CN115431185B

CN115431185B - Abrasive screening device for shot blasting machine

Info

Publication number: CN115431185B
Application number: CN202211381386.6A
Authority: CN
Inventors: 张宪文; 张斌; 赵毅; 丛亮; 杨强; 张恕强; 张守珉
Original assignee: Shandong Shangde Machinery Co ltd
Current assignee: Shandong Shangde Machinery Co ltd
Priority date: 2022-11-07
Filing date: 2022-11-07
Publication date: 2023-01-13
Anticipated expiration: 2042-11-07
Also published as: CN115431185A

Abstract

The invention discloses an abrasive screening device for a shot blasting machine, wherein a conveying belt is arranged in a shot blasting machine body, and a plurality of concave holes are formed in the surface of the conveying belt; a material distribution plate is arranged at the lower end of the conveying belt, a track trough plate is arranged on the material distribution plate, and the bottom of the material distribution plate is connected with a sand sieving screen plate; the bottom of the sand screening net plate is connected with a knocking component, and one end of the knocking component is connected with a material distributing component; screening subassembly is located screening sand otter board one side, this abrasive screening plant for shot-blasting machine, the abrasive material that the abrasive material was left on the transportation area carries out the primary separation at the shrinkage pool, mix the dull polish and drop to the branch flitch after the abrasive material, separate through a plurality of track frills, separate the abrasive material and be corresponding way, the dull polish of mixing drops from screening sand otter board, the power part that strikes the subassembly divides the material subassembly to carry out progressively separation at corresponding track frill department through the driving medium transmission to the abrasive material, then utilize the screening subassembly to separate the collection with detached abrasive material, and be favorable to the separately collection of the abrasive material of difference.

Description

Abrasive screening device for shot blasting machine

Technical Field

The invention relates to the technical field of shot blasting machines, in particular to an abrasive screening device for a shot blasting machine.

Background

The shot blasting machine is casting equipment for cleaning or strengthening the surface of a casting by using high-speed shot thrown by a shot blasting machine. The shot blasting machine can simultaneously perform sand falling, core removal and cleaning on the casting. In some areas, the mouth is also called a sand blasting machine and a sand blasting machine.

Abrasive material that shot-blasting machine was used is the abrasive material steel ball of different diameters, when the abrasive material steel ball was polished the work piece and is handled, with the dull polish of workpiece surface, the waste material, clearance such as burr, dull polish after the clearance etc. mix in abrasive material steel ball department, wait to transport the work piece along with this transportation after, concentrate the collection to the abrasive material, current mix in the abrasive material after having the dull polish, need screen the dull polish away, then screen again the abrasive material of difference, the screening process is comparatively complicated, and mix easily between the abrasive material, for this reason, we provide an abrasive material sieving mechanism for shot-blasting machine.

Disclosure of Invention

The invention aims to provide an abrasive screening device for a shot blasting machine, which aims to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a grinding material screening device for a shot blasting machine comprises a shot blasting machine body, wherein a conveying belt is arranged in the shot blasting machine body, and a plurality of concave holes for receiving grinding materials are formed in the surface of the conveying belt; a material distribution plate is arranged at the lower end of the conveying belt, a plurality of track groove plates which are opposite to the concave holes are arranged on the material distribution plate, and the bottom of the material distribution plate is connected with a sand sieving screen plate; the bottom of the sand screening net plate is connected with a knocking component for knocking the bottom of the sand screening net plate, and one end of the knocking component is connected with a material distributing component for distributing the grinding materials and the frosted materials at one end of the material distributing plate; and the screening assembly is positioned on one side of the sand screening net plate and used for distinguishing and collecting the grinding materials after the materials are distributed by the material distribution assembly.

Preferably, the end of the material distribution plate, which is far away from the conveying belt, is provided with inclined plate materials, and the inclined plate materials divide the lengths of the plurality of track groove plates according to equal difference;

one side of the track groove plate is provided with a circular groove through which the grinding materials pass, the material distribution component is distributed at the contact position of the inclined plate material and the track groove plate, one side of the material distribution plate is provided with a screening area, and the screening component is positioned at the screening area.

Preferably, the material distributing assembly comprises a material distributing rod arranged at the material distributing plate, the material distributing rod is located inside the track groove plate and is provided with a bent section, the distribution directions of every two adjacent bent sections are opposite, one end of the material distributing rod is rotatably connected with the outer side wall of the screening area, and one end, sliding through the material distributing plate, of the other end of the material distributing rod is connected with a transmission part.

Preferably, the driving medium is including connecting the mounting panel in minute flitch one side, and is connected with the motor on the mounting panel, and the one end that divides the flitch is passed to the branch material pole is connected with first helical gear, and the meshing of the first helical gear outside has the second helical gear, all is connected with the flywheel on the axle of second helical gear and the output shaft of motor, and through the transmission of drive belt between two flywheels, the one end and the screening subassembly of the output shaft of motor are connected.

Preferably, strike the subassembly including connecting the dwang in motor output shaft one end, the outside of dwang is connected with two limiting plates, and the bottom of two limiting plates is connected with branch flitch bottom, is connected with a plurality of pieces of strikeing on the dwang, and strikes the piece and distribute according to opposite direction is crisscross.

Preferably, the screening subassembly is including setting up a plurality of oblique notches of distinguishing on the screening district, and the one end of distinguishing oblique notch is connected with the collection return bend, be equipped with the shifting chute on the screening district, and shifting chute department is equipped with the sliding block, the bottom of sliding block is connected with the moving member, and the sliding block top is connected with T shape frame plate, be connected with the guide bar between the top both ends of T shape frame plate, and T shape frame plate top both ends department is connected with the electro-magnet respectively, the last sliding connection of guide bar has the permanent magnet, and the top of permanent magnet is connected with the horizontal pole, and be connected with a plurality of differentiation arc boards on the horizontal pole.

Preferably, the moving member is connected with the pivot including connecting the support column in the sliding block bottom, the one end of support column, and the outside of pivot is connected with two moving gear, and the bottom cell wall department of shifting chute is equipped with twice and moving gear rack of mutually supporting, and the one end of pivot is connected with the displacement motor, and the bottom of screening district is equipped with the spacing groove, and the bottom sliding connection of displacement motor is in spacing groove department.

Preferably, the diameters of the openings among the plurality of distinguishing arc plates are gradually reduced, and the magnetic adsorption material for adsorbing the abrasive is adhered to the inner walls of the openings of the distinguishing arc plates.

Compared with the prior art, the invention has the beneficial effects that:

according to the invention, a plurality of concave holes are formed in the conveying belt, after a workpiece is polished by abrasive materials, the abrasive materials left on the conveying belt are primarily separated in the concave holes, when the abrasive materials are mixed, ground and fall to the material separating plate, the abrasive materials are separated into corresponding paths through a plurality of track groove plates, the mixed ground and fall from the sand screening net plate, after the sand screening net plate is knocked by the knocking assembly, the power part of the knocking assembly drives the material separating assembly to gradually separate the abrasive materials at the corresponding track groove plates through the transmission part, and then the separated abrasive materials are separated and collected by the screening assembly, so that the problem that the existing process of repeatedly screening the abrasive materials mixed with the ground and the process of separately collecting different abrasive materials are avoided, and the separated and collected process is facilitated.

Drawings

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

FIG. 2 is a schematic bottom view of the present invention;

FIG. 3 is a schematic structural view of the shot blasting machine of the invention after being dismantled;

FIG. 4 is a schematic side view of the structure of FIG. 3;

FIG. 5 is a schematic view of the partially exploded structure of FIG. 4;

FIG. 6 is a schematic structural view of the knocking assembly and the material distributing assembly;

FIG. 7 is a schematic view of a partially cut-away construction of a screen assembly;

fig. 8 is an enlarged structural view of a region a in fig. 7.

In the figure: 1-shot blasting machine body; 2-material distributing plate; 3-a track groove plate; 4-screening a sand screen plate; 5-a knocking component; 6-a material distributing assembly; 7-a screen assembly; 8-a transmission member; 9-a moving member; 11-a conveyor belt; 12-concave holes; 21-oblique plate materials; 22-screening zone; 31-a circular groove; 51-rotating rod; 52-limiting plate; 53-knocking block; 61-a material distributing rod; 62-a meander; 71-distinguishing the oblique notches; 72-a collection elbow; 73-moving the trough; 74-a slider; 75-T-shaped frame plates; 76-a guide bar; 77-an electromagnet; 78-a permanent magnet; 79-cross bar; 81-a support plate; 82-a motor; 83-a first bevel gear; 84-a second bevel gear; 85-flywheel; 86-a transmission belt; 91-a support column; 92-a rotating shaft; 93-a moving gear; 94-a rack; 95-a movement motor; 96-a limiting groove; 791-separate arc plates.

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.

Referring to fig. 1-4, the present invention provides a technical solution: the utility model provides an abrasive screening plant for shot-blasting machine, it is comparatively troublesome to have solved the screening of present different abrasives after mixing the dull polish in this scheme, and the design in this scheme includes shot-blasting machine body 1, is equipped with transport belt 11 in shot-blasting machine body 1, and transport belt 11's surface department sets up a plurality of shrinkage pools 12 of accepting the abrasive; when the grinding materials are thrown from fan blades of the shot blasting machine body 1 to process a workpiece, the grinding materials fall to the positions of the concave holes 12, as a plurality of groups of concave holes 12 are formed in the conveying belt 11 in the scheme, the grinding materials are conveniently and temporarily distinguished at the position of the conveying belt 11, the lower end of the conveying belt 11 is provided with the material distribution plate 2, two side walls of the material distribution plate 2 are fixedly connected with the inside of the shot blasting machine body 1, a slope is arranged at one end, close to the material distribution plate 2, of the shot blasting machine body 1, after the grinding materials fall from the conveying belt 11 to the material distribution plate 2, the risk of bouncing of the grinding materials is reduced, meanwhile, the guiding of the slope is utilized, the further separation processing of the grinding materials is convenient, a plurality of track groove plates 3 which are opposite to the concave holes 12 are arranged on the material distribution plate 2, and the bottom of the material distribution plate 2 is connected with a sand screening mesh plate 4; the bottom of the sand screening net plate 4 is connected with a knocking component 5 for knocking the bottom of the sand screening net plate 4, and one end of the knocking component 5 is connected with a material distributing component 6 for distributing the grinding materials and the frosted materials at one end of the material distributing plate 2; and the screening assembly 7 is positioned on one side of the sand screening net plate 4, and the screening assembly 7 is used for distinguishing and collecting the abrasives separated by the material separating assembly 6.

In this scheme, set up a plurality of shrinkage pools 12 on transport belt 11, after the abrasive material is polished the processing to the work piece, the abrasive material that the abrasive material was left on transport belt 11 carries out the primary separation at shrinkage pool 12, after the abrasive material mixed dull polish dropped to branch flitch 2, divide through a plurality of track frid 3, separately be corresponding way with the abrasive material, mixed dull polish drops from sieve sand otter board 4, strike subassembly 5 and strike sieve sand otter board 4 after, strike subassembly 5's power part and divide material subassembly 6 to carry out progressively separation at corresponding track frid 3 department through the transmission part 8 transmission, then utilize screening subassembly 7 to part the abrasive material separately collect, avoid having the abrasive material of mixed dull polish to divide the in-process to need repeated screening now, and be favorable to the separately collection of different abrasive materials.

One end of the material distributing plate 2, which is far away from the conveying belt 11, is provided with an inclined plate 21, and the inclined plate 21 divides the lengths of the plurality of track groove plates 3 according to equal difference; one side of the track groove plate 3 is provided with a circular groove 31 through which the grinding materials pass, the material distribution component 6 is distributed at the contact position of the inclined plate material 21 and the track groove plate 3, one side of the material distribution plate 2 is provided with a screening area 22, and the screening component 7 is positioned at the screening area 22.

When abrasive material drops divides flitch 2 when track frid 3 removes, can carry out preliminary screening to the dull polish of mixing in the abrasive material this moment, strike subassembly 5 part as attached 6, strike subassembly 5 including connecting the dwang 51 in motor 82 output shaft one end, the outside of dwang 51 is connected with two limiting plates 52, and the bottom of two limiting plates 52 is connected with branch flitch 2 bottom, be connected with a plurality of pieces 53 of strikeing on the dwang 51, and strike piece 53 according to the crisscross distribution of opposite direction, the output shaft of motor 82 drives dwang 51 and rotates, thereby make the crisscross fixed connection each other strike piece 53 collision screening sand screen 4 bottoms in the dwang 51 outside, because screening sand screen 4 in this scheme forms through a root steel wire, itself has certain elasticity, the abrasive material that current shot-blasting machine used simultaneously generally is the spheroid, its volume is greater than the mesh of screening sand screen 4, less work piece dull polish drops from the mesh department of screening sand screen 4, thereby be favorable to screening abrasive material and dull polish.

After the abrasive and the frosting are primarily screened, the abrasive needs to be further screened, as shown in fig. 3-5, the material distributing assembly 6 includes a material distributing rod 61 arranged at the material distributing plate 2, the material distributing rod 61 is located inside the track groove plate 3 and is provided with a zigzag section 62, the distribution directions of every two adjacent zigzag sections 62 are opposite, one end of the material distributing rod 61 is rotatably connected with the outer side wall of the screening area 22, and one end of the material distributing rod 61, which penetrates through the material distributing plate 2 in a sliding manner, is connected with a transmission part 8. The transmission part 8 comprises a support plate 81 connected to one side of the material distribution plate 2, a motor 82 is connected to the support plate 81, one end of the material distribution rod 61 penetrating through the material distribution plate 2 is connected with a first bevel gear 83, a second bevel gear 84 is meshed to the outer side of the first bevel gear 83, flywheels 85 are connected to the shaft of the second bevel gear 84 and the output shaft of the motor 82, the two flywheels 85 are driven by a transmission belt 86, and one end of the output shaft of the motor 82 is connected with the screening component 7.

After the flywheel 85 at the output end of the motor 82 is transmitted to another flywheel 85 to rotate, the second helical gear 84 rotates at the moment, because the second helical gear 84 and the first helical gear 83 are meshed with each other, and further the material distribution rod 61 is convenient to rotate, because the lengths of the abrasive materials passing through the track groove plates 3 are gradually increased, even if the abrasive material with the shortest length of the track groove plates 3 firstly contacts the circular groove 31, after the abrasive material enters the next circular groove 31 through the circular groove 31, the bent section 62 on the material distribution rod 61 opens the adjacent next track groove plate 3 at the moment, the abrasive material is convenient to enter the position of the circular groove 31, the abrasive material is conveniently separated at intervals, the abrasive material is prevented from being concentrated, and after the abrasive material passes through the circular groove 31 in sequence, the screening area 22 is screened again.

When the abrasive material enters the screening area 22, as shown in fig. 7-8, the screening assembly 7 includes a plurality of inclined dividing notches 71 disposed on the screening area 22, one end of each inclined dividing notch 71 is connected with a collecting elbow 72, a moving groove 73 is disposed on the screening area 22, a sliding block 74 is disposed at the position of the moving groove 73, a moving member 9 is connected to the bottom of the sliding block 74, the top of the sliding block 74 is connected with a T-shaped frame plate 75, a guide rod 76 is connected between two ends of the top of the T-shaped frame plate 75, two ends of the top of the T-shaped frame plate 75 are respectively connected with an electromagnet 77, a permanent magnet 78 is slidably connected to the upper surface of the guide rod 76, a cross rod 79 is connected to the top of the permanent magnet 78, a plurality of arc dividing plates 791 are connected to the cross rod 79, the diameter of openings between the arc dividing plates 791 is gradually reduced, a magnetic adsorption material for adsorbing the abrasive material is adhered to the inner walls of the openings of the arc plates 791, the supporting column 9 includes a supporting column 91 connected to the bottom of the sliding block 74, a rotating shaft 92 is connected to the outer side of the rotating shaft 92, two moving gears 93 are disposed at the bottom groove wall of the moving groove 73, a sliding gear rack 94 mutually matched with a moving motor 96 disposed at the bottom of the moving groove 96, and a moving motor 96 for moving groove 95 is connected to the moving groove 96.

The adsorbing material of the distinguishing arc plate 791 is convenient for adsorbing the abrasive made of steel to roll, when the abrasive just moves to the opening position at the bottom of the distinguishing arc plate 791 suitable for the size of the abrasive, the abrasive is just adsorbed, at the moment, under the driving action of the moving motor 95, the rack 94 matched with the gear 93 is moved, the supporting column 91 and the sliding block 74 fixed at the top of the supporting column are driven to move forwards, because the top of the sliding block 74 is connected with the T-shaped frame plate 75, the guide rod 76 is connected between two ends of the top of the T-shaped frame plate 75, the electromagnets 77 are respectively connected at two ends of the top of the T-shaped frame plate 75, the upper sliding of the guide rod 76 is connected with the permanent magnet 78, the top of the permanent magnet 78 is connected with the cross rod 79, the cross rods 79 are connected with the distinguishing arc plates 791, so that the adsorbed abrasive is synchronously driven to move, the distinguishing arc plates 791 with different sizes are designed in the scheme, so that the abrasive with different sizes is adsorbed, after the distinguishing arc plates are close to the oblique notches 71, at the abrasive is arranged and explained in the figure 8, at the moment, the electromagnets 77 and the permanent magnets are close to the collection notches 71, so that the abrasive is close to the oblique notches, the collecting notches of the electromagnets 78, at the electromagnets 77, and the abrasive.

Carry out the primary separation with abrasive material and dull polish in this scheme, then according to different interval detached mode, progressively carry out the secondary screening with the abrasive material, the dull polish sanitization on the abrasive material of being convenient for sieves according to the not unidimensional of abrasive material at last, avoids current screening mode that adopts the difference many times to the abrasive material to sieve, has improved screening efficiency, avoids the mixture between the different abrasive materials.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides an abrasive screening device for shot-blasting machine, includes shot-blasting machine body (1), its characterized in that: a conveying belt (11) is arranged in the shot blasting machine body (1), and a plurality of concave holes (12) for receiving grinding materials are formed in the surface of the conveying belt (11);

a material distribution plate (2) is arranged at the lower end of the conveying belt (11), a plurality of track groove plates (3) corresponding to the concave holes (12) are arranged on the material distribution plate (2), and a sand screening screen plate (4) is connected to the bottom of the material distribution plate (2);

the bottom of the sand screening plate (4) is connected with a knocking component (5) for knocking the bottom of the sand screening plate (4), and one end of the knocking component (5) is connected with a material distributing component (6) for distributing grinding materials and frosted materials at one end of the material distributing plate (2);

screening subassembly (7), screening subassembly (7) are located sieve sand otter board (4) one side, and screening subassembly (7) are used for distinguishing the abrasive material that divides the material after material subassembly (6) divides, screening subassembly (7) are including setting up a plurality of differentiation inclined groove openings (71) on screening district (22), and the one end of distinguishing inclined groove opening (71) is connected with and collects return bend (72), be equipped with shifting chute (73) on screening district (22), and shifting chute (73) department is equipped with sliding block (74), the bottom of sliding block (74) is connected with moving member (9), and sliding block (74) top is connected with T shape frame plate (75), be connected with guide bar (76) between the top both ends of T shape frame plate (75), and T shape frame plate (75) top both ends department is connected with electro-magnet (77) respectively, the last sliding connection of guide bar (76) has permanent magnet (78), and the top of permanent magnet (78) is connected with horizontal pole (79), and is connected with a plurality of differentiation arc board (791) on horizontal pole (79), and is a plurality of differentiation arc board (791) progressively reduce the diameter of the material that adsorbs the inner wall (791) and adsorb the magnetism.

2. The abrasive screening device for shot blasting machines of claim 1, wherein: one end of the material distributing plate (2) far away from the conveying belt (11) is provided with an inclined plate material (21), and the inclined plate material (21) divides the lengths of the plurality of track groove plates (3) according to equal difference;

one side of the track groove plate (3) is provided with a circular groove (31) through which abrasive materials pass, the material distribution component (6) is distributed at the contact position of the inclined plate material (21) and the track groove plate (3), one side of the material distribution plate (2) is provided with a screening area (22), and the screening component (7) is positioned at the screening area (22).

3. The abrasive screening device for shot blasting machines of claim 2, wherein: divide material subassembly (6) including setting up branch material pole (61) of dividing flitch (2) department, divide material pole (61) to be located inside tortuous section (62) of being equipped with of track frid (3), and the distribution opposite direction between per two adjacent tortuous section (62), the one end and the screening district (22) lateral wall of branch material pole (61) rotate to be connected, and the other end of dividing material pole (61) slides the one end that passes branch flitch (2) and is connected with driving medium (8).

4. The abrasive screening apparatus for shot blasting machines according to claim 3, wherein: the transmission part (8) is including connecting in mounting panel (81) of branch flitch (2) one side, and is connected with motor (82) on mounting panel (81), the one end that divides flitch (2) is passed in branch material pole (61) is connected with first helical gear (83), and the meshing in first helical gear (83) outside has second helical gear (84), all be connected with flywheel (85) on the axle of second helical gear (84) and the output shaft of motor (82), and pass through drive belt (86) transmission between two flywheel (85), the one end and the screening subassembly (7) of the output shaft of motor (82) are connected.

5. The abrasive screening apparatus for shot blasting machines according to claim 4, wherein: strike subassembly (5) including connecting dwang (51) in motor (82) output shaft one end, the outside of dwang (51) is connected with two limiting plate (52), and the bottom of two limiting plate (52) is connected with branch flitch (2) bottom, be connected with a plurality of pieces (53) of strikeing on dwang (51), and strike piece (53) and distribute according to opposite direction is crisscross.

6. The abrasive screening device for shot blasting machines of claim 2, wherein: moving member (9) are including connecting support column (91) in sliding block (74) bottom, the one end of support column (91) is connected with pivot (92), the outside of pivot (92) is connected with two moving gear (93), the bottom cell wall department of shifting chute (73) is equipped with twice rack (94) of mutually supporting with moving gear (93), the one end of pivot (92) is connected with displacement motor (95), the bottom of sieve subregion (22) is equipped with spacing groove (96), and the bottom sliding connection of displacement motor (95) is in spacing groove (96) department.