottom of the triangular guide plate is provided with a mounting hole, the bearing cylinder is arranged in the mounting hole, and the bottom of the bearing cylinder is connected in the annular sliding groove in a sliding mode.

As a preferable aspect of the present invention: the inner wall of the circumferential bottom of the bearing cylinder is bonded with two sealing barrier strips, and the circumferential inner structure of the bearing cylinder is of a tapered hole structure.

Meanwhile, a friction strip is bonded on the outer side of the circumferential bottom of the receiving cylinder, which is close to the sealing barrier strip.

The invention has the beneficial effects that:

1. this laser cladding divides whitewashed ware, in operation, pour into metal powder into in to the feed cylinder, and start rotatory guide mechanism, and the rotatory guide mechanism of work has effectively promoted the orderly guide of metal powder in the feed cylinder, make metal powder can accomplish the centrifugal rotation action in a main part section of thick bamboo, at this moment, rotatory metal powder fully spreads into the feed cylinder top, and do the free fall motion, the metal powder that spreads simultaneously meets the soft guide piece of plastic in the feed cylinder, can accomplish the short time and cut, make the metal powder of fritter decompose, and the filter screen has also effectively played the effect of patting metal powder, guarantee that metal powder evenly falls into out the powder mouth in, avoid going out the uneven problem of powder.

2. According to the laser cladding powder distributor, metal powder in a charging barrel enters a material guide groove through a hopper, metal powder is orderly and uniformly guided into the bottom of a material guide disc through material guide holes in the material guide groove, a motor is started to drive a connecting shaft to rotate, the rotating connecting shaft drives a second driving wheel to rotate, a first driving wheel is driven to rotate through a driving belt, the rotating first driving wheel effectively promotes the rotation of a rotating shaft in a rotating drum, therefore, a triangular guide plate is promoted to do circular motion at the bottom of the material guide disc through the linkage relation of three guide rods, the triangular guide plate and the rotating shaft, meanwhile, the bottom of a bearing barrel on the inner side of the triangular guide plate rotates in an annular sliding groove at a high speed, the metal powder is collected in a rotating mode and is mixed and spread above the material guide barrel, and therefore the mixing effect after the metal powder is dispersed and distributed is promoted, and the subsequent centrifugal spreading quality of the metal powder is ensured.

3. This laser cladding divides whitewashed ware, when a holding section of thick bamboo slides in annular spout, the friction strip can effectively reduce and accept bobbin base wearing and tearing degree, guarantees to hold the efficiency that a holding section of thick bamboo accepted metal powder, and the setting of sealed blend stop has effectively avoided a holding section of thick bamboo in doing the circular motion in-process, and metal powder takes place the problem of edge leakage, has improved the sealed effect of guide.

Drawings

Fig. 1 is a schematic structural view of a laser cladding powder distributor according to the present invention;

fig. 2 is a schematic structural view of a rotary material guiding mechanism inside a laser cladding powder distributor according to the present invention;

fig. 3 is a schematic bottom structure view of a rotary material guiding mechanism inside a laser cladding powder distributor according to the present invention;

FIG. 4 is a schematic view of an internal structure of a material guiding barrel in a laser cladding powder distributor according to the present invention;

fig. 5 is a schematic bottom structure view of a receiving cylinder in a laser cladding powder distributor according to the present invention.

In the figure: 1. a powder outlet nozzle; 2. a material guide cylinder; 3. a main body barrel; 4. a charging barrel; 5. a grip; 6. a rotating drum; 7. a material guide plate; 8. a guide connecting cylinder; 9. a first drive pulley; 10. a transmission belt; 11. a second transmission wheel; 12. a motor; 13. a material guide chute; 14. a material guide hole; 15. a triangular guide plate; 16. a guide bar; 17. an annular chute; 18. a mounting ring; 19. a rotating shaft; 20. a receiving cylinder; 21. a guide groove; 22. filtering with a screen; 23. a plastic soft material guide sheet; 24. a guide shaft; 25. sealing the barrier strip; 26. a tapered bore; 27. and rubbing the strips.

Detailed Description

The technical solution of the present patent will be described in further detail with reference to the following embodiments.

Reference will now be made in detail to embodiments of the present patent, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are illustrative only for the purpose of explaining the present patent and are not to be construed as limiting the present patent.

In the description of this patent, it is to be understood that the terms "center," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in the orientations and positional relationships indicated in the drawings for the convenience of describing the patent and for the simplicity of description, and are not intended to indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and are not to be considered limiting of the patent.

In the description of this patent, it is noted that unless otherwise specifically stated or limited, the terms "mounted," "connected," and "disposed" are to be construed broadly and can include, for example, fixedly connected, disposed, detachably connected, disposed, or integrally connected and disposed. The specific meaning of the above terms in this patent may be understood by those of ordinary skill in the art as appropriate.

Example 1:

a laser cladding powder distributor is shown in figures 1-4 and comprises a main body cylinder 3, wherein the outer wall of the bottom of the main body cylinder 3 is connected with a material guide cylinder 2 through threads, the outer wall of the bottom of the material guide cylinder 2 is respectively connected with powder outlet nozzles 1 which are distributed equidistantly through threads, the outer wall of the top of the main body cylinder 3 is provided with a mounting groove, the circumferential inner wall of the mounting groove is fixedly provided with a material cylinder 4 through threads, the outer wall of the top of the main body cylinder 3 is bonded with a handle 5, a rotary material guide mechanism is arranged inside the main body cylinder 3, a guide groove 21 is arranged in the material guide cylinder 2, the outer wall of the bottom of the material guide cylinder 2 is fixedly provided with a guide shaft 24 through a bearing, the guide shaft 24 is of a hexagonal structure, the opposite outer walls of the guide shaft 24 are respectively bonded with a plastic soft material guide piece 23, and the outer walls of the other two sides of the guide shaft 24 are respectively bonded with a filter screen 22; during operation, pour into metal powder into in the feed cylinder 4, and start rotatory guide mechanism, and the rotatory guide mechanism of work has effectively promoted the orderly guide of metal powder in the feed cylinder 4, make metal powder can accomplish centrifugal rotation action in main part section of thick bamboo 3, at this moment, rotatory metal powder fully spreads and spills into guide cylinder 2 tops, and do the motion of freely falling body, the metal powder that spills simultaneously runs into the soft guide piece 23 of plastic in the guide cylinder 2, can accomplish the short time and cut, make the metal powder of fritter decompose, and filter screen 22 has also effectively played the effect of patting metal powder, guarantee that metal powder evenly falls into out powder mouth 1 in, avoid going out the uneven problem of powder.

In order to promote the rotary material guiding of the metal powder; as shown in fig. 2-3, a material guiding disc 7 is adhered to the inner circumferential wall of the main body cylinder 3 through a sealing ring, three sides of the circumference of the material guiding disc 7 are respectively provided with two rotating cylinders 6 and a guide connecting cylinder 8, the outer top wall of the material guiding disc 7 is provided with a material guiding groove 13, the inner bottom circumferential wall of the material guiding groove 13 is provided with material guiding holes 14 distributed equidistantly, the outer bottom wall of the material guiding disc 7 is provided with a groove, the outer center wall of the groove is adhered with a mounting ring 18, an annular sliding groove 17 is arranged between the groove and the mounting ring 18, the inner top circumferential wall of the material guiding groove 13 is connected with the bottom of the material cylinder 4 through a hopper, the rotary material guiding mechanism comprises two rotating cylinders 6, a guide connecting cylinder 8, a first driving wheel 9, a second driving wheel 10, a second driving wheel 11, a motor 12, a triangular guide plate 15, three guide rods 16, three rotating shafts 19 and a receiving cylinder 20, and the two rotating cylinders 6 and the guide connecting cylinder 8 are respectively adhered to the circumferences of the three sides of the material guiding disc 7, the motor 12 is fixed on one side of the top of the material guide plate 7 through a support block, three rotating shafts 19 are respectively connected in two rotating drums 6 and a guide connecting cylinder 8 through bearings, a first driving wheel 9 is connected on the top end of the rotating shaft 19 in the rotating drum 6 through threads, the output end of the motor 12 is connected with a connecting shaft through threads, a second driving wheel 11 is sleeved on the bottom circumference of the connecting shaft, a driving belt 10 is sleeved on the circumferences of the first driving wheel 9 and the second driving wheel 11, three guide rods 16 are respectively sleeved on the bottom circumference of the three rotating shafts 19, three ends of a triangular guide plate 15 are respectively connected with one end of the three guide rods 16 through rotating shafts, a mounting hole is formed in the bottom of the triangular guide plate 15, a bearing cylinder 20 is fixed in the mounting hole through threads, and the bottom of the bearing cylinder 20 is slidably connected in an annular chute 17.

In operation, the metal powder in the charging barrel 4 enters the material guiding groove 13 through the hopper, the material guiding holes 14 in the material guiding groove 13 sequentially and uniformly guide the metal powder to the bottom of the material guiding disc 7, the connecting shaft is driven to rotate by the starting motor 12, the rotating connecting shaft drives the second driving wheel 11 to rotate and drives the first driving wheel 9 to rotate through the driving belt 10, the rotating first driving wheel 9 effectively promotes the rotation of the rotating shaft 19 in the rotating drum 6, therefore, the triangular guide plate 15 is promoted to do circular motion at the bottom of the material guiding disc 7 through the linkage relation of the three guide rods 16, the triangular guide plate 15 and the rotating shaft 19, and meanwhile, the bottom of the receiving barrel 20 inside the triangular guide plate 15 rotates at a high speed in the annular sliding groove 17 and collects the metal powder in a rotating way and is mixed and spread above the material guiding barrel 2, thereby, not only the mixing effect after the metal powder is dispersed and dispersed is promoted, and the subsequent centrifugal spreading quality of the metal powder is ensured.

In the embodiment, when in use, metal powder is injected into the charging barrel 4, the metal powder in the charging barrel 4 enters the guide chute 13 through the hopper, the guide holes 14 in the guide chute 13 sequentially and uniformly guide the metal powder to the bottom of the guide plate 7, the connecting shaft is driven to rotate by the starting motor 12, the rotating connecting shaft drives the second driving wheel 11 to rotate, the first driving wheel 9 is driven to rotate by the driving belt 10, the rotating first driving wheel 9 effectively promotes the rotation of the rotating shaft 19 in the rotating drum 6, therefore, the triangular guide plate 15 is promoted to do circular motion at the bottom of the guide plate 7 through the linkage relationship of the three guide rods 16, the triangular guide plate 15 and the rotating shaft 19, meanwhile, the bottom of the receiving barrel 20 inside the triangular guide plate 15 rotates at a high speed in the annular chute 17, the metal powder is collected in a rotating mode and is mixed and spread above the guide barrel 2, and do the free fall motion, the metal powder that spreads simultaneously meets the soft guide piece 23 of plastic in the guide cylinder 2, can accomplish the short time and cut for the metal powder of fritter decomposes, and filter screen 22 has also effectively played the effect of patting metal powder, guarantees that metal powder evenly falls into out powder mouth 1 in, avoids out the inhomogeneous problem of powder.

Example 2:

a laser cladding powder distributor is shown in figure 5, and aims to ensure that metal powder has the problem of side leakage in the process of circular motion of a bearing cylinder 20; the present embodiment is modified from embodiment 1 as follows: two sealing barrier strips 25 are bonded on the inner wall of the circumferential bottom of the receiving cylinder 20, the circumferential inner structure of the receiving cylinder 20 is a tapered hole 26 structure, and a friction strip 27 is bonded on the outer side of the circumferential bottom of the receiving cylinder 20, which is close to the sealing barrier strips 25; when the receiving cylinder 20 slides in the annular sliding groove 17, the friction strip 27 can effectively reduce the abrasion degree of the bottom of the receiving cylinder 20, the efficiency of the receiving cylinder 20 for receiving metal powder is ensured, meanwhile, the arrangement of the sealing barrier strip 25 effectively avoids the problem that the metal powder leaks laterally when the receiving cylinder 20 does circular motion, and the sealing effect of the guide is improved.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims

1. A laser cladding powder distributor comprises a main body cylinder (3), and is characterized in that a material guide cylinder (2) is arranged on the outer wall of the bottom of the main body cylinder (3), the outer wall of the bottom of the guide cylinder (2) is respectively provided with powder outlet nozzles (1) which are distributed at equal intervals, the outer wall of the top of the main body cylinder (3) is provided with a mounting groove, a charging barrel (4) is arranged on the circumferential inner wall of the mounting groove, a handle (5) is bonded on the outer wall of the top of the main body barrel (3), a rotary material guide mechanism is arranged in the main body barrel (3), a guide groove (21) is arranged in the material guide barrel (2), a guide shaft (24) is fixed on the outer wall of the bottom of the guide cylinder (2) through a bearing, the guide shaft (24) is of a hexagonal structure, plastic soft guide pieces (23) are respectively bonded on the opposite outer walls of the guide shaft (24), and the outer walls of the other two sides of the guide shaft (24) are respectively adhered with a filter screen (22).

2. The laser cladding powder distributor according to claim 1, wherein a material guide disc (7) is bonded to the inner circumferential wall of the main body cylinder (3) through a sealing ring, two rotating cylinders (6) and a guide connecting cylinder (8) are respectively arranged on three circumferential sides of the material guide disc (7), and a material guide groove (13) is formed in the outer top wall of the material guide disc (7).

3. The laser cladding powder distributor according to claim 2, wherein the inner wall of the circumference of the bottom of the material guide groove (13) is provided with material guide holes (14) distributed at equal intervals, the outer wall of the bottom of the material guide disc (7) is provided with a groove, the outer wall of the circle center of the groove is bonded with a mounting ring (18), an annular chute (17) is arranged between the groove and the mounting ring (18), and the inner wall of the circumference of the top of the material guide groove (13) is connected with the bottom of the charging barrel (4) through a hopper.

4. The laser cladding powder distributor according to claim 1, wherein the rotary material guiding mechanism comprises two rotary drums (6), a guide connecting drum (8), a first driving wheel (9), a driving belt (10), a second driving wheel (11), a motor (12), a triangular guide plate (15), three guide rods (16), three rotating shafts (19) and a receiving drum (20), the two rotary drums (6) and the guide connecting drum (8) are respectively adhered to three side circumferences of the material guiding disc (7), and the motor (12) is fixed to one side of the top of the material guiding disc (7) through a support block.

5. The laser cladding powder distributor according to claim 4, wherein three rotating shafts (19) are respectively connected to the two rotating drums (6) and the guide connecting cylinder (8) through bearings, the first driving wheel (9) is arranged at the top end of the rotating shaft (19) in the rotating drum (6), the output end of the motor (12) is provided with a connecting shaft, and the second driving wheel (11) is sleeved on the circumference of the bottom of the connecting shaft.

6. The laser cladding powder distributor according to claim 4, wherein the driving belt (10) is sleeved on the circumferences of the first driving wheel (9) and the second driving wheel (11), the three guide rods (16) are respectively sleeved on the circumferences of the bottom ends of the three rotating shafts (19), and the three ends of the triangular guide plate (15) are respectively connected to one ends of the three guide rods (16) through the rotating shafts.

7. The laser cladding powder distributor according to claim 6, wherein a mounting hole is formed in the bottom of the triangular guide plate (15), the receiving cylinder (20) is arranged in the mounting hole, and the bottom of the receiving cylinder (20) is slidably connected into the annular chute (17).

8. The laser cladding powder distributor according to claim 1, wherein two sealing bars (25) are bonded to the inner wall of the bottom of the circumference of the receiving cylinder (20), and the inner structure of the circumference of the receiving cylinder (20) is a conical hole (26) structure.

9. The laser cladding powder distributor according to claim 8, wherein a rubbing strip (27) is bonded to the circumferential bottom of the receiving cylinder (20) near the outer side of the sealing barrier strip (25).