CN213103097U - Abrasive material shaping machine - Google Patents

Abstract

The utility model relates to the field of abrasive production, and provides an abrasive shaping machine, which comprises a vibration feeding device, an abrasive passivating device, an abrasive screening device and a material receiving device, wherein the vibration feeding device is connected with the abrasive passivating device, the abrasive passivating device is connected with the abrasive screening device, and the abrasive screening device is connected with the material receiving device; the utility model discloses a set up one-level screening structure and second grade screening structure, can sieve out the abrasive material that is greater than specification and dimension, through setting up tertiary screening structure and connecing the material net, can go out the abrasive material and the piece screening that are less than specification and dimension, guarantee that final abrasive material all is the abrasive material that accords with the specification, greatly improved the abrasive material yield, saved equipment simultaneously, saved the manpower, improved screening efficiency.

Description

Abrasive material shaping machine

Technical Field

The utility model relates to an abrasive material production field especially indicates abrasive material trimmer.

Background

The size is not of uniform size after the abrasive material shaping, needs to sieve the abrasive material and select the abrasive material that accords with the specification, and general screening machine can only carry out once screening, can't sieve out waste product abrasive material is whole, consequently needs a plurality of screening machines to sieve in proper order and expend time and manpower very much, and the abrasive material yield of sieving out is low, contains a lot of pieces, consequently needs one set can once sieve out finished product abrasive material, with waste product abrasive material and piece screening out machine.

SUMMERY OF THE UTILITY MODEL

The utility model provides an abrasive material trimmer through setting up one-level screening structure and second grade screening structure, can sieve the abrasive material that is greater than specification and dimension, through setting up tertiary screening structure and connecing the material net, can go out the abrasive material and the piece screening that are less than specification and dimension, guarantees that final abrasive material all is the abrasive material that accords with the specification, has greatly improved the abrasive material yield, has saved equipment simultaneously, has saved the manpower, has improved screening efficiency.

The technical scheme of the utility model is realized like this:

an abrasive dresser, comprising: the device comprises a vibration feeding device, an abrasive material passivation device, an abrasive material screening device and a material receiving device, wherein the vibration feeding device is connected with the abrasive material passivation device, the abrasive material passivation device is connected with the abrasive material screening device, and the abrasive material screening device is connected with the material receiving device;

the grinding material passivation device is arranged on the second support frame, and the vibration feeding device is arranged on the first support frame;

the grinding material passivation device comprises a ceramic double-roll machine, a first ceramic roll and a second ceramic roll, the first ceramic roll is connected with the ceramic double-roll machine, and the first ceramic roll and the second ceramic roll move in a synchronous reverse direction through gear engagement.

Further, the grinding material passivation device also comprises a shaping box, wherein the ceramic double-roll machine, the first ceramic roll and the second ceramic roll are all arranged in the shaping box;

the shaping box is fixed on the second support frame;

the distance between the first ceramic roller and the second ceramic roller is adjustable.

Further, the vibration feeding device comprises a vibration feeding machine and a vibration screening material box, the vibration feeding machine is mounted on the vibration screening material box, the vibration feeding machine is communicated with the vibration screening material box, and the vibration screening material box is communicated with the abrasive material passivation device;

the vibrating screen bin is mounted on the first support frame.

Further, abrasive screening plant includes one-level screening structure, second grade screening structure and tertiary screening structure, one-level screening structure simultaneously with vibration loading attachment reaches second grade screening structure connects, second grade screening structure simultaneously with one-level screening structure and tertiary screening structure connect, tertiary screening structure simultaneously with second grade screening structure reaches vibration loading attachment connects. Further, the primary screening structure comprises a first material receiving frame and a first screening net, the first material receiving frame is fixed on the first support frame, the first screening net is fixed on the first material receiving frame, the first screening net is connected with the abrasive material passivation device, the first screening net is connected with a first feeding pipe, the first feeding pipe is connected with the vibration feeding device, and the first material receiving frame is connected with the secondary screening structure;

the secondary screening structure comprises a second material receiving frame and a second screening net, the second material receiving frame is simultaneously fixed on the second support frame and the third support frame, the second screening net is fixed on the second material receiving frame, the second screening net is connected with the first material receiving frame, the second screening net is connected with a second feeding pipe, the second feeding pipe is connected with the vibration feeding device, and the second material receiving frame is connected with the tertiary screening structure;

the three-level screening structure comprises a third material receiving frame and a third screening net, the third material receiving frame is fixed on a third supporting frame, the third screening net is fixed on the third material receiving frame, the third screening net is connected with the second material receiving frame, the third screening net is simultaneously connected with the material receiving device, a third feeding pipe is connected to the bottom of the third screening net, and the third feeding pipe is connected with a waste material barrel.

Further, the material receiving device comprises supporting legs, a material receiving net and a material receiving barrel, the material receiving net is obliquely arranged on the supporting legs, the third supporting frame is arranged on the material receiving net, and the material receiving barrel is placed below the end part of the material receiving net;

a waste trough is further arranged at the bottom of the material receiving net, the waste trough is obliquely fixed below the material receiving net, and the inclination angles of the waste trough and the material receiving net are opposite;

the material receiving net is connected with the third screening net.

Furthermore, the material receiving net is obliquely arranged on the supporting legs through elastic parts.

Further, the first screening net, the second screening net and the third screening net are all arranged obliquely relative to the horizontal plane;

the end of the first screening net connected with the abrasive material passivation device is higher than the end connected with the second screening net;

one end of the second screening net connected with the first screening net is higher than one end of the second screening net connected with the third screening net;

and one end of the third screening net connected with the second screening net is higher than one end of the third screening net connected with the material receiving device.

Further, the mesh number of the first screening net is smaller than that of the second screening net, and the mesh number of the second screening net is smaller than that of the third screening net.

The utility model discloses a set up one-level screening structure and second grade screening structure, can sieve out the abrasive material that is greater than specification and dimension, through setting up tertiary screening structure and connecing the material net, can go out the abrasive material and the piece screening that are less than specification and dimension, guarantee that final abrasive material all is the abrasive material that accords with the specification, greatly improved the abrasive material yield, saved equipment simultaneously, saved the manpower, improved screening efficiency.

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 description of the embodiments or the prior art 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 for a customer of ordinary skill in the art, other drawings can be obtained according to these drawings without inventive labor.

Fig. 1 is a schematic perspective view of an abrasive dresser according to an embodiment of the present invention;

fig. 2 is a schematic structural view of an abrasive screening device of the abrasive dresser shown in fig. 1.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely below with reference to 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 efforts belong to the protection scope of the present invention.

In the specific embodiment of the present invention, see fig. 1-2, the abrasive material shaping machine includes a vibration feeding device 2, an abrasive material passivation device 3, an abrasive material sieving device 4 and a material receiving device 5, the vibration feeding device 2 is connected to the abrasive material passivation device 3, the abrasive material passivation device 3 is connected to the abrasive material sieving device 4, and the abrasive material sieving device 3 is connected to the material receiving device 5;

in the working process of the abrasive material passivation device 3, once materials are supplied in an aggregation mode, passivation quality and passivation efficiency can be seriously influenced, in order to prevent the materials from being supplied in an aggregation mode, the materials are supplied by using the vibration feeding device 2, the materials can be conveyed in a distributed mode through the vibration feeding device 2, the materials are prevented from being aggregated, and the passivation quality and the passivation efficiency of the abrasive material passivation device 3 are effectively improved;

simultaneously because the size of abrasive material is not uniform, the abrasive material can not all reach standard size after carrying out passivation once in abrasive material passivating device 3, consequently need sieve the abrasive material, makes the abrasive material that does not reach the requirement passivate once more, has set up abrasive material screening plant 4 based on this to sieve the abrasive material, guarantee that all abrasive materials all reach the standard.

In the specific embodiment of the present invention, as shown in fig. 1-2, since the abrasives need to be screened step by step to screen all unqualified abrasives, the vibration feeding device 2, the abrasive passivation device 3, the abrasive screening device 4 and the receiving device 5 need to be placed at different heights, respectively, so that the ladder-shaped support frame 1 is provided, the ladder-shaped support frame 1 includes a first support frame 11, a second support frame 12 and a third support frame 13, the third support frame 13 is disposed on the receiving device 5, the abrasive screening device 4 is disposed on the third support frame 13, the abrasive passivation device 3 is disposed on the second support frame 12, and the vibration feeding device 2 is disposed on the first support frame 11;

the grinding material passivation device 3, the primary screening structure 41, the secondary screening structure 42 and the tertiary screening structure 43 are arranged on the first support frame 11, the second support frame 12 and the third support frame 13 at different heights, so that unqualified grinding materials are screened step by step, and the quality of the grinding materials is effectively guaranteed.

In the embodiment of the present invention, as shown in fig. 1-2, the abrasive passivation device 3 comprises a ceramic roller pair 34, a first ceramic roller 31 and a second ceramic roller 32, the first ceramic roller 31 is connected to the ceramic roller pair 34, and the first ceramic roller 31 and the second ceramic roller 32 perform synchronous reverse motion through gear engagement;

because the abrasive material texture is hard, consequently choose for use ceramic roller to passivate, ceramic roller low price, not fragile and passivation efficiency are high, have effectively guaranteed machining efficiency.

In the embodiment of the present invention, as shown in fig. 1-2, the abrasive passivation apparatus 3 further includes a shaping box 33, and the ceramic pair roller 34, the first ceramic roller 31 and the second ceramic roller 32 are all disposed in the shaping box 33;

the shaping box 33 is fixed on the second support frame 12;

simultaneously for make equipment can passivate the abrasive material of different size marks, set second ceramic roller 32 to position adjustable structure, can accomplish the demand through changing the gear of different sizes, first ceramic roller 31 is adjustable with the interval of second ceramic roller 32 promptly to can adapt to the production of the abrasive material of different size specifications.

In the embodiment of the present invention, as shown in fig. 1-2, the vibration feeding device 2 comprises a vibration feeding machine 21 and a vibration screening material box 22, the vibration feeding machine 21 is installed on the vibration screening material box 22, the vibration feeding machine 21 is communicated with the vibration screening material box 22, and the vibration screening material box 22 is communicated with the abrasive material passivation device 3;

the vibrating screen material box 22 is arranged on the first support frame 11;

after being screened by the vibrating screen bin 22, the grinding materials can uniformly flow into the grinding material passivation device 3, and the passivation rate of the grinding materials is effectively improved.

In the embodiment of the present invention, as shown in fig. 1-2, the abrasive screening device 4 includes a primary screening structure 41, a secondary screening structure 42 and a tertiary screening structure 43, the primary screening structure 41 is connected to the vibration feeding device 2 and the secondary screening structure 42 at the same time, the secondary screening structure 42 is connected to the primary screening structure 41 and the tertiary screening structure 43 at the same time, and the tertiary screening structure 43 is connected to the secondary screening structure 42 and the vibration feeding device 2 at the same time;

and screening out the grinding materials which do not meet the standard step by step through the primary screening structure 41, the secondary screening structure 42 and the tertiary screening structure 43, and passivating again to ensure that the sizes of the final grinding materials all reach the standard.

In the embodiment of the present invention, see fig. 1-2, the primary screening structure 41 includes a first material receiving frame 411 and a first screening net 412, the first screening net 412 is fixed on the first material receiving frame 411, the first screening net 412 is connected to the abrasive passivation apparatus 3, the first screening net 412 is connected to a first material feeding pipe 413, the first material feeding pipe 413 is connected to the vibration material feeding apparatus 2, the first material receiving frame 411 is connected to the secondary screening structure 42, the first screening net 412 screens out the abrasive materials larger than the specification size, so as to passivate the larger abrasive materials from the newly fed abrasive passivation apparatus 3;

the secondary screening structure 42 comprises a second material receiving frame 421 and a second screening net 422, the second screening net 422 is fixed on the second material receiving frame 421, the second screening net 422 is connected with the first material receiving frame 411, the second screening net 422 is connected with a second feeding pipe 423, the second feeding pipe 423 is connected with the vibration feeding device 2, the second material receiving frame 421 is connected with the tertiary screening structure 43, and the second screening net 422 also screens out the abrasive materials with the sizes larger than the specification size so as to feed the larger abrasive materials into the abrasive material passivation device 3 from the new passivation;

the three-stage screening structure 43 comprises a third material receiving frame 431 and a third screening net 432, the third screening net 432 is fixed on the third material receiving frame 431, the third screening net 432 is connected with the second material receiving frame 421, the third screening net 432 is simultaneously connected with the material receiving device 5, the bottom of the third screening net 432 is connected with a third feeding pipe 433, and the third feeding pipe 33 is connected with the waste material barrel 6, namely the third screening net 33 screens out the abrasive materials smaller than the specification size and conveys the abrasive materials meeting the specification into the material receiving device 5 for collection;

in summary, the mesh count of the first screening mesh 412 is smaller than the mesh count of the second screening mesh 422, and the mesh count of the second screening mesh 422 is smaller than the mesh count of the third screening mesh 432;

the large-size abrasive sieved by the first sieving net 412 is passivated in a newly-entered abrasive passivating device 3 through a first feeding pipe 413, the small-size abrasive falls into a first material receiving frame 411 and then flows into a second sieving net 422, the large-size abrasive sieved by the second sieving net 422 is passivated in the newly-entered abrasive passivating device 3 through a second feeding pipe 423, the small-size abrasive falls into a second material receiving frame 421 and then flows into a third sieving net 432, the large-size abrasive sieved by the third sieving net 432 is the abrasive meeting the specification, the small-size abrasive is waste, the abrasive meeting the specification flows into the material receiving device to be collected, and the waste flows into a waste barrel 6;

through screening step by step, the grinding materials meeting the specification are completely collected, secondary passivation of the grinding materials is prevented, screening quality of the grinding materials is guaranteed, waste materials are reduced, and production is greatly improved.

In the specific embodiment of the present invention, as shown in fig. 1-2, the material receiving device 5 includes 8 supporting legs 54, a material receiving net 52 and a material receiving barrel 51, the material receiving net 52 is obliquely disposed on the supporting legs 54, the third supporting frame 13 is disposed on the top of the material receiving net 52, and the material receiving barrel 51 is disposed below the end of the material receiving net 52;

the bottom of the material receiving net 52 is also provided with a waste material groove 55, the waste material groove 55 is obliquely fixed below the material receiving net 52, the inclination angles of the waste material groove 55 and the material receiving net 52 are opposite, the abrasive materials are in accordance with the specification when entering the material receiving net 52, but the abrasive materials generate broken powder due to mutual collision and friction in the transportation process, the broken powder in the abrasive materials can be screened out after the material receiving net 52 is arranged, and the waste material is discharged into the waste material box 6 through the waste material groove 55, so that the neatness of the abrasive materials is ensured;

the receiving net 52 is connected to a third sifting net 432.

In the embodiment of the present invention, as shown in fig. 1-2, the material receiving net 52 is obliquely installed on the supporting leg 54 through the elastic component 53;

after the elastic part 53 is arranged, when the abrasive material flows into the material receiving net 52, the material receiving net 52 is driven to slightly vibrate due to the gravity of the abrasive material, the abrasive material is driven to be conveyed forwards, and meanwhile, the crushed powder in the abrasive material is screened out and falls into the waste material groove 55;

the elastic member 53 may be an elastic body having a load-bearing capacity such as spring steel.

In a specific embodiment of the present invention, as shown in fig. 1-2, the first screening mesh 412, the second screening mesh 422, and the third screening mesh 432 are all disposed inclined with respect to the horizontal plane;

the end of the first screening mesh 412 connected to the abrasive passivation means 3 is higher than the end connected to the second screening mesh 422;

the end of the second screening mesh 422 connected to the first screening mesh 412 is higher than the end connected to the third screening mesh 432;

the end of the third screening net 432 connected with the second screening net 422 is higher than the end connected with the receiving device 5.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (9)

1. Abrasive material trimmer, its characterized in that: the device comprises a vibration feeding device, an abrasive material passivation device, an abrasive material screening device and a material receiving device, wherein the vibration feeding device is connected with the abrasive material passivation device, the abrasive material passivation device is connected with the abrasive material screening device, and the abrasive material screening device is connected with the material receiving device;

the grinding material passivation device is arranged on the second support frame, and the vibration feeding device is arranged on the first support frame;

the grinding material passivation device comprises a ceramic double-roll machine, a first ceramic roll and a second ceramic roll, the first ceramic roll is connected with the ceramic double-roll machine, and the first ceramic roll and the second ceramic roll move in a synchronous reverse direction through gear engagement.

2. The abrasive dresser of claim 1, wherein: the grinding material passivation device further comprises a shaping box, and the ceramic double-roll machine, the first ceramic roll and the second ceramic roll are all arranged in the shaping box;

the shaping box is fixed on the second support frame;

the distance between the first ceramic roller and the second ceramic roller is adjustable.

3. The abrasive dresser of claim 1, wherein: the vibration feeding device comprises a vibration feeding machine and a vibration screening material box, the vibration feeding machine is mounted on the vibration screening material box, the vibration feeding machine is communicated with the vibration screening material box, and the vibration screening material box is communicated with the abrasive material passivation device;

the vibrating screen bin is mounted on the first support frame.

4. The abrasive dresser of claim 1, wherein: abrasive screening plant includes one-level screening structure, second grade screening structure and tertiary screening structure, one-level screening structure simultaneously with vibration loading attachment reaches second grade screening structural connection, second grade screening structure simultaneously with one-level screening structure and tertiary screening structural connection, tertiary screening structure simultaneously with second grade screening structure reaches vibration loading attachment connects.

5. The abrasive dresser of claim 4, wherein: the primary screening structure comprises a first material receiving frame and a first screening net, the first material receiving frame is fixed on a first support frame, the first screening net is fixed on the first material receiving frame, the first screening net is connected with the abrasive material passivation device, the first screening net is connected with a first feeding pipe, the first feeding pipe is connected with the vibration feeding device, and the first material receiving frame is connected with the secondary screening structure;

the secondary screening structure comprises a second material receiving frame and a second screening net, the second material receiving frame is simultaneously fixed on the second support frame and the third support frame, the second screening net is fixed on the second material receiving frame, the second screening net is connected with the first material receiving frame, the second screening net is connected with a second feeding pipe, the second feeding pipe is connected with the vibration feeding device, and the second material receiving frame is connected with the tertiary screening structure;

the three-level screening structure comprises a third material receiving frame and a third screening net, the third material receiving frame is fixed on a third supporting frame, the third screening net is fixed on the third material receiving frame, the third screening net is connected with the second material receiving frame, the third screening net is simultaneously connected with the material receiving device, a third feeding pipe is connected to the bottom of the third screening net, and the third feeding pipe is connected with a waste material barrel.

6. The abrasive dresser of claim 5, wherein: the material receiving device comprises supporting legs, a material receiving net and a material receiving barrel, the material receiving net is obliquely arranged on the supporting legs, the third supporting frame is fixed at the top of the material receiving net, and the material receiving barrel is placed below the end part of the material receiving net;

a waste trough is further arranged at the bottom of the material receiving net, the waste trough is obliquely fixed below the material receiving net, and the inclination angles of the waste trough and the material receiving net are opposite;

the material receiving net is connected with the third screening net.

7. The abrasive dresser of claim 6, wherein: the material receiving net is obliquely arranged on the supporting legs through elastic parts.

8. The abrasive dresser of claim 5, wherein: the first screening net, the second screening net and the third screening net are all arranged obliquely relative to the horizontal plane;

the end of the first screening net connected with the abrasive material passivation device is higher than the end connected with the second screening net;

one end of the second screening net connected with the first screening net is higher than one end of the second screening net connected with the third screening net;

and one end of the third screening net connected with the second screening net is higher than one end of the third screening net connected with the material receiving device.

9. The abrasive dresser of claim 5, wherein: the mesh number of the first screening net is smaller than that of the second screening net, and the mesh number of the second screening net is smaller than that of the third screening net.

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